Detailed Project Report

Pimpri-Chinchwad Continuous Pressurized Water Supply

Project under AMRUT Program, 60% Area-Phase I, 2 and 3
Volume I: General Report

Project Pimpri-Chinchwad Water Supply Project

Client Pimpri-Chinchwad Municipal Corporation
Work Order WS/06/874/2016, Dt: 02/06/2016

Prepared By Dahasahasra Waternet Solutions,

911, C-Wing, Urvi Park, Oppo. Oswal Park, Pokhran Road No. 2,
Thane (W)- 400601,
Tel: +91 22 21736896, 09987030080(Mobile)
Table of Contents
EXECUTIVE SUMMARY 5
Background
Summary
Critical Recommendation

1 INTRODUCTION 19
1.1 Introduction
1.2 History
1.3 Demographics
1.4 Geography
1.5 Topography
1.6 Local Administration
1.7 Industry
1.8 Transport
1.9 Service Levels
1.10 Problems of Existing Water Supply
1.11 Need of Project
1.12 Objectives of the consultancy
1.13 Strategy to Reduce NRW

2 CRITERIA FOR SYSTEM PLANNING 29

2.1 General
2.2 System of Water Supply
2.3 Design Period
2.4 Population
2.5 Water Demand
2.6 Water Distribution Network
2.7 Road Map to 24/7 System
2.8 Software Used

3 PIMPRI-CHINCHWAD WATER SUPPLY- Existing 34

3.1 History
3.2 Existing Water Supply System
3.3 Environmental Compliance and Protection

4 Population Forecast and Demand Estimation 51

4.1 Population Forecast
4.2 Demand Projection

2
 5 HYDRAULIC MODEL OF Transmission mainof Pimpri-Chinchwad 54
5.1 Simulation Model
5.2 The Model in Process
5.3 System Simulation
5.4 Water Demand

6 Design of Transmission System 67

6.1 TRANSMISSION SYSTEM
6.2 Existing Pumping Stations in Distribution System
6.3 Design of Transmission System
6.3.1 ESRs on the sump of Sector10 pumping station
6.3.2 ESRs on Chinchwad Line
6.3.3 ESRs on Thergaon Line
6.3.4 ESRs on Mamurdi_Punavale
6.3.5 ESRs on Gavalimatha Line
6.3.6 ESRs on Krishna Nagar Sump
6.3.7 ESRs on Kudalwadi Line
6.3.8 ESR on Gairan
6.3.9 Pradhikaran ESR
6.4 Summary

7 Design of Distribution Network 176

7.1 All Pipes
7.2 Existing pipes
7.3 Design of Distribution pipe network
7.4 New pipes
7.5 District Metering Areas

8 APPENDICES-A 189

Disclaimer

This document has been prepared based on the information provided by PCMC. Wherever proposed, the products and/or services mentioned are based on the requirements defined
and understood by us at the time of preparing this document. Whilst every effort has been made to ensure accuracy in the preparation of this document, no responsibility can be
accepted for errors and / or omissions (for example, ground elevations), which are caused by incorrect or inadequate information supplied to us.

3
ABBREVIATIONS AND UNITS OF MEASURE

Abbreviations

AC Asbestos Cement
PCMC Pimpri-Chinchwad Municipal Corporation
CI Cast iron
DI Ductile iron
DMA District metering area
DPR Detailed project report
ESR Elevated service reservoir
GIS Geographic Information system
GoM Government of Maharashtra
GoI Government of India
HGL Hydraulic grade line
MBR Master balancing reservoir
MJP Maharashtra Jeevan Pradhikaran
MS Mild steel
NRW Non-revenue water
PVC Polyvinyl Chloride
WTP Water treatment plant
GSR Ground service reservoir

Units of Measure

Km Kilo meter
LPCD Liters per capita per day
m Meter
m2 Square meter
m3 Cubic meters
MLD Million liters per day

4
Executive Summary
The purpose of this document is to create a detailed project report (DPR) with advance
techniques of GIS and simulation Hydraulic Model for the 60% area of the Pimpri-
Chinchwad city and recommend a strategy, which would help Pimpri-Chinchwad Municipal
Council (PCMC) to design the pipe network of the distribution system of the city. This
combined document includes the Phase1, Phase2 and Phase3 of the 60% area. Ultimate
objective is to allow PCMC to achieve continuous (24/7) pressurized water supply to all its
customers including the poor. The project is designed to cover about 11 lakh population
(about 60 % of the city) having diverse socio-economic and demographic structure.

With a aim of increasing drinking water availability to the city and improving service level,
PCMC has planned a comprehensive water supply project. The Project focuses on- (i)
Reducing non-revenue water by leakage management and commercial losses through
identification and regularization of illegal connections, metering and improvement in billing
and collection systems; (ii) Refurbishment and expansion of transmission and distribution
network (iii) reforms to address revenue improvement, expenditure rationalization (water
and energy audit), customer relations and redressal systems and enablement of water
management for efficiency improvement and (iv) organizational strengthening and capacity
building. To achieve these objectives, PCMC has planned this project.

The project is expected to bring significant improvement in service delivery (as per the SLB
indicators), reduction of coping costs for citizens, financial sustainability for PCMC and most
importantly public health improvement. The project is designed to avoid hindrances (Ex. land
acquisition etc) and hence would be completed as per the indicated time.

The Pimpri-Chinchwad city is located (Figure A) in the Pune district of the state of
Maharashtra. The population of the city in the year 2011 was 17,30,133.

Figure A: Location of Pimpri-Chinchwad town

Background
5
Present water supply situation in the Pimpri-Chinchwad city is challenging. Presently a
number of ESR/GSR are supplying water to the distribution system. Due to lack of
investment and disarrayed distribution system, the current practice is to maintain water
supply on intermittent mode. The Non-Revenue Water is more than 50% and therefore, the
residents of the city get water just three hours in a day.

The cities in urban India are facing the similar situations, as a result, the coverage is less, per
capita share is on lower side, the level of NRW is quite high and there is no consumer
satisfaction. To overcome this and ameliorate the present status, Government of India (GoI)
has introduced its ambitious program of Atal Mission for Rejuvenation and Urban
Transformation (AMRUT) for the cities that have low coverage, low per capita share and
high values of non- revenue water. Pimpri-Chinchwad city administration is taking
advantage of this scheme. Under AMRUT project the city got funds phase wise, i.e., Phase1
and Phase2. As there is limitations of funds under AMRUT project, it is expected that PCMC
shall provide from its own sources the funds for the Phase3. Hence, this document is prepared
for all the three phases.

Summary

Presently water is pumped from the head works at the Rawet on Pavana river to the Water
Treatment Plant (WTP) at sector 23 through the three mild steel (MS) pipelines of diameters
1100 mm for 228 MLD, 1200 mm for 100 MLD and 1400 mm 100 MLD laid in the years
1989, 1999, 2006 and 2010. From pure water sumps of the WTP, treated water is pumped to
the existing ESRs and then supplied to the respective water districts of the distribution
systems. The plight of the distribution system is in disarrayed form. Existing ESRs are not in
a state to supply water on 24/7 system. The city is not divided into operational zones. The
design of the operational zone is not proper. Hence, distribution of water is in a haphazard
way. Besides this, there is unequal distribution of water too.

Advanced and powerful techniques of GIS mapping and the hydraulic modeling have been
used in the present study. Using these techniques, a GIS based hydraulic model simulating
the water supply system, right from the source to the consumers in distribution system has
been prepared.

Population forecast and the demand projection is carried out. The demands of water in the
water districts have been computed for immediate stage of the year 2030 and the pipe
network of the distribution system has been designed for ultimate stage of year 2045. The
demand allocation to the 17,624 nodes has been made using advanced feature of the
WaterGems.

The base scenario, simulating water supply of the entire city, has been prepared as a first step.
Child scenarios of the system for the various water zones have been created. The zoning is

6
made considering the capacity and serviceability of the existing ESRs. Using the model, the
sizes of the pipes are worked out.

Scope

Figure B shows 40% (shown in green color) and 60% are shown in blue color. There are 29
operational zones considered in 40% area and are shown in Table A. Work is in progress for
40% area which is out of scope of this DPR. There are 65 operational zones zones in 60%area
of PCMC as shown in Figure B. Apart from 65 operational zones there are two point demand
loads- Bhalewadi Stadium and Chest Hospital in 60% area. Present distribution pipe
network is therefore proposed to be divided into 65 zones. The district metering areas are also
designed and the location of the bulk meters is fixed.

Figure B: Areas selected in Phase I of 60% area of Pimpri-Chinchwad town

7
Table A: Operational zones considered in 40% area

SN Operational Zone
1 Ajmera-1
2 Ajmera-2
3 Annasaheb_Magar
4 Bhosari Gaothan
5 Dighi
6 Dighi Gaothan
7 Elpro a
8 Elpro b
9 Elpro New ESR
Gaothan New (Old
10
Sangavi)_b
11 New sangvi police Station
12 PWD Sector 84
13 Sant Tukaram
14 Sant Tukaram New
15 Sector 29a
16 Sector 29b
17 Sector7_10_a
18 Sector7_10_b
19 Thergaon Gaothan1
20 Triveni Nagar1
21 Triveni Nagar2
22 WD4 a
23 WD4 b
24 WD4 c
25 Bijli Nagar a*
26 Bijli Nagar b*
27 Bijli Nagar c*
28 Pradhikaran*
29 Premlok Park*
* Recently directed to include in 40%

8
Table B: Operational zones considered in Phase 1, 2 and 3 of 60% area

Phase1 Phase2 Phase3

SN Operational Zones SN Operational Zones SN Operational Zones
1 Ashok Cinema 1 Morewasti Chikhli 1 Charholi c
2 Ashram Shala 2 Nav Maha 2 Dudulgaon
3 B4_Mamurdi 3 Naydu 3 Gairan
4 Bopkhel 4 Nehru Nagar1 4 Kudalwadi New1
5 Dapodi1 5 Nehru Nagar2 5 Kudalwadi New2
6 Dapodi2 6 New Panjarpol 6 Kudalwadi New3
7 Dighi_Magzine 7 New Pimple Gurav Garden 20 Lakhs 7 Kudalwadi New4
8 Indrayaninagar a 8 New_Punavale 8 Moshi b
9 Kala Khadak 9 Panjarpol 9 New_Charoli
10 Kala Khadak New1 10 Pimple Gurao1 10 New_Moshi b
11 Kala Khadak New2 11 Pimple Gurao2 11 New_Wadmukhwadi b
12 Kasarwadi1 12 Pimple Gurao3 12 Wadmukhwadi b
13 Kasarwadi2 13 Pimple Gurav Garden 13 NewJadhavwadi2
14 Kaveri Nagar 14 Pimple Nilakh
15 Khandoba-1 15 Pimple Saudagar a
16 Khandoba-2 16 Pimple Saudagar b New
17 Lakshman Nagar 17 Pimpri Delux a
18 Lakshman Nagar 2 18 Pimpri Delux b
19 Mahendra & Mahendra 19 Proposed Naydu
20 NewJadhavwadi1 20 Punavale
21 Thergaon Gaothan2 21 Rahatni1
22 Rahatni2
23 Rahatni3
24 Rupi Nagar
25 Sachin1
26 Sachin2
27 Sector 28 New ESR
28 Sector 96
29 Sector 96 New Esr
30 Sector 96 Part 2
31 Shahu Nagar

Critical Recommendations

(1) New Elevated Service Reservoirs (ESR)

New tanks are suggested as shown in Table C.

9
Table C: New tanks
Elevation Elevation
Area Diameter Capacity Elevation
SN Phase Label (Minimum) (Maximum) St_Ht
(%) (m) (M3) (m)
(m) (m)
1 Phase3 60 Kudalwadi New1 602 607 22.5 1988 582 20
2 Phase0 40 Elpro New ESR 593.5 598.5 22.5 1988 568.5 25
Gaothan New (Old
3 Phase0 40 575 580 22.7 2024 555 20
Sangavi)_b
4 Phase1 60 Kala Khadak New2 603.5 608.5 28 3079 581.5 22
5 Phase1 60 NewJadhavwadi1 615.94 620.94 25.23 2500 598.7 17.24
6 Phase2 60 New_Punavale 591.97 596.97 22.5 1988 571.97 20
Pimple Saudagar b
7 Phase2 60 580 585 22.5 1988 560 20
New
8 Phase3 60 Gairan 615 620 22.5 1988 591 24
9 Phase3 60 Kudalwadi New2 602 607 22.5 1988 582 20
10 Phase3 60 Kudalwadi New3 610 615 22.5 1988 590 20
11 Phase3 60 Kudalwadi New4 610 615 22.5 1988 598 12
12 Phase3 60 New_Charoli 604 609 22.5 1988 584 20
13 Phase3 60 New_Moshi b 600.1 605.1 22.2 1935 580.1 20
New_Wadmukhwadi
14 Phase3 60 604 609 22.5 1988 584 20
b
15 Phase3 60 NewJadhavwadi2 615.94 620.94 20 1571 598.7 17.24

(2) Strengthening of the Transmission pipelines

New transmission pipelines shown shall be laid as shown in Figure C. In Phase 1, lines
shown in pink colours are proposed, orange for Phase 2 and Blue for Phase 3. The pipes
considered are shown in Table D.

D
Figure C: New pipelines (pink colour)

10
Table D: Details of new transmission mains

Diameter 40% 60% area

Grand Total
(mm) area Phase1 Phase2 Phase3
300 462 462
400 3301 3301
450 72 72
500 1146 2669 3152 12339 19306
600 316 31 1590 1937
700 193 4859 5052
750 254 254
900 423 394 817
1000 5606 1030 6636
Grand
6752 6479 5170 19436 37837
Total

Isolation Valves: Isolation valves (Butter fly) required in the transmission system are shown
in Table E.

Table E: Number of isolation valves

Diameter
Count
(mm)
200 1
300 9
350 2
400 13
450 7
500 60
600 13
700 2
750 1
800 1
1000 1
Grand
110
Total

Flow Controlling Valves in Transmission Mains:

Throttling valves required in the transmission system are shown in Table F.

11
Table F: Number of Flow controlling valves in 60% area

Number
Diameter
Total
(mm) Phase 1 Phase 2 Phase 3

300 1 11 12
350 4 4
400 2 12 14
450 1 6 7
500 17 16 31 64
600 1 1
600 12 12
700 1 1
750 1 1
800 1 1
900 1 1
1000 1 1
1200 2 2
Grand
21 49 51 121
Total

Bulk Meters in Transmission Mains:

Bulk meters required in the transmission system are shown in Table G.

Table G: Number of bulk meters

Diameter
Count
(mm)
200 1
300 8
350 2
400 13
450 7
500 60
600 13
700 2
750 1
800 1
1000 1
Grand
109
Total

Summary of pumps:

Summary of pumps is shown in Table H

12
Table H: Summary of pumps for the year 2030

Flow Head
Label (Design) (Design)
(ML/day) (m)
PMP-WTP_Phase3P 32 13
PMP-WTP_Phase3 32.2 13
PMP-WD4a,b,c 23.32 38
PMP-WTP_Sector10 84.56 10
PMP-Bopkhel 5.43 30
PMP-Sector 28 New 3.16 35
PMP-Dighi_Magzine 2.25 60
PMP-Sector7_10_b 3.04 40
PMP-Pimple Gurav Garden 2.98 35
PMP-Sachin1 3.65 30
PMP-Dighi Gaothan 3.71 65
PMP-Bhosari 4.23 40
PMP-Dapodi1 5.14 26
PMP-Sachin2 4.53 30
PMP-Dapodi2 2.95 26
PMP-Pimple Saudagar a 4.62 25
PMP-WTP_Ph3 41.04 16
PMP-WTP_Ph3 41.04 16
PMP-WTP_Ph3 41.04 16
PMP-Sector7_10_a 5.14 40
PMP_Mamurdi 5.21 55
PMP-PWD Sector 84 5.29 30
PMP-Punavale 7.81 40
PMP-Rahatni3 6.55 35
PMP-WTP_Phase3 6.8 35
PMP-Sector 96 6.88 35
PMP-Kala Khadak 7.23 40
PMP-Rahatni1 7.37 30
PMP-Shahu Nagar 7.38 30
PMP-Sector 96 Part 2 7.47 35
PMP-New Pimple Gurav
7.53 35
Garden
PMP-Kaveri Nagar 7.58 35
PMP-New sangvi police
7.42 30
Station
PMP-New_Punavale 5.85 45
PMP-Lakshman Nagar 2 8.47 30
PMP-Ashram 8.57 50
PMP-Rahatni2 8.77 35
PMP-Morewasti Chikhli 9.21 30
PMP-Pimple Saudagar b New 10.32 35

13
PMP-Kala Khadak New1 11.12 40
PMP-Rupi Nagar 11.13 30
PMP-Sector 96 New 11.26 35
PMP-Pradhikaran 12.12 30
PMP-Kala Khadak New 2 12.31 40
PMP-Pimple Gurao 13.02 30
PMP-Dighi 10.36 65
PMP-Lakshman Nagar 14.11 30
PMP-Kudalwadi2 14.57 45
PMP-Kudalwadi1 15.71 40
PMP-Triveni Nagar 15.9 25
PMP-Sant Tukaram 16.65 50
PMP-Jadhvwadi 20.32 60
PMP-GM_WD4 20.11 84.25
PMP-NewMBR 35.7 30

(3) Pipes in Distribution System

New

New pipes are proposed to increase coverage to 100%. Summary is shown in Tables I and J.

Table I: New pipes in the distribution system

Diameter Grand
New_60 Old_40 Old_40_A*
(mm) Total
Row Labels DI HDPE Total DI HDPE Total DI HDPE Total
99.3 252908 252908 84323 84323 16806 16806 354037
144.4 11 86904 86915 12292 12292 3655 3655 102862
150 916 7 923 229 229 7 7 1159
180.6 66020 66020 14465 14465 5852 5852 86337
250 111 111 111
300 89400 89400 24769 24769 6933 6933 121102
350 6167 6167 475 475 777 777 7419
400 38791 38791 13041 13041 3784 3784 55616
450 3163 3163 167 167 3330
500 14744 14744 5283 5283 2850 2850 22877
600 6744 6744 2500 2500 319 319 9563
700 3552 3552 493 493 31 31 4076
800 1419 1419 1419
1000 131 131 131
Grand Total 165018 405839 570857 46957 111080 158037 14832 26313 41145 770039
* PCMC directed to include operational zones of Bijli Nagar a, Bijli Nagar b, Bijli Nagar c,
Pradhikaran and Premlok Park in 40% area. Hence pipes in this area is denoted as Old_40_A

Phase wise break up of these new pipes in 60% area is shown in Table J.

14
Table J: Phase wise break up of the new pipes in 60% area
60_P1 60_P2 60_P3
Diamter (mm) Grand Total
DI HDPE Total DI HDPE Total DI HDPE Total
99.3 106066 106066 109229 109229 37613 37613 252908
144.4 11 22034 22045 32915 32915 31955 31955 86915
150 479 479 287 4 291 150 3 153 923
180.6 30290 30290 17209 17209 18521 18521 66020
250 111 111 111
300 38335 38335 29375 29375 21690 21690 89400
350 2262 2262 3121 3121 784 784 6167
400 15729 15729 17525 17525 5537 5537 38791
450 723 723 2290 2290 150 150 3163
500 3721 3721 5392 5392 5631 5631 14744
600 1876 1876 2781 2781 2087 2087 6744
700 187 187 1938 1938 1427 1427 3552
800 1411 1411 8 8 1419
Grand Total 64734 158390 223124 62828 159357 222185 37456 88092 125548 570857

(4) District Metering Areas

Total 127 DMAs are proposed in 65 zones (Figure D) of the 60% area. A care shall be taken
to isolate the DMAs.

Figure D: 48 DMA in selected area

Total number of DMAs in PCMC are shown in Table K.

15
Table K: DMAs in PCMC

60%
40% Total
Phase1 Phase2 Phase3
59 47 58 22 186

(5) Bulk Meters

The bulk meters, at the outlet of each tank and at the entry point of each DMA, have
suggested. These meters will be useful in measuring NRW in the system. The details of the
bulk meters in Phase1 have been given in Table L.
Table L: Abstract of bulk meters

Diameter
Phase1 Phase2 Phase3 Total
(mm)

80 8 6 14
100 130 134 37 301
150 129 144 56 329
200 99 81 33 213
250 20 13 5 38
300 81 88 45 214
350 8 6 14
400 47 33 20 100
450 11 18 1 30
500 8 19 13 40
600 11 15 6 32
700 1 1
800 2 1 3
Grand
554 558 217 1329
Total

(6) Flow Control Valves(FCV)

FCVs are essential to control the flows to the respective DMAs. They help to make equitable
distribution of water. Abstract of FCV is given in Table M,

Table M: Abstract FCV required in 60% area

16
 Number of FCV
Diameter
Total
(mm) Phase 1 Phase 2 Phase 3

300 12 22 6 40
350 2 3 5
400 31 17 7 55
450 2 2 4
500 8 5 13
600 1 4 1 6
Total 48 56 19 123

(7) Scour Valves

Abstract of scour valves is shown in Table N.

Table N: Abstract Scour valves
Diameter
Phase1 Phase2 Phase3 Total
(mm)
100 33 29 10 72
150 11 10 5 26
200 3 6 2 11
250 1 1 2
350 1 1 1 3
400 1 2 1 4
450 1 2 3
500 1 4 5
Grand
51 55 20 126
Total

Suggestions for 24x7 Water Supply

(1) Zero pressure test shall be conducted to ensure that the DMAs are perfectly hydraulically
discrete.

(2) Water audit is a continuous process and hence shall be conducted time to time to compute
the values of non-revenue water (NRW) of all the DMAs.

(3) Knowing the NRW values, a vigorous leak detection program shall be undertaken and
leaks shall be repaired to decrease the NRW values.

(4) House service connection, potential leakage points, will be suitably replaced with MDPE
pipe with strap saddle.

17
(5) PCMC is proposed to rationalize tariff structure for promoting water conservation through
demand management. Strengthening billing and collection system is equally important for
financial sustainability.

(6) PCMC should undertake strategy communication & IEC campaigns for ensuring support
and collaboration of stakeholders.

7) Customer satisfaction is primordial for sustainability of continuous water supply project.

PCMC shall introduce customer facilitation centers and a robust grievance redressal system.

The approach in this study shall help city administration to transform its current intermittent
supply to 24/7 continuous water system. The comprehensive approach adopted is depicted in
Figure E.

Figure E: Approach adopted

**

18
Chapter 1
Introduction

1.1 Introduction

Pimpri-Chinchwad is a city (Figure 1.1) in the Pune district of Maharashtra. The city
comprises of the twin towns of Pimpri and Chinchwad which are governed by a common
municipal body (the Pimpri-Chinchwad Municipal Corporation or PCMC).

Pimpri- Chinchwad

Figure 1.1: Location of Pimpri-Chinchwad city

1.2 History

Pimpri-chinchwad has main areas- Chinchwad, Pimpri, Nigdi, Akurdi, kalewadi and Bhosari.
Chinchwad is famous for Saint Morya Gosavi’s Shrine, which is one of the lord Ganesha’s
shaktipeeth (Figure 1.2) in Maharashtra state. This temple gets submerged in the river water
due to the flooding of the river Pavana every year (Figure 1.3). Local people consider it as
19
bathing of lord Ganesha. Chinchwad is also the birthplace of the Chapekar brothers. Pimpri-
Chinchwad is home to the historic town of Bhosari, originally known as Bhojapuri.

The original name of Bhosari is Bhojapur, which was the capital of King Bhoj, a legendary
king who ruled central parts of India two thousand years ago. During the period
of Mahabharata this city was known as Bhojakata, the capital of the Bhoja-Yadava king
Rukmi.

Figure 1.2: Shaktipeeth Figure 1.3: Ganesh Temple

1.3 Demographics

As of 2011 India census, Pimpri-Chinchwad had a population of 17,29,320. Male population

(9.45 lakh) and female population (7.83 lakh). Pimpri-Chinchwad has an average literacy rate
of 87.19 which is higher than the national average of 74.04%. In Pimpri Chinchwad, 14% of
the population is under 6 years of age.

1.4 Geography

Pimpri-Chinchwad city spans between the geographic co-ordinates of latitude N 18° 37' 07"
and longitude E 73° 48' 13.43". The township is situated at a height of 530 m above the sea
level. It is blessed with pleasant climate for entire year. Three rivers Pavana, Mula and
Indrayani flow through this area. Pimpri-chinchwad sources its water from the Pavana river
but release of domestic and industrial effluents, dumping of debris and domestic pollution has
severely affected the quality of the Pavana water though recently efforts have been taken to
improve the quality of water, which have been successful in some places along the riverside.
1.5 Topography

The city has a large area with undulations (Figure 1.4). It fall in Upper Bhima sub basin
(Figure 1.5).

20
 Figure 1.4: Terrain of the city

Pimpri-Chinchwad City

Figure 1.5: Location of Pimpri-Chinchwad city in sub basins

Drain lines of the city are shown in Figure 1.6.

21
 Figure 1.6: Drain lines of the city

1.6 Local administration

Pimpri-Chinchwad Municipal Corporation (PMC) is the local civil body. PMC is

administratively divided into four zones as shown in Figure 1.7.

Figure 1.7: Administrative zones of Pimpri-Chinchwad

22
The city is divided in 47 water districts which are shown in Figure 1.8. Later on demand is
computed using these districts.

Figure 1.8: Water districts of the Pimpri-Chinchwad city

1.7 Industies

Pimpri-Chinchwad is a major industrial hub. It hosts one of the biggest industrial zones
in Asia. Industrialization started way back in 1954 when Hindustan Antibiotics Limited was
established. The city is home to the Indian operations of major automobile companies
like Premier Limited, Mahindra Navistar, Bajaj Auto, BEL Optronic Devices Limited, TATA
Motors (formerly TELCO), Kinetic Engineering, Force Motors (formerly Bajaj
Tempo) DaimlerChrysler, Thermax and Autoline Industries. Apart from this the city contains
several heavy industries such as Forbes-Marshall, ThyssenKrupp and Alfa
Laval & Sandvik Asia. There are many manufacturing units in the city and also the German
company KSB Pumps, Swedish bearing company SKF. There is a Rajiv Gandhi Infotech
Park which hosts several Software and Information Technology majors like Accenture, IBM
India, KPIT Cummins, Tata Technologies, Infosys, Wipro etc.

1.8 Transport

Pimpri-Chinchwad is well connected by road, rail and air. It has a nearest airport at Pune.
Maharashtra government plans to set up a new airport near Chakan. Pune - Lonavla suburban
local trains run through this area. Old Pune–Mumbai Highway has been widened to four
lanes, which has improved connectivity to Pune and reduced travel time to less than 30
minutes. It has a State Transport Bus stand at Vallabhnagar. The main railway stations for
this area are Chinchwad Railway Station and Pimpri Railway Station.

23
1.9 Service Levels

The GoI standard performance indicators of water supply, benchmarks achieved so far and
the expected goal of benchmarks are summarized in Table 1.1.

Table 1.1: GoI performance indicators and achievement

After
implementation
Standard Pimpri-
SN Indicator of the
Benchmark Chinchwad
proposed
project
Coverage (percentage of
1 100% 77% 100%
households connected)
Per capita supply of water (litres
2 150 170 150 lpcd
per day)
3 Extent of metering (%) 100 78% 100%
4 Extent of non-revenue water (%) 20% 50% 20%
Continuity of water supply (hours
5 24 3 hours 24 Hours
per day)
6 Quality of water supplied (%) 100% 99% 100%
Efficiency in addressing customer
7 80% 60% 80%
complaints (%)
100% as per
Cost recovery in water supply 85%
8 100% CPHEEO
services (%)
norms
Efficiency in collection of water 42%
9 90% 90%
supply-related charges (%)
Source: PMC SLB

1.10 Problems of the Existing Water Supply

The city administration, including the water supply department, faces a very difficult task of
supply of drinking water supply. Important problems of the water supply system are
enumerated as below:

(1) Uneven Terrain: The city terrain has a number of undulating surfaces. The contours are
shown in Figure 1.9. The terrain has a level difference is in the range of 540 m to 620 m. The
system is lacking a pressure management, as a result there are uneven pressures in the
different parts of the city.

24
 Figure 1.9: Uneven terrain

(2) High NRW: The current NRW is high about 50%.

(3) Contamination due to Intermittent Supply: One of the important drawback of the
current intermittent water supply is that the water is contaminated in non-supply hours due to
the outside contaminants, which find entry in pipeline due to vacuum in pipeline and through
the leaking joints.

(4) Supply Hours: Main problem of the city’s water supply is that the residents get water
supply for just 3 hours daily. The supply hours are not regular. People have to remain awake
in night hours as well as in the early hours as the timing of the supply are erratic and not
regular. Due to this hardship some of the taps of the household connections and public taps
are kept open resulting into the loss of precious water resource.

(5) Large number of Valves: Due to intermittent water supply, zoning system for daily
operation has to be practiced by the city water supply maintenance engineers. The total
number of the valves in the distribution system are shown in Table 1.2. The special location
of these vales is shown in Figure 1.10.

25
Table 1.2: Number of valves
Water Prabhag No. of Valves
A 754
B 841
C 1178
D 800
Total 3573

Thus operation of zones require a large number of the staff for mere operation of the valves.

(6) Improper Operation Zones:

Serving area/ zone served by each elevated service reservoir (ESR) was not designed as per
their capacity. Despite disarrayed service area, existing pipelines have been found laid in
haphazard manner. Thus the residents get water with less pressure.

The operational zones are created with multiple tanks. There is common inlet and outlet for
tanks. But as diameter of the tanks vary, there will be fluctuations when transformation to
24/7 system occurs.

Main problems with the distribution system network (DSN) of the citys’ water supply system
is as follows:

 Capacity of ESR is not enough to cater the demand of its earmarked service area
(operational zone),
 ESR remains empty or found overflowing,

(7) Huge Coping Costs: Coping costs is a money which is required to cope up with the poor
service. Pimpri-Chinchwad residents have to expend Rs 5640 per annum to buy the plastic
overhead tanks, booster pumps, tankers and small purification devices.

1.11 Need for Project

The city is expanding leaps and bound. It is one of the fastest growing metropolitan cities in
India. Hence, the coverage needs improvement. The NRW of the city is high (50%). The
plight of distribution network is poor as the water districts have not been designed properly.
The pipelines have been laid haphazardly. Therefore there is no control on the distribution of
drinking water. Due to disarrayed distribution system, the water is not being distributed
equitably and with equal pressure.

The supply times are odd due to zoning method. Therefore, the taps are found open. The
residents have to expend on the coping costs due to poor delivery of water. In Transmission
main the hydraulic carrying is found insufficient, especially in the area of Chinchwad.

26
The city needs reduction of non-revenue water by leakage management and commercial
losses through identification and regularization of illegal connections, metering and
improvement in billing and collection systems. For strengthening the performance of the
distribution, refurbishment and expansion of transmission and distribution network is needed.
Hence, the project is required.

1.12 Objectives of the Consultancy

The objective of the present consultancy work is to prepare a DPR and create the GIS based
hydraulic model of the entire Pimpri-Chinchwad city, which shall simulate the system's
behavior. The study shall present the measures to be taken up by the Pimpri-Chinchwad
water utility to reduce the NRW and finally convert its existing intermittent water supply to
24/7 continuous water system and then make it sustainable. It shall also provide the measures
for making infrastructure to tackle present as well as future requirements of the city. A
detailed project report for converting present water supply into 24/7 system is the outcome of
this study. The study will not only solve the problem of inequitable flow, low pressures but
shall suggest a road map to 24/7 continuous water supply.

1.13 Strategy to Reduce NRW

A strategy has been formulated for reduction of NRW for which necessary steps are taken/
shall be taken for computation and reduction of NRW from its base line existing today.

i. Setting up correct zones for each ESR/ GSR: Operational zones are demarcated with
respect to ESR/ GSR’s capacity and serviceability

ii. Setting up District Metering Areas (DMA): District Metering Areas are set up for each
correct operational zone for the number of customers between 500 to 2000. These DMAs
must be made hydraulically discrete (isolated) by carrying out zero pressure tests,

iii. Out of 344 kms of selected area of distribution pipe network, 54.8 km pipeline will
have to be replaced, so after replacement, NRW can be brought down considerably as the
pipes will be new with good joint system

iv. House service connections: All house service connections shall be made by using
MDPE pipe,

v. Bulk and consumer metering: Bulk meters shall be installed with a provision of creating
a graph of minimum net night flow Vs. hours by sending SMS to the control room.

vi. Leak identification: Identify the leakage areas by conducting step tests and gathering
data from the data loggers. Exact location of leak spots shall be then fixed using leakage
identification instruments such as injection of helium gas, sounding rods, noise-corelator etc.,
27
vii. NRW reduction: Once the commercial and physical losses are known, measures shall
be taken up to bring them in accepted limit,

ix. Water Balance: Components of water balance such as- authorized billed meter
consumption, authorized billed unmetered consumption, unauthorized consumption due
to thefts, metering inaccuracies, leakage in transmission mains, distribution house service
connection shall be computed and water audit shall be carried out,

x. NRW reduction: Once the commercial and physical losses are known, measures shall be
taken up to bring them in accepted limit.

**

28
CHAPTER 2
Criteria for System Planning

2.1 General

This Chapter describes consideration of the design parameters that are used in the design of
distribution system and steps to be adopted for conversion of the existing system into 24/7
continuous water supply system.

2.2 Systems of Water Supply

The water may be supplied to the consumers by either- (1) continuous system or (2)
intermittent system. In the continuous system, the water will be available to the consumers
for all 24 hours a day. Whereas, the intermittent system will supply water only during peak
water demand period fixed hours in the morning and evening. The exact period of supply of
water to the consumers will depend on the availability of water from the source/ water
treatment plant, pumping rate, available storage of water, availability of electric power supply
during the day, water demand, seasons etc.

The intermittent system creates problems like contamination of water in the pipes during non-
supply hours, unhygienic as well as insanitation problems due to inadequate use of water by
certain group of people by utilizing minimum quantity of water. Besides, at majority of
places, the intermittent supplies may not provide much savings of water because of the
following reasons:

 In intermittent supply system, water is generally stored by the consumers in tanks,

drums, and utensils etc. for use during non-supply hours. They, if unutilized, as soon
as the fresh supply is restored, usually throw this stored water away. This increases
the wastage and losses of water considerably.
 The consumers have a general tendency to keep the water taps open during non-
supply hours; so that they may come to know the restoration of the supply. However,
in majority of cases, water goes on flowing to waste, unattended even after the supply
is restored, thus resulting into wastage of precious treated and potable water.

Besides, this intermittent supply system causes great inconvenience to consumers, keeping
them on their toes for receiving and collecting water as soon as the supply is restored.

Further, in this system, when the supply of water stops and the water from the pipe is
withdrawn off, a partial vacuum may be created in the pipeline. This induces suction
through leaky joints and if dirt or parts of sullage or even sewage and other waste waters on
the ground surround the pipes, the same may get entries into the pipes. This contaminates the

29
existing water available in pipes as well as incoming water in the pipelines, when the supply
is restored.

Number of sluice valves and control valves are required to be installed in the network of
water distribution system. All these valves are operated many times daily, while starting or
closing supply. This requires additional operating staff along with high operating and
maintenance cost.

Intermittent system should not be continued on long term policy due to the following
disadvantages-

1. The consumers have to store water for use during non-supply hours; which is likely to
be contaminated. Some consumers may not have sufficient storage facilities; which
may lead to insanitary conditions ultimately.
2. It has been observed that the consumers leave their water taps open every time; which
causes much wastage of water.
3. If more storage of water is kept for the use during non-supply hours, it is thrown
away, causing wastage of water.
4. If any incidents of fire-fighting occur during non-supply hours, no water is available;
which may subsequently cause huge damages before the supply could be turned on.

In spite of all these limitations / disadvantages, the intermittent supply system is being mostly
adopted in our towns and cities. For improving the pressures in intermittent system, the
entire city area is divided into number of zones and different zones are supplied with water
during different hours of the day, thus obtaining pressures. Most of network of pipe
distribution system of water supply of towns and cities are usually designed as continuous
supply system", but after implementation operated as an “intermittent" one.

In view of above, the water is to be supplied through continuous system. This is the best
system and the water is supplied for all the 24 hours a day. In this system, ample water is
always available for firefighting, or any break-down or emergencies, even by closing the
supply of certain localities. Besides, due to continuous circulation, water always remains
fresh, in the pipelines.

Considering these, continuous supply of water around 24 hours a day is proposed for the
project area under this DPR.

2.3 Design Period

Design period for this work has been adopted as shown below:
(i) Immediate stage 2015
(ii) Intermediate stage 2030
(iii) Ultimate stage 2045

30
2.4 Population

Population figures are used by standard methods specified CPHEEO manual.

2.5 Water Demand

Water demand projections are worked out with 150 liters per capita per day (LPCD) at
consumer end. The losses are computed upward for gross demand projections as per
CPHEEO manual. Values of the zone/ward wise demand for the Pimpri-Chinchwad city have
been considered.

Water demand to the nodes of the distribution system is computed using the water districts
data provided by the PCMC.

2.6 Water Distribution Network

The water distribution system for public water supply is a network of pipes within the
network of streets and roads of the project area. The purpose of the water distribution
network is to convey wholesome (treated) drinking water to the consumers at an adequate
residual pressure in sufficient quantity at convenient points. Water distribution system usually
accounts for 40 to 70% of the capital cost of the water supply system, depending upon the
lengths of streets and roads to be covered in the project area. As such, proper design and
layout of the network is of great importance.

The street plan, topography and location of service reservoirs etc. govern the type of
distribution network. Proper layout of the pipelines, correct locations of various types of
valves and specials are necessary for proper and efficient operation and maintenance of the
system. Sufficient residual pressure at peak demand period is the prime hydraulic
consideration of the distribution system.

(a) Service Storage: Storage in the service reservoirs is provided considering balancing of
inflows and outflows and emergency including water for firefighting. The service storage in
the immediate stage year 2030 is computed presuming 23 hour pumping.

With inflow rate of 23 hours and the outflow rate (supply hours) of 24 hours, the capacity of
ESRs have been checked as per the methodology mentioned in CPHEEO manual.

(b) Hazen-Williams C-Value: So far cast iron pipes (CI) have been used in the distribution
pipe network of the city. C-values of CI, DI and other materials of pipes are shown in Table
2.2.

31
Table 2.2: Hazen William C -Values for pipes.

HWC-Value
Material
Proposed
CI 85
Ductile iron (DI) 135
Mild steel (mortar lined) 120
HDPE 140

(c) Residual Pressures: CPHEEO "Manual on water supply and treatment" - third edition
(1999) has been adopted in fixing residual pressure. Presently the houses in the Pimpri-
Chinchwad Municipal Council area are single storied. Therefore, sizes of pipelines and tank
storages of the system are checked for minimum residual pressure of 7 m at nodal points.
Multi- storied buildings needing higher pressure, will be providing their individual
underground storage tanks; from where, the water will be pumped to elevated storage tanks
on such buildings for supply of water to their consumers.

(d) Minimum Diameter of Pipes: As per recommendations in CPHEEO Manual, the

minimum proposed diameter of pipes considered in the analysis is 100 mm and no service
connections would be given from a pipe more than 100 mm dia. Wherever there is single
pipeline on a road of size above 100 mm, a parallel line of 100 mm is proposed for giving
consumer connections.

(e) Leading Mains: The inlet mains to service reservoirs and trunk mains will carry water for
23 hours.

(f) Peak Factor:

As per CPHEEO manual, a peak factor of 2 is adopted for distribution system in the
Hydraulic modeling.

2.7 ROAD MAP to 24/7 SYSTEM

(a) Bulk Flow Meters: After a careful study of the system’s requirements, bulk flow meters
shall be proposed at key strategic points in the system such as water treatment plants, service
reservoirs and pumping stations to monitor the quantum of water being handled at these
places.
Following bulk meters are recommended:

Diameter of pipe Type of Bulk meter

 300 mm Mechanical

32
 > 300 mm Ultra sonic or Magnetic type full-bore flow meters whichever is
economical

(b) Pressure Gauges: For calibration of the hydraulic model and monitoring of the water
supply system pressures at key locations will have to be monitored. In every zone/DMA
about 5 points are anticipated.

(c) Flow Controlling Valves: For operation and maintenance of any intermittent supply
system a minimum number of valves are necessary. In a continuous supply system every
DMA should have isolation valve to make it hydraulically discrete.

2.8 Software Used

For GIS maps, ESRI's ARC-VIEW software has been used. The analysis of the leading mains
and the distribution system is made using Bentley WaterGEMS software, Select-6 version.

**

33
Chapter-3
Existing Pimpri-Chinchwad Water Supply

3.1 History

History of Pimpri-Chinchwad water supply is shown in Figure 3.1.

Phase-I Phase-III
114 MLD 100 MLD

Presently 428 MLD

water is supplied to
1989 1999 2006 2010 the city from
Pawana dam,
Phase-IV
Phase-II
100 MLD
114 MLD

Figure 3.1: History of Pimpri-Chinchwad water supply

3.2 Existing Water Supply System

Existing water supply scheme is shown in Figure 3.2. The existing water supply to the
Pimpri-Chinchwad city is managed by Pimpri-Chinchwad Municipal Council (PMC). The
City Engineer of the city and his team of executive engineers and staff are responsible for
ensuring protected drinking water supply in the city.

City Boundary

WTP

Ravet Pump
House
Pawana
Dam

Figure 3.2: Existing main water supply scheme

34
3.2.1 Sources

Main source of the Pimpri-Chinchwad water supply system is Pawana dam which is shown in
Figure 3.2 and 3.3(a). There is a pick up weir (Ravet-Punavale) on downstream side of the
dam (Figure 3.2 and 3.3b).

(a): Pawana dam (b): Rawet-Punavale weir

Figure 3.3: Sources of the Pimpri-Chinchwad city

Water is pumped from the pickup weir at Ravet-Punavale dam and conveyed to water
treatment plant by three mild steel (MS) pipe pumping mains (1100 mm for 228 MLD, 1200
mm for 100 MLD and 1400 mm 100 MLD). Treated water is pumped to Master Balancing
Reservoirs (MBR) at WTP site and then transmitted by pumping/gravity to 85 Elevated
Service Reservoirs (ESR)s in the city.

Water Treatment Plants (WTP)

Figure 3.4: Aerial view of Water Treatment Plant

The water treatment plants (WTP) for phase I, II, III and IV are situated in the same premises
as shown in Figure 3.4. Clari-flocculator and filter plants are shown in Figure 3.5.

35
 (a)100 MLD - Clariflocculator (b): 100 MLD – Filter beds
Figure 3.5: Water Treatment Plant

Pure Water Transmission Main

Pure water transmission mains are shown in Figure 3.6 and its details are shown in Table 3.1.

Figure 3.6: Pure water transmission mains

36
Table 3.1: Details of the pure water transmission mains

Diameter Grand
CI DI-K7 MS
(mm) Total
200 2404 2404
250 3163 3163
300 91 7829 865 8785
350 2563 2563
400 11 25834 3886 29731
450 12431 12431
500 23 7450 7262 14735
550 2746 2746
600 15661 12863 28524
700 4911 6575 11486
750 29 8511 8540
800 2483 2483
900 17817 479 18296
1000 3844 14065 17909
1035 2822 2822
1100 4878 4878
1200 41 13993 14034
1400 91 91
Grand
125 100814 84682 185621
Total

Present Service Reservoirs

There are 85 ESRs which are marked and shown in Figure 3.6. A typical ESR is shown in
Figure 3.7. Details of the existing ESRs/ GSRs are shown in Table 3.2; ongoing in Table 3.3
and New tanks are shown in Table 3.4.

Figure 3.7: ESR

37
Table 3.2: Details of the existing storage tanks

Elevation Elevation
Diameter Capacity Elevation St. Ht.
SN Phase Area (%) Code WD Label (Minimum) (Maximum)
(m) (M3) (m) (m)
(m) (m)
1 Phase0 40 854 C14 Ajmera-1 598.79 603.79 19.5 1500 589 9.79
2 Phase0 40 853 C14 Ajmera-2 598.92 603.92 20 1500 589 9.92
3 Phase0 40 848 C13 Annasaheb_Magar 599.9 604.9 20.5 1650 587.5 12.4
4 Phase0 40 804 C10 Bhosari Gaothan 602.4 607.4 18.7 1500 585.5 16.9
5 Phase0 40 774 C12 Dighi 625.5 630.5 22.6 2000 602.8 22.7
6 Phase0 40 771 C12 Dighi Gaothan 626.4 631.4 14.3 800 603.7 22.7
7 Phase0 40 194 B5 Elpro a 587.8 592.8 22.6 2000 568.5 19.3
8 Phase0 40 193 B5 Elpro b 588.1 593.1 25.2 2500 568.8 19.3
9 Phase0 40 302 D10 PWD Sector 84 568 573 21.5 2000 555 13
New sangvi police
10 Phase0 40 294 D9 570.9 575.9 22.6 2000 555 15.9
Station
11 Phase0 40 857 C11 Sant Tukaram 606.4 611.4 20.8 1500 594 12.4
12 Phase0 40 173 B1 Sector 29a 599.1 604.1 23.8 1780 584 15.1
13 Phase0 60 174 B1 Sector 29b 599.4 604.4 25 2200 584.5 14.9
14 Phase0 40 664 C5 Sector7_10_a 623.2 628.2 15.1 900 606.5 16.7
15 Phase0 40 665 C5 Sector7_10_b 623.2 628.2 15.1 900 606.5 16.7
16 Phase0 40 229 D1 Thergaon Gaothan1 584.39 589.39 22.57 2000 568.3 16.09
17 Phase0 40 437 A2 Triveni Nagar1 622.1 627.1 25.2 2500 609 13.1
18 Phase0 40 438 A2 Triveni Nagar2 621.3 626.3 25.2 2500 608 13.3
19 Phase0 40 347 C3 WD4 a 627.4 632.4 16.7 1200 609 18.4
20 Phase0 40 350 C3 WD4 b 628.7 633.7 23.7 2200 609 19.7
21 Phase0 40 704 C3 WD4 c 628.7 633.7 23.7 2200 609 19.7
22 Phase0 40 182 B2 Bijli Nagar a 597.24 602.24 21.11 1750 584.8 12.44
23 Phase0 40 183 B2 Bijli Nagar b 597.07 602.07 21.11 1750 584.8 12.27
24 Phase0 40 184 B2 Bijli Nagar c 597.28 602.28 23.67 2200 584.8 12.48
25 Phase0 40 A1 A1 Pradhikaran 626.8 631.8 34 4540 616.8 10
26 Phase0 40 B9 Premlok Park 596.5 601.5 22.5 2500 574 22.5
27 Phase1 60 145 B8 Ashok Cinema 579.61 584.61 22.57 2000 565.3 14.31
28 Phase1 60 450 C8a Ashram Shala 605.93 610.93 22.56 2000 589.1 16.83

38
29 Phase1 60 B4 B4_Mamurdi 629 634 20 1256.64 619 10
30 Phase1 60 473 Bopkhel 594.33 598.33 19.95 1250.36465 577.15 17.18
31 Phase1 60 139 D12 Dapodi1 568.18 573.18 20.28 1131 556.4 11.78
32 Phase1 60 140 D12 Dapodi2 568.01 573.01 20.28 1131 556.4 11.61
33 Phase1 60 454 C17 Dighi_Magzine 625.36 630.36 19.54 1499 609.1 16.26
34 Phase1 60 627 C8 Indrayaninagar a 618.24 623.24 25.23 2500 604.2 14.04
35 Phase1 60 236 D3 Kala Khadak 606.56 611.56 19.54 1499 581.5 25.06
36 Phase1 60 Kasarwadi1 581.07 586.07 22.57 2000 561.07 20
37 Phase1 60 872 C16 Kasarwadi2 576.58 581.58 22.57 2000 555.3 21.28
38 Phase1 60 861 A7 Khandoba-1 600.29 605.29 26.25 2500 584.2 16.09
39 Phase1 60 860 A7 Khandoba-2 602.84 607.84 22.61 1999 584.2 18.64
40 Phase1 60 250 D2 Lakshman Nagar 596.16 601.16 25.23 2500 579.3 16.86
41 Phase1 60 251 D13 Lakshman Nagar 2 595.6 600.6 22.6 2000 579 16.6
42 Phase1 60 220 D4 Thergaon Gaothan2 584.17 589.17 20.82 1600 568.8 15.37
43 Phase2 60 389 A4 Morewasti Chikhli 631.16 636.16 25.23 2500 614.2 16.96
44 Phase2 60 149 B8a Nav Maha 582.44 587.44 12.62 500 563.4 19.04
45 Phase2 60 219 D4 Naydu 583.14 588.14 15.96 1000 568.5 14.64
46 Phase2 60 424 C15 Nehru Nagar1 599.14 604.14 21.11 1750 584.7 14.44
47 Phase2 60 425 C15 Nehru Nagar2 599.12 604.12 21.11 1750 584.3 14.82
48 Phase2 60 624 C9 Panjarpol 614.9 619.9 26.46 2200 601 13.9
49 Phase2 60 129 D7 Pimple Gurao1 577.43 582.43 18.55 1000 564.1 13.33
50 Phase2 60 130 D7 Pimple Gurao2 577.43 582.43 16.46 1000 564.1 13.33
51 Phase2 60 131 D7 Pimple Gurao3 577.63 582.63 15.96 1000 564.1 13.53
52 Phase2 60 119 D8 Pimple Gurav Garden 576.85 581.85 19.54 1499 560 16.85
53 Phase2 60 91 D14 Pimple Nilakh 575.25 580.25 22.57 2000 559.4 15.85
54 Phase2 60 285 D6 Pimple Saudagar a 572 577 19.54 1499 560 12
55 Phase2 60 201 B6 Pimpri Delux a 582.72 587.72 22.57 2000 561.8 20.92
56 Phase2 60 202 B6 Pimpri Delux b 582.81 587.81 22.57 2000 562.2 20.61
57 Phase2 60 Punavale 597 602 19.54 1500 572 25
58 Phase2 60 165 D5 Rahatni1 586.98 591.98 22.57 2000 569.2 17.78
59 Phase2 60 166 D5 Rahatni2 588.61 593.61 28.21 2500 569.2 19.41
60 Phase2 60 167 D5 Rahatni3 590 595 25.23 2000 570.7 19.3
61 Phase2 60 387 A3 Rupi Nagar 630.99 635.99 25.23 2500 614.3 16.69
62 Phase2 60 462 A5 Sachin1 627.86 632.86 18.83 1100 614.2 13.66
63 Phase2 60 463 A5 Sachin2 628.05 633.05 18.83 1100 614.92 13.13

39
 64 Phase2 60 212 B3 Sector 96 610.17 615.17 19.7 1250 591.5 18.67
65 Phase2 60 209 B7 Sector 96 Part 2 609.97 614.97 19.7 1250 591.3 18.67
66 Phase2 60 388 A5 Shahu Nagar 631.5 636.5 25.23 2500 613.5 18
67 Phase3 60 406 C7 Charholi c 581.8 586.8 19.54 1500 566.8 15
68 Phase3 60 640 C4 Dudulgaon 594.94 599.94 15.96 1000 574.7 20.24
69 Phase3 60 635 C1 Moshi b 595.2 600.2 19.5459442 1500 580.2 15
70 Phase3 60 645 C6 Wadmukhwadi b 589.7 594.7 22.57 2000 574.7 15

Table 3.3: Details of the ongoing storage tanks

Elevation Elevation
Diameter Capacity Elevation St. Ht.
SN Phase Area (%) Code WD Label (Minimum) (Maximum)
(m) (M3) (m) (m)
(m) (m)
1 Phase0 40 Sant Tukaram New 613.5 618.5 25 2454 591.5 22
2 Phase1 60 Kala Khadak New1 603.5 608.5 27 2863 581.5 22
3 Phase1 60 Kaveri Nagar 600.8 605.8 28 3079 578.8 22
4 Phase1 60 Mahendra & Mahendra 599.5 604.5 22 1901 579.5 20
5 Phase2 60 New Panjarpol 616 621 22.57 2000 601 15
New Pimple Gurav Garden 20
6 Phase2 60 582.5 587.5 22 1901 561.5 21
Lakhs
7 Phase2 60 Proposed Naydu 583.6 588.6 22.5 1988 568.6 15
8 Phase2 60 Sector 28 New ESR 604.8 609.8 22.56759 2000 584.8 20
9 Phase2 60 Sector 96 New Esr 611.55 616.55 22.5 1988 591.55 20
Total 20174

Table 3.4: Details of the New storage tanks

40
 Elevation Elevation
Diameter Capacity Elevation St. Ht.
SN Phase Area (%) Code WD Label (Minimum) (Maximum)
(m) (M3) (m) (m)
(m) (m)
1 Phase3 60 Kudalwadi New1 602 607 22.5 1988 582 20
2 Phase0 40 B5 Elpro New ESR 593.5 598.5 22.5 1988 568.5 25
Gaothan New (Old
3 Phase0 40 575 580 22.7 2024 555 20
Sangavi)_b
4 Phase1 60 Kala Khadak New2 603.5 608.5 28 3079 581.5 22
5 Phase1 60 A6 NewJadhavwadi1 615.94 620.94 25.23 2500 598.7 17.24
6 Phase2 60 New_Punavale 591.97 596.97 22.5 1988 571.97 20
7 Phase2 60 286 D6 Pimple Saudagar b New 580 585 22.5 1988 560 20
8 Phase3 60 Gairan 615 620 22.5 1988 591 24
9 Phase3 60 Kudalwadi New2 602 607 22.5 1988 582 20
10 Phase3 60 Kudalwadi New3 610 615 22.5 1988 590 20
11 Phase3 60 Kudalwadi New4 610 615 22.5 1988 598 12
12 Phase3 60 New_Charoli 604 609 22.5 1988 584 20
13 Phase3 60 New_Moshi b 600.1 605.1 22.2 1935 580.1 20
14 Phase3 60 New_Wadmukhwadi b 604 609 22.5 1988 584 20
15 Phase3 60 A6 NewJadhavwadi2 615.94 620.94 20 1571 598.7 17.24
Total 30989

41
Details of inlet and outlet pipes are shon in Table 3.5.
Table 3.5: Details of inlet and outlet pipes of all storage tanks
Inlet
Dia Inlet Dia Inlet Dia Outlet
Deman
as required(m rounded Dia as
S Area Statu d Q
Phase WD Label per m) and per
N (%) s (2045) m3/s
Tr_M (Assuming recommend HM(m
(ML)
ain v=1) ed (mm) m)
(mm)
No_Zo No_Zo Bhalewadi
0 0.88 0.0153 200 140 200 NA
ne ne Stadium
No_Zo No_Zo
0 D14 Chest Hospital 0.94 0.0164 400 144 400 400
ne ne
1 Phase0 40 C14 Ajmera-1 7.74 0.1345 450 414 450 500
2 Phase0 40 C14 Ajmera-2 7.07 0.1227 400 395 400 700
Annasaheb_Mag
3 Phase0 40 C13 4.70 0.0816 700 322 700 400
ar
4 Phase0 40 C10 Bhosari Gaothan 4.96 0.0861 500 331 500 500
5 Phase0 40 C12 Dighi 12.16 0.2111 400 518 500 500
6 Phase0 40 C12 Dighi Gaothan 4.36 0.0757 300 311 300 500
7 Phase0 40 B5 Elpro a 8.63 0.1498 300 437 450 700
8 Phase0 40 B5 Elpro b 5.54 0.0962 300 350 350 600
9 Phase0 40 N B5 Elpro New ESR 5.70 0.0989 500 355 500 500
1 Gaothan New
Phase0 40 N 7.98 0.1386 600 420 600 500
0 (Old Sangavi)_b
1 New sangvi police
Phase0 40 D9 9.08 0.1576 500 448 500 700
1 Station
1
Phase0 40 D10 PWD Sector 84 6.22 0.1080 500 371 500 500
2
1
Phase0 40 C11 Sant Tukaram 5.00 0.0869 500 333 500 400
3
1 Sant Tukaram
Phase0 40 OG 14.54 0.2524 500 567 500 600
4 New
1
Phase0 40 B1 Sector 29a 9.83 0.1706 500 466 500 600
5
1
Phase0 40 B1 Sector 29b 5.74 0.0996 500 356 500 600
6
1
Phase0 40 C5 Sector7_10_a 6.04 0.1048 300 365 400 600
7
1
Phase0 40 C5 Sector7_10_b 3.56 0.0618 300 281 300 600
8
1 Thergaon
Phase0 40 D1 11.66 0.2025 400 508 500 600
9 Gaothan1
2
Phase0 40 A2 Triveni Nagar1 8.27 0.1437 500 428 500 600
0
2
Phase0 40 A2 Triveni Nagar2 10.39 0.1805 500 479 500 700
1
2
Phase0 40 C3 WD4 a 5.02 0.0872 550 333 550 500
2
2
Phase0 40 C3 WD4 b 10.98 0.1906 550 493 550 600
3
2
Phase0 40 C3 WD4 c 11.37 0.1974 550 501 550 600
4
2
Phase0 60 B2 Bijli Nagar a 10.12 0.1757 500 473 500 600
5
2
Phase0 60 B2 Bijli Nagar b 4.77 0.0828 500 325 500 600
6
2
Phase0 60 B2 Bijli Nagar c 6.75 0.1171 500 386 500 700
7
2
Phase0 60 A1 Pradhikaran 14.25 0.2474 600 561 600 1000
8
2
Phase0 60 B9 Premlok Park 6.10 0.1060 450 367 450 500
9
1 Phase1 60 B8 Ashok Cinema 8.93 0.1550 400 444 450 500
2 Phase1 60 C8a Ashram Shala 4.16 0.0722 400 303 400 500
3 Phase1 60 B4 B4_Mamurdi 6.11 0.1062 400 368 400 500

42
4 Phase1 60 Bopkhel 6.54 0.1136 500 380 500 600
5 Phase1 60 D12 Dapodi1 5.02 0.0872 500 333 500 500
6 Phase1 60 D12 Dapodi2 5.37 0.0933 500 345 500 450
7 Phase1 60 C17 Dighi_Magzine 2.64 0.0458 500 241 500 400
8 Phase1 60 C8 Indrayaninagar a 5.90 0.1024 300 361 400 400
9 Phase1 60 D3 Kala Khadak 8.49 0.1474 600 433 600 500
1 Kala Khadak
Phase1 60 OG 13.06 0.2267 500 537 550 800
0 New1
1 Kala Khadak
Phase1 60 N 14.46 0.2510 500 565 500 500
1 New2
1
Phase1 60 Kasarwadi1 2.26 0.0392 600 223 600 400
2
1
Phase1 60 C16 Kasarwadi2 10.84 0.1881 500 489 500 600
3
1
Phase1 60 OG Kaveri Nagar 8.89 0.1544 600 443 600 700
4
1
Phase1 60 A7 Khandoba-1 8.22 0.1427 500 426 500 600
5
1
Phase1 60 A7 Khandoba-2 9.48 0.1646 500 458 500 600
6
1
Phase1 60 D2 Lakshman Nagar 16.56 0.2874 500 605 600 800
7
1 Lakshman Nagar
Phase1 60 D13 9.96 0.1729 500 469 500 600
8 2
1 Mahendra &
Phase1 60 OG 6.20 0.1077 500 370 500 500
9 Mahendra
2
Phase1 60 N A6 NewJadhavwadi1 7.41 0.1286 600 405 600 600
0
2 Thergaon
Phase1 60 D4 7.57 0.1314 400 409 400 600
1 Gaothan2
Morewasti
1 Phase2 60 A4 10.82 0.1879 500 489 500 500
Chikhli
2 Phase2 60 B8a Nav Maha 1.29 0.0224 500 169 500 350
3 Phase2 60 D4 Naydu 7.38 0.1281 500 404 500 600
4 Phase2 60 C15 Nehru Nagar1 4.04 0.0701 500 299 500 400
5 Phase2 60 C15 Nehru Nagar2 3.46 0.0601 500 277 500 500
6 Phase2 60 OG New Panjarpol 1.22 0.0212 450 164 450 400
New Pimple
7 Phase2 60 OG Gurav Garden 20 8.84 0.1534 500 442 500 600
Lakhs
8 Phase2 60 N New_Punavale 9.16 0.1591 500 450 500 600
9 Phase2 60 C9 Panjarpol 5.58 0.0970 450 351 450 450
1
Phase2 60 D7 Pimple Gurao1 4.56 0.0792 500 318 500 500
0
1
Phase2 60 D7 Pimple Gurao2 5.14 0.0893 500 337 500 500
1
1
Phase2 60 D7 Pimple Gurao3 5.57 0.0967 500 351 500 600
2
1 Pimple Gurav
Phase2 60 D8 3.65 0.0634 400 284 400 500
3 Garden
1
Phase2 60 D14 Pimple Nilakh 12.96 0.2251 400 535 400 700
4
1 Pimple Saudagar
Phase2 60 D6 5.42 0.0942 500 346 500 600
5 a
1 Pimple Saudagar
Phase2 60 N D6 12.12 0.2104 500 518 500 800
6 b New
1
Phase2 60 B6 Pimpri Delux a 7.70 0.1337 500 413 500 600
7
1
Phase2 60 B6 Pimpri Delux b 5.01 0.0870 500 333 500 600
8
1
Phase2 60 OG Proposed Naydu 4.37 0.0758 500 311 500 400
9
2
Phase2 60 Punavale 6.87 0.1193 500 390 500 600
0
2
Phase2 60 D5 Rahatni1 8.64 0.1500 500 437 500 600
1
2
Phase2 60 D5 Rahatni2 10.29 0.1786 500 477 500 600
2

43
2
Phase2 60 D5 Rahatni3 7.69 0.1334 500 412 500 600
3
2
Phase2 60 A3 Rupi Nagar 13.07 0.2268 500 537 500 500
4
2
Phase2 60 A5 Sachin1 4.29 0.0745 600 308 600 400
5
2
Phase2 60 A5 Sachin2 5.33 0.0925 450 343 450 400
6
2 Sector 28 New
Phase2 60 OG 3.98 0.0691 300 297 300 600
7 ESR
2
Phase2 60 B3 Sector 96 8.08 0.1403 500 423 500 500
8
2 Sector 96 New
Phase2 60 OG 13.23 0.2296 500 541 550 700
9 Esr
3
Phase2 60 B7 Sector 96 Part 2 8.77 0.1522 500 440 500 500
0
3
Phase2 60 A5 Shahu Nagar 8.66 0.1504 600 438 600 600
1
1 Phase3 60 C7 Charholi c 2.13 0.0370 600 217 600 500
2 Phase3 60 C4 Dudulgaon 4.79 0.0832 350 326 350 500
3 Phase3 60 N Gairan 8.00 0.1388 500 420 500 600
4 Phase3 60 N Kudalwadi New1 9.08 0.1576 500 448 500 700
5 Phase3 60 N Kudalwadi New2 9.37 0.1626 500 455 500 600
6 Phase3 60 N Kudalwadi New3 9.09 0.1579 500 448 500 600
7 Phase3 60 N Kudalwadi New4 7.23 0.1255 500 400 500 500
8 Phase3 60 C1 Moshi b 6.32 0.1097 500 374 500 500
9 Phase3 60 N New_Charoli 5.38 0.0934 500 345 500 500
1
Phase3 60 N New_Moshi b 10.86 0.1885 500 490 500 600
0
1 New_Wadmukhw
Phase3 60 N 2.74 0.0476 500 246 500 600
1 adi b
1
Phase3 60 C6 Wadmukhwadi b 2.87 0.0499 600 252 600 500
2
1
Phase3 60 N A6 NewJadhavwadi2 0.14 600 600 600
3 419 600

Distribution System

The existing pipelines laid in the distribution network of the Pimpri-Chinchwad city are
shown in Figure 3.8.

Figure 3.8: Existing pipelines in the distribution network

44
The total length of the existing distribution network in both 40% and 60% of the Pimpri-
Chinchwad Corporation is around 1065.1 km. Length of different pipes in the distribution
system is shown in Table 3.6 and 3.7.

Table 3.6: Length of pipes in selected (60%) of distribution system

Diameter Grand
CI DI HDPE MS
(mm) Total
75 140 140
80 18686 18686
99.3 632 632
100 427174 17664 1619 446457
144.4 67 745 812
150 240425 28714 511 269650
175 1532 1532
180.6 149 82 231
200 90232 6960 4642 101834
250 45165 762 45927
300 70759 8436 10781 89976
350 8061 8061
400 17762 3977 4878 26617
450 15147 2117 6830 24094
500 4162 2801 2899 9862
600 10413 3463 6507 20383
700 121 121
750 167 167
Grand
949874 75182 1459 38667 1065182
Total

45
Table 3.7: Length of existing pipes in both 40% and 60% area

Grand
Diameter New_60 Old_40 Old_40_A*
Total
(mm)
CI DI HDPE MS Total CI DI HDPE MS Total CI DI MS Total
75 140 140 140
80 11109 11109 6607 6607 970 970 18686
99.3 632 632 632
100 266266 15310 108 281684 120064 2354 1511 123929 40844 40844 446457
144.4 745 745 67 67 812
150 130419 16228 198 146845 88915 12486 313 101714 21091 21091 269650
175 411 411 1121 1121 1532
180.6 149 82 231 231
200 61666 4173 4642 70481 21638 2787 24425 6928 6928 101834
250 29431 320 29751 14443 442 14885 1291 1291 45927
300 38170 2770 8069 49009 23806 5666 2712 32184 8783 8783 89976
350 4896 4896 1357 1357 1808 1808 8061
400 10611 2354 2554 15519 7113 1623 2324 11060 38 38 26617
450 5063 574 5230 10867 8605 1543 1600 11748 1479 1479 24094
500 4152 1280 2618 8050 10 1521 281 1812 9862
600 6255 885 2170 9310 3572 2578 3891 10041 586 446 1032 20383
700 121 121 121
750 167 167 167
Grand
568738 44061 827 25589 639215 297251 31000 632 12632 341515 83885 121 446 84452 1065182
Total

* PCMC directed to include Operational zones of Bijli Nagar a, Bijli Nagar b, Bijli Nagar c, Pradhikaran and Premlok Park in 40% area which is shown as
Old_40_A in Table 3.4.

46
3.3 Environmental Compliance and Protection

An initial environmental preliminary review of the project has been carried out and is
provided below. This project includes the rehabilitation of distribution system, providing and
laying of gravity main and installing various sizes of water meters etc

Potential Environmental Impacts and Mitigation Measures:

The proposed project would influence the environment in two stages, i.e. Construction Stage
and Operation Stage. The potential impacts and associated mitigation measures are described
below. It has been broadly understood that the impacts during the construction stage which
would be temporary and short term in nature and that the operation stage could have long
term effects. The positive impacts of this project action are also described in subsequent
sections.

Pollution
There will be no pollution due to offensive odors of Chlorine as filtered water is supplied to
the newly merged area and it is located at 7 km from the water treatment plant. As such there
will be no significant offensive odors reaching the residential areas.

No downstream water utilization is hampered by little outflows of soil from open ground
created in the construction of the facility. Compensatory plantation will be taken up as per
environment management plan if necessary. As a mitigation measure, exposed surface will be
resurfaced and stabilized as soon as possible and trenches will have adequate backfill
consolidation to prevent subsequent street settlement.
Upon completion of backfill, the surface shall be restored fully to the level existed prior to
the construction of the pipe line. Construction surfaces during dry/windy periods resulting in
fugitive dust generation will be suppressed by spraying of water or other suitable means and
workers working in dust prone areas will be provided with masks and goggles. Excavated
material transported by trucks will be covered and /or wetted to prevent dust nuisance.

Noise from Construction

All construction vehicles will be properly maintained and will have valid "Pollution under
Control Certificate" and noisy construction activities will be carried out only during normal
working hours and local residents will be advised of any unusual or unavoidable areas
particularly carrying out works of distribution line. Pipe jacking operations take place below
ground level and are generally have low sound intensities.

Natural Environment Issues

Effect of Construction on the Ecology Major construction like laying of Gravity main,
chambers and, distribution mains etc shall be done outside designated natural conservation
areas such as city parks and green areas established in accordance with the local laws and will
not have any significant impacts on Conservation area. During the construction phase there
47
might be some impacts on air, noise and management of solid waste in vicinity with
habitations. The effect of project pipelines and access roads on valuable habitat for flora and
fauna is anticipated as minimal. Prevention of water logging/flooding shall be made as
dewatering during trenching and excavation and water testing of new lines will be done in a
manner so that it does not lead to water logging of the nearby area.

Effect on Landscape
There would be temporary social impact with respect to landscape disturbances during
construction and operation phase of the project in terms of traffic congestion and disturbances
while laying of transmission system, no other impact is envisaged. Protection of trees shall be
done by routing of pipe lines to avoid impacting trees to the extent feasible. Prior approval
will be obtained where trees have to be felled for laying the pipes etc.

Human Environment Issues

Heritage: Places of historical and heritage importance does not fall in vicinity with any
proposed construction work.
Effect of Construction of the Facility on the Historical and Cultural Heritage: There are no
places of cultural and historical importance in vicinity with any proposed construction work.
Effect on Existing Infrastructure: Preliminarily study reveals, no significant structures found
to be affected. In the narrow sections of road construction, activities may cause traffic
disruption while lying of pipe lines. Traffic diversion, lack of access to buildings and air and
noise pollution caused by construction activities could have some adverse impact on trade
and commerce in the service area.

Road Safety and Traffic Management during Construction

By taking measure to prevent traffic congestion like provision of temporary safe access to
buildings, and/or separation of motor vehicle traffic from non-motorized and pedestrian
where necessary and measures to be taken to ensure safety of pedestrian, traffic passing
through the construction area including signs, marking flags, lights and flagmen as may be
required.

Effect on Downstream Water Users

In context of work zones for this Project, this impact is not applicable and not relevant.

Involuntary Resettlement
Social and environmental impacts study reveals that during construction and operation phase
there will be no small or large-scale involuntary displacement of persons; hence preparation
of Resettlement Action Plan would not be required at a later stage. Net work of distribution
system is to be carried out on road where human habitation is minimal.

Living and Livelihood

Living and livelihood forms an important component to be addressed within the social
framework. Social impact assessment undertaken in study reveal that no long-term visible
negative social impact during the construction and operation phase is envisaged. Field study
48
reveals that there is possibility of generation of more employment activities during the
construction phase, wherein local laborers would be engaged in excavation for trenches and
laying of gravity main, distribution lines.

Ethnic Minorities and Indigenous Peoples

Study area is mostly under urban extent and field observation found that there are no
indigenous groups getting affected.

Others
Effect on the Environment during Construction Stage
The location of installations and equipment, work methods, and the work period shall be
arranged so that the execution of the project work will cause the least possible inconvenience
in the area.

Environmental health and safety consideration at construction campsites and

construction work-sites shall be taken as camps / compounds will be located so that they do
not interfere with the existing drainage system, construction work-site will be properly
barricaded and have adequate provision of drinking water, toilets and dispensing of first aid.
Appropriate control measures will be taken to prevent insect/vector diseases especially
malaria by measures such as preventing creation of stagnant pool of water.

Effect on the Environment during Operation Stage

During the operation stage the environmental impacts are likely to be mostly positive, a part
of several health benefits; WTP will make the supply of treated water where shortage of
water is felt and thus people will get quality water. However, there could be some adverse
impacts due to inadequate operation and maintenance or control such as inappropriate
dumping of excavated stuff retrieved from the Excavation of trenches Mitigation measures
include setting of performance requirements to be achieved by the O&M agencies in their
contract, and effective monitoring and supervision of the achievements of these requirements.

Positive Impacts of the Project

Improvement in service level of water supply in this area as a result of this project would
ensure better improved water quality.
A significant population of the service area would benefit the most from the proposed project
as they suffer the most when there is shortage of water which is based on ground water
source
Other benefits of the project would include:
People will be satisfied with water supply and people will pay water taxes, Skilled and
unskilled employment generation during construction stage,

Employment generation during O&M phase.

Institutional Requirements and Environmental Monitoring Plan

49
It is recommended that the successful Contractors executing the construction of the various
components in this project shall carry out appropriate monitoring plans during the
construction phase of the project. Those items have also been identified whose impact is not
great to justify modification of the project but which are considered to require monitoring.
The construction of the project will be executed by the successful Contractors under the
Management and supervision of PCMC or his authorized consultant of Project Management
Consultancy who will carry out the monitoring activities during construction during the
Operations and Maintenance phase of the project, PCMC shall be responsible to carry out
monitoring activities who may be aided by other governmental agencies such as Irrigation
Department for reserving water in dam, MSEDCL for supplying continuous electrical supply
Effective implementation of the mitigation measures will require the project to undertake a
comprehensive monitoring program. The objective of the monitoring program is to insure
that the construction activities are carried out in an environmentally sensitive and responsible
manner.

**

50
Chapter-4
Population Forecast and Demand Estimation

4.1 Population Forecast

The population of the Pimpri-Chinchwad as per 2011 census is 17,30,133. The present
Pimpri-Chinchwad Municipal Corporation has area of 170.51 square kilometers. The decadal
population growth of the Pimpri-Chinchwad city is shown in Table 4.1. The projected
population is shown in Table 4.2.

Table 4.1: Decadal population growth of the Pimpri-Chinchwad city.

Sr. No. Year Population Increase in Incremental Rate of growth

decade increase in per decade
decade.
1 1971 98572
153197 1.554
2 1981 251769 115673
268870 1.068
3 1991 520639 216908
485778 0.933
4 2001 1006417 237938
723716 0.719
5 2011 1730133
Total 3607530 1631561 570519
AVERAGE 721506 407890 190173 1.027

Table 4.2: The projected population of the Pimpri-Chinchwad city.

Sr. No. Year Arithmetic Incremental Geometric Average of

method increase progression Incremental
method method increase method
and Geometric
progression
method.

1 2015 1893289 1946538 2295296 2120917

51
 2 2030 2505124 3029053 6625003 4827028
3 2045 3116959 3815740 19122005 11468873

Population forecast, made by the average of Incremental increase method and Geometric
progression method, is on very high side. Hence, the forecast as made by the Incremental
increase method are adopted which is shown in Table 4.3.

Table 4.3: Finally accepted projected population

S.No Year Population

1. 2015 1946538
2. 2030 3029053
3. 2045 3815740

4.2 Demand Projection

4.2.1 Losses

CPHEEO manual restricted total losses to 15% (Ref p11 of CPHEEO manual). Hence, it is
assumed that there will be 10% losses (Figure 4.1) in distribution system, 3% in treatment
plant (2% is recovered by recirculation) and 2% (1% in raw water transmission and 1% in
pure water transmission) in the transmission system.
10%
Losses
1% 1%
Losses Losses

Head Work WTP Distribution

Losses in WTP (3%)

Figure 4.1: Demand of en-route connections and losses in WTP

Rate of supply is considered as 150 LPCD as the PMC has population more than 1 million.
The forecast of the demands for the present, intermediate and the ultimate stages are shown in
Table 4.4.

52
Table 4.4: Population forecast and demand of the Pimpri-Chinchwad city.

Intermediate Ultimate
Base Year
Stage stage
Demand at SN Details
Year:
2030 2045
2015
1 Population (Souls) 1946538 3029053 3815740
2 Rate of WS (LPCD) 150 150 150
3 Daily Demand (Lits) 291980700 454357950 572361000
Primary 4 Floating Popuation (@ 5%)* 97327 151453 190787
demand 5 Rate of WS (LPCD) 20 20 20
6 Floating Demand 19,46,538 30,29,053 38,15,740
8 Total Demand (MLD) 293.9 457.4 576.2
9 Fire Demand 4.41 5.50 6.18
(a) Total Demand 298.34 462.89 582.35
(b) Institutional (3%)* 8.95 13.89 17.47
(c) Public- semi public (5%)* 14.92 23.14 29.12
(d) Commercial (1.5%)* 4.48 6.94 8.74
Demand of (e) Industrial(0.5%)* 1.49 2.31 2.91
Distribution Total (a+b+c+d+e) 328.17 509.18 640.59
Demand with 10% losses
364.64 565.76 711.77
in Distribution System
10 Total 365 566 712
Demand with 1% losses in
2.98 4.63 5.82
PW RM at outlet of WTP
At WTP Demand with 3% losses in
8.95 13.89 17.47
WTP at inlet of WTP
11 Total 377 584 735
Add 1% for losses in RW
At Head 2.98 4.63 5.82
transmission system
Work
12 Total 380 589 741
* Discussion with PCMC planners

The distribution system operational zones, tanks etc are designed for 566 MLD and the pipe
sizes are designed for 712 MLD.

**

53
Chapter-5
Hydraulic Model of Transmission Main of Pimpri-
Chinchwad

5.1 Simulation Model

Modeling of the water supply system is a critical part of designing and operating water
networks for 24/7 continuous supply. It helps the distribution system to serve community
reliably, safely and efficiently in daily operations. Hydraulic models give commanding
knowledge of the water infrastructure, and help to take informed decisions. Modeling
(Haested Methods, 2003) is defined as a mathematical description of a real-world system.

5.2 The Modeling Process

Main objective of any water utility is to deliver safe and potable water to its customers
uninterruptedly. The first step in preparation of the model for water supply project is a
creation of maps and records.

5.2.1 Maps and Records

System Maps: System maps of the Pimpri-Chinchwad city in the form of the GIS format
have been collected from the computer section of the Pimpri-Chinchwad Municipal
Corporation (PMC). These maps helped to make understanding of the water distribution
networks of the city. The maps illustrate wide range of system characteristics of the Pimpri-
Chinchwad city such as pipeline alignment, elevations of nodes, location of tanks and
reservoirs and valves etc.

A vast data, describing real-world network system has been used to build a model.
Fortunately the city water supply department has a set of drawings pertaining to the water
supply of the Pimpri-Chinchwad city. The information available with the PMC has been
tested for accuracy and was validated in consultation with the engineers of PMC.

The Transmission main(transmission main from WTP to the various service tanks) is
obtained from the PMC, which was prepared in EPANET. This EPANET file is used to
prepare the hydrauiic model in WaterGEMS. Water transmission pipelines were are shown
and the positions of water treatment plants, water districts (WD) and the elevated service

54
reservoirs in the city were used in WaterGEMS. The shape files of roads and the buildings
are used as a backdrop of the WaterGEMS software.

5.3 System Simulation

While making hydraulic model for 24/7 continuous water supply system, various components
of the network such as reservoir, tanks, pipelines and valves etc. are required to be simulated.
The term simulation (Haested Methods, 2003) refers to the process of imitating the behavior
of one system through functions of another. In the present approach, the term simulation
represents behavior of real system (model) mathematically. Network simulation is a tool used
when it is not possible to make experimentation to the actual system or to predict the
behavior of the system before it is actually built. The objectives of the simulation are as
follows-

 Replicate the dynamics of an existing and the proposed water supply system,
 Performed when it is not practical for the real system to be directly subjected to
experimentation,
 Evaluating a system before it is actually built.

5.3.1 Simulation of 24/7 Continuous Water Supply System

The road map to 24/7 continuous water supply for the Pimpri-Chinchwad has been shown in
Figure 5.1.

55
 Rehabilitation of
Hyd. Model
network

Pressure
Management
Technical DMA
Leakage
Management

Intermi- Metering Bulk + Consumer

ttent
System
O&M to Sustain
Organization
24x7

24x7
Commercial Pricing System

Policy

Budget

Figure 5.1: Road map of 24/7 continuous water supply

All the parameters, as shown in Figure 5.1, are equally important and are inextricably linked.
If anyone of them is not achieved, then it is not possible to convert the existing intermittent
supply into 24/7 continuous water supply. For example, if technical parameters such as
creation of hydraulic model, using DMA methodology and metering activities are carried out,
but if proper tariff is not adopted, then there will be rise in the consumption rather than
expected decrease in the supply rate and there will be shortage of water.

Implementation Steps of 24/7 Water Supply: Detailed implementation steps are shown in
Figure 5.2.

Basic principle: The basic principle is to save water by plugging of leaks in distribution pipe
network. And the saved water is then used to increase the supply hours to 24 hours daily.
This process must be a continuous one to constantly reduce NRW.

Intermittent Supply System

Base Drawing

Prepare Hydraulic Model

56

Scenario of zones and DMAs

 All DMAs tackled? Tackle all DMAs

24x7 Continuous Supply System

Figure 5.2: Implementation stages of 24/7 continuous water supply

5.3.2 Model Scenario

Scenario represents a set of models that describe traits of hydraulic networks of different
water works. A typical model scenario requires analysis of a number of alternatives. Analysis
of each alternative requires separate set of input data. In the situation of large number of
model runs, it is not possible to edit input data accurately. Working either with many data
files or editing frequently with single data file (Haested Methods, 2003) is confusing,
inefficient and susceptible to the errors. Hence, to solve this problem alternative data sets are
kept with single model data file. The alternatives can be assigned to the scenario and then the
batch run of the particular scenario is performed to evaluate the results.

Alternatives: Basically three types of alternatives are used in this study. They are namely-
(a) active topology, (b) demand and (c) operational.

(a) Active Topology: System drawings of all water networks showing locations of tanks,
intermediate nodes, demand nodes and pipeline alignment of the Pimpri-Chinchwad city are
taken from the earlier EPANET file which were prepared by actually visiting the site and
plotted using the available drawings. In GIS maps the co-ordinate system of WGS-1984
UTM 43 N has been used. A satellite image of the city along with vector image (shape files)
is shown in Figure 5.3.

57
 Figure 5.3: A satellite image of a part of Pimpri-Chinchwad along with vector images of
roads and buildings

All elements of model are then suitably named and the corresponding data is fed to the
computer software. The base scenario is then separated into various child scenario by making
inactive elements of other zones and making active elements of the zones that is considered
as a separate child scenario as shown in Figure 5.4.. Thus all child scenario of active
topology.

(b) Demand: Demand for all the nodes for the years 2015, 2030 and 2045 are allocated.

(c) Operational: Valve operations are important in the model of pipe network. Flow control
valves are used to regulate the flow into each zone.

5.3.3 Base Scenario

Base scenario of pipe network of entire city is the first task in preparation of the hydraulic
model.

Back Drop Drawing

A satellite raster image of the Pimpri-Chinchwad city has been made available by the PMC,
which has been used in this study. This image is limited to the extent of the city. This raster
satellite image was digitized and the shape files of the features such as road edge boundaries,
buildings, water bodies were created. The satellite image and the shape files are geo-
referenced (spatial)

58
Attaching Alternatives

Alternatives of active topology, demand and the operational are created in WaterGEMS and
are attached to the base scenario as shown in Figure 5.4.

Attributes of pipe material, length,

Active topology diameter, C-value are given to the pipe
feature.
Base scenario of Islampur city

Demand Demand values are given

Valve settings, open, partial open and

Operational
close are given

Figure 5.4: Alternative attached to the base scenario

5.3.3 Active Topology of Entire City

The shape files of the roads and buildings are exported to WaterGEMS and are used as the
background layers. Various components of the pipe network such as reservoir, pipe,
junctions, valves and tanks etc. are drawn on the background layer and are shown in Figure
5.5.

59
 Figure 5.5: Pipe network of Pimpri-Chinchwad

5.4 Water Demand

The water districts of the Pimpri-Chinchwad city are shown in Figure 5.6. Demand of the
water districts is computed by using the land pattern data given by the PMC.

Figure 5.6: Water districts of the Pimpri-Chinchwad city

Population of all the 46 water districts, its area and population density, under study area, is
shown in Table 5.1. A GIS layer with population densities as attribute table has been created.

Table 5.1: Population of the water districts under study area

Water Zone Population Population Density

SN Water Zone Name Area (km2)
No. (2011) (P/km2)

60
 1 A1 Pradhikaran (E1) 3653171 65289 17872
2 A2 Triveni Nagar 2893995 86184 29780
3 A3 Rupi Nagar 5923341 36680 6192
4 A4 Chikhli 6593275 87935 13337
5 A5 Krishna Nagar 3969321 51081 12869
6 A6 Kudalwadi & Jadhavwadi 4730182 32528 6877
7 A7 Akurdi 1775531 48460 27293
8 B1 Sector 29 2550570 22854 8960
9 B2 Bijli Nagar 2556691 79790 31208
10 B3 Sector 96 Part 1 11073858 32980 2978
11 B4 Mamurdi Direct 3000458 4999 1666
12 B5 Elpro 2103509 59034 28065
13 B6 Pimpri Camp 1208700 58362 48285
14 B7 Sector 96 Part 2 4727993 17738 3752
15 B8 Nav Maharashra 781756 12360 15810
16 C1 Moshi 9277030 31455 3391
17 C2 Boradewadi 1131161 12613 11150
18 C3 WD4 3536615 24074 6807
19 C4 Dudulgaon 45917 3509 76426
20 C5 Sector 7 and 10 1891204 6040 3194
21 C6 Wadmukhwadi 4273259 2437 570
22 C7 Charholi 17411135 13306 764
23 C8 Indrayaninagar 628780 22266 35411
24 C9 Panjarpol 2213991 57787 26101
25 C10 Bhosari Gaothan 499918 19070 38146
26 C11 Sant Tukaram Nagar 1049013 48691 46416
27 C12 Dighi Gaothan 1576909 40598 25745
Anna Saheb Magar
28 C13 560074 11758 20993
Stadium
29 C14 Ajmera Colony 1293794 29264 22619
30 C15 Nehru Nagar 2768757 66855 24146
31 C16 Kasarwadi 1917448 29279 15270
32 C17 Dighi Magzine 1132172 4153 3668
33 D1 Thergaon Gaothan 1399055 35210 25167
34 D2 Lakshman Nagar 3152663 77074 24447
35 D3 Kala Khadak 5629633 35216 6255
36 D4 Shreenagar 2635108 85137 32309
37 D5 Rahatni 4071683 70331 17273
38 D6 Pimple Saudagar 1974842 55497 28102
39 D7 Pimple Gurao 2149168 59284 27585
40 D8 Jawalkar Nagar 768790 20054 26085
41 D9 New Sangvi 599944 24898 41500
42 D10 PWD Sector 85 906487 20845 22995
43 D11 Old Sangvi 342635 20883 60948
44 D12 Dapodi 1313327 37404 28481
45 D13 Lakshman Nagar 2 1319225 13131 9954
46 D14 Pimple Nilakh 8264983 30596 3702
47 D15 4987049 25143 5042
Total 148264118 1730133 20758

5.4.1 Observations on Demand Projection

61
The City Development Plan (CDP) recommends the growth of population according to the
ward density pattern. Water district’s density is a ratio of population of each water district to
its spread area. Based on the population pattern, the water district are categorized as low
dense, medium dense, high dense, very high dense and saturated. Population projection factor
was considered in accordance with the growth rate of the city and with discussions with the
city planners. It is also considered as per the, expected new layouts, vertical growth, urban
poor, slums, land use pattern, residential and commercial properties and industries, etc. in the
each 46 water districts. A maximum growth factor of 3 has been given to the low dense water
districts, followed by the projection factors as shown in Table 5.3.

Table 5.2: Population density pattern

SN Water district: Density Persons/ sq km No. of Water Projection Factor

Pattern districts
1 Low 0 - 10000 16 3
2 Medium 10000 - 20000 7 2.7
3 High 20000-30000 15 2.5
4 Very High 30000-45000 5 2
5 Saturated >45000 4 1.2
Total 47

Numbers of water districts with different density type are shown in Figure 5.7. Distribution
of population density in various water districts is shown in Figure 5.8 and Table 5.3.

4
5 16
Low
Medium
High
15
7 Very High
Saturated

Figure 5.7: Density pattern of water districts in Pimpri-Chinchwad

.

62
Table 5.3: Distribution of population density in various wards
Water Population
Population Projection Population Population density (p/m2)
District Water District Name Area_sqm A_sqkm Density Density
(2011) factor
No. (P/sqkm) 2015 2030 2045 2015 2030 2045
C6 Wadmukhwadi 4273259 4.273259 2437 570 Low 3.0 2742 5041 6522 0.000642 0.00118 0.001526
C7 Charholi 17411135 17.41114 13306 764 Low 3.0 14970 27523 35607 0.00086 0.001581 0.002045
C4 Dudulgaon 4245917 4.245917 3509 826 Low 3.0 3948 7259 9391 0.00093 0.00171 0.002212
B4 Mamurdi Direct 3000458 3.000458 4999 1666 Low 3.0 5625 10341 13378 0.001875 0.003446 0.004459
B3 Sector 96 Part 1 11073858 11.07386 32980 2978 Low 3.0 37105 68218 88256 0.003351 0.00616 0.00797
C5 Sector 7 and 10 1891204 1.891204 6040 3194 Low 3.0 6795 12494 16163 0.003593 0.006606 0.008547
C1 Moshi 9277030 9.27703 31455 3391 Low 3.0 35390 65065 84176 0.003815 0.007014 0.009074
C17 Dighi Magzine 1132172 1.132172 4153 3668 Low 3.0 4672 8590 11113 0.004127 0.007587 0.009816
D14 Pimple Nilakh 8264983 8.264983 30596 3702 Low 3.0 34423 63287 81876 0.004165 0.007657 0.009906
B7 Sector 96 Part 2 4727993 4.727993 17738 3752 Low 3.0 19957 36692 47469 0.004221 0.007761 0.01004
D15 D15 4987049 4.987049 25143 5042 Low 3.0 28288 52008 67284 0.005672 0.010429 0.013492
A3 Rupi Nagar 5923341 5.923341 36680 6192 Low 3.0 41268 75873 98158 0.006967 0.012809 0.016571
C3 WD4 3536615 3.536615 24074 6807 Low 3.0 27085 49797 64424 0.007658 0.01408 0.018216
A6 Kudalwadi & Jadhavwadi 4730182 4.730182 32528 6877 Low 3.0 36597 67285 87048 0.007737 0.014225 0.018403
D3 Kala Khadak 5063502 5.063502 35216 6955 Low 3.0 39620 72844 94239 0.007825 0.014386 0.018612
B1 Sector 29 2556691 2.556691 22854 8939 Low 3.0 25713 47273 61159 0.010057 0.01849 0.023921
D13 Lakshman Nagar 2 1319225 1.319225 13131 9954 Low 3.0 14774 27162 35140 0.011199 0.02059 0.026637
C2 Boradewadi 1131161 1.131161 12613 11150 Medium 2.7 14191 23481 30378 0.012545 0.020758 0.026855
A5 Krishna Nagar 3969321 3.969321 51081 12869 Medium 2.7 57470 95094 123026 0.014479 0.023957 0.030994
A4 Chikhli 6593275 6.593275 87935 13337 Medium 2.7 98934 163705 211788 0.015005 0.024829 0.032122
B2 Bijli Nagar 5950587 5.950587 79790 13409 Very High 2.0 89771 110031 142349 0.015086 0.018491 0.023922
C16 Kasarwadi 1917448 1.917448 29279 15270 Medium 2.7 32941 54508 70518 0.01718 0.028427 0.036777
B8 Nav Maharashra 781756.4 0.781756 12360 15810 Medium 2.7 13906 23009 29768 0.017788 0.029433 0.038078
D5 Rahatni 4071683 4.071683 70331 17273 Medium 2.7 79128 130931 169389 0.019434 0.032157 0.041602
A1 Pradhikaran (E1) 3653171 3.653171 65289 17872 Medium 2.7 73456 121546 157246 0.020107 0.033271 0.043044
Anna Saheb Magar
C13 560074.1 0.560074 11758 20993 High 2.5 13228 20267 26220 0.023619 0.036187 0.046815
Stadium
C14 Ajmera Colony 1293794 1.293794 29264 22619 High 2.5 32925 50445 65261 0.025448 0.03899 0.050442
D10 PWD Sector 85 906487.2 0.906487 20845 22995 High 2.5 23452 35931 46485 0.025871 0.039637 0.05128
C15 Nehru Nagar 2768757 2.768757 66855 24146 High 2.5 75217 115241 149090 0.027166 0.041622 0.053847
D2 Lakshman Nagar 3152663 3.152663 77074 24447 High 2.5 86715 132857 171880 0.027505 0.042141 0.054519
D1 Thergaon Gaothan 1399055 1.399055 35210 25167 High 2.5 39614 60693 78520 0.028315 0.043381 0.056123

63
C12 Dighi Gaothan 1576909 1.576909 40598 25745 High 2.5 45676 69981 90536 0.028966 0.044379 0.057414
D8 Jawalkar Nagar 768789.9 0.76879 20054 26085 High 2.5 22563 34569 44722 0.029348 0.044965 0.058172
C9 Panjarpol 2213991 2.213991 57787 26101 High 2.5 65015 99610 128868 0.029365 0.044991 0.058206
A7 Akurdi 1775531 1.775531 48460 27293 High 2.5 54522 83534 108069 0.030707 0.047047 0.060866
D7 Pimple Gurao 2149168 2.149168 59284 27585 High 2.5 66699 102190 132206 0.031035 0.047549 0.061515
B5 Elpro 2103509 2.103509 59034 28065 High 2.5 66418 101761 131650 0.031575 0.048377 0.062586
D6 Pimple Saudagar 1974842 1.974842 55497 28102 High 2.5 62438 95662 123760 0.031617 0.04844 0.062669
D12 Dapodi 1313327 1.313327 37404 28481 High 2.5 42083 64476 83414 0.032043 0.049093 0.063513
A2 Triveni Nagar 2893995 2.893995 86184 29780 High 2.5 96964 148560 192195 0.033505 0.051334 0.066412
D4 Shreenagar 2635108 2.635108 85137 32309 Very High 2.0 99146 144732 151887 0.037625 0.054925 0.05764
C8 Indrayaninagar 628780.4 0.62878 22266 35411 Very High 2.0 28412 37852 39723 0.045185 0.060198 0.063174
C10 Bhosari Gaothan 499917.6 0.499918 19070 38146 Very High 2.0 24816 32419 34021 0.04964 0.064848 0.068054
D9 New Sangvi 599944.2 0.599944 24898 41500 Very High 2.0 31373 42326 44419 0.052293 0.07055 0.074038
C11 Sant Tukaram Nagar 1049013 1.049013 48691 46416 Saturated 1.2 49665 52099 52120 0.047344 0.049665 0.049685
B6 Pimpri Camp 1208700 1.2087 58362 48285 Saturated 1.2 59530 62448 62473 0.049251 0.051665 0.051686
D11 Old Sangvi 342635.1 0.342635 20883 60948 Saturated 1.2 21301 22345 22354 0.062167 0.065215 0.065241
Total 1730133 1946538 3029053 3815740

64
Using load builder of WaterGEMS, the demand is given as per the population density (Figure
5.8).

Figure 5.8: Population density of Pimpri-Chinchwad

Population of different water districts are shown in Figures 5.9, 5.10 and 5.11.

2015 2030 2045

600000

500000

400000
Population

300000

200000

100000

0
A1 A2 A3 A4 A5 A6 A7 B1 B2 B3 B4 B5 B6 B7 B8

Figure 5.9: Water districts wise population projection of Pimpri-Chinchwad

65
 2015 2030 2045

400000

300000
Population
200000

100000

0
C1 C10 C11 C12 C13 C14 C15 C16 C17 C2 C3 C4 C5 C6 C7

Figure 5.10: Demand of water districts

2015 2030 2045

500000

400000
Population

300000

200000

100000

0
C8 C9 D1 D10D11D12D13D14 D2 D3 D4 D5 D6 D7 D8 D9

Figure 5.11: Demand of water districts

Base Scenario

Base scenario of the Transmission mainof the Pimpri-Chinchwad city has been prepared with
the alternatives: (i) active topology, demand and the operational as shown in Figure 5.16.

Base Scenario of
Pimpri-Chinchwad
Distribution System

Alternative: Active Alternative: Alternative:

Topology Deamnd Operational

Figure 5.16: Base scenario with alternatives of active topology, demand and operational

Thus the basic hydraulic model of the distribution system has been created for further
analysis and design of the entire project.
**

66
Chapter-6
Design of Transmission System

6.1 Transmission System

Existing (E) ongoing (OG) and new (N) tanks proposed in this design are shown in Figure
6.1.

Figure 6.1: Existing (E) ongoing (OG) and new (N) tanks proposed

New Transmission Main

A new MS feeder main of 1400 mm is proposed to be laid in the CIDCO area along with the
existing 1400 mm and 1118 mm mains.

Demands of the ESRs for the year 2026 and 2041 is shown in Table 6.1.

67
Table 6.1: Demands of the ESRs for the year 2026 and 2041
Demand of Demand
Tank_ID Area (%) Status Label 2030 of 2045
(ML/day) (MLD)
1 40 E* Ajmera-1 6.33 7.96
2 40 E Ajmera-2 5.77 7.26
3 40 E Annasaheb_Magar 3.83 4.82
4 40 E Bhosari Gaothan 4.05 5.10
5 40 E Dighi 9.93 12.49
6 40 E Dighi Gaothan 3.56 4.48
7 40 E Elpro a 7.05 8.87
8 40 E Elpro b 4.53 5.70
9 40 N Elpro New 4.65 5.85
10 40 N Gaothan New (Old Sangavi)_b 6.52 8.20
11 40 E New sangvi police Station 7.42 9.33
12 40 E PWD Sector 84 5.07 6.38
13 40 E Sant Tukaram 4.09 5.15
14 40 OG Sant Tukaram Nagar New 11.87 14.93
15 40 E Sector 29a 8.02 10.09
16 40 E Sector 29b 4.68 5.89
17 40 E Sector7_10_a 4.93 6.20
18 40 E Sector7_10_b 2.91 3.66
19 40 E Thergaon Gaothan1 9.52 11.98
20 40 E Triveni Nagar1 6.76 8.50
21 40 E Triveni Nagar2 8.48 10.67
22 40 E WD4 a 4.1 5.16
23 40 E WD4 b 8.97 11.28
24 40 E WD4 c 9.28 11.67
25 40 E Bijli Nagar a 8.27 10.40
26 40 E Bijli Nagar b 3.89 4.89
27 40 E Bijli Nagar c 5.51 6.93
28 40 E Pradhikaran 11.64 14.64
29 40 E PremlokPark 4.98 6.27
30 60 E Ashok Cinema 7.29 9.17
31 60 E Ashram 3.39 4.26
32 60 E Mamurdi 4.99 6.28
33 60 E Bopkhel 0 0.00
34 60 E Dapodi1 4.1 5.16
35 60 E Dapodi2 4.39 5.52
36 60 E Dighi_Magzine 2.16 2.72
37 60 E Indrayaninagar a 4.82 6.06
38 60 E Kala Khadak 6.93 8.72
39 60 OG Kala Khadak New1 10.66 13.41
40 60 N Kala Khadak New 2 11.8 14.85
41 60 E Kasarwadi1 1.84 2.31
42 60 E Kasarwadi2 8.84 11.12
43 60 OG Kaveri Nagar 7.26 9.13
44 60 E Khandoba-1 6.71 8.44
45 60 E Khandoba-2 7.74 9.74
46 60 E Lakshman Nagar 13.52 17.01
47 60 E Lakshman Nagar 2 8.12 10.22
48 60 OG Mahendra & Mahendra 5.06 6.37
49 60 N NewJadhavwadi ESR 14.23 17.90

68
 50 60 E Thergaon Gaothan2 6.18 7.77
51 60 E Morewasti Chikhli 8.83 11.11
52 60 E Nav Maha 1.06 1.33
53 60 E Naydu 6.02 7.57
54 60 E Nehru Nagar1 3.3 4.15
55 60 E Nehru Nagar2 2.82 3.55
56 60 OG New Panjarpol 1 1.26
57 60 OG New Pimple Gurav Garden 7.22 9.08
58 60 N New_Punavale 7.48 9.41
59 60 E Panjarpol 4.56 5.74
60 60 E Pimple Gurao1 3.73 4.69
61 60 E Pimple Gurao2 4.2 5.28
62 60 E Pimple Gurao3 4.55 5.72
63 60 E Pimple Gurav Garden 2.98 3.75
64 60 E Pimple Nilakh 10.58 13.31
65 60 E Pimple Saudagar a 4.43 5.57
66 60 N Pimple Saudagar b New 9.89 12.44
67 60 E Pimpri Delux a 6.29 7.91
68 60 E Pimpri Delux b 4.09 5.15
69 60 OG Proposed Naydu 3.56 4.48
70 60 E Punavale 5.61 7.06
71 60 E Rahatni1 7.06 8.88
72 60 E Rahatni2 8.4 10.57
73 60 E Rahatni3 6.28 7.90
74 60 E Rupi Nagar 10.67 13.42
75 60 E Sachin1 3.5 4.40
76 60 E Sachin2 4.34 5.46
77 60 OG Sector 28 New 0 0.00
78 60 E Sector 96 6.59 8.29
79 60 OG Sector 96 New 10.79 13.57
80 60 E Sector 96 Part 2 7.16 9.01
81 60 E Shahu Nagar 7.07 8.89
82 60 E Charholi c 1.75 2.20
83 60 E Dudulgaon 3.91 4.92
84 60 N Gairan 6.53 8.22
85 60 N Kudalwadi New1 7.41 9.32
86 60 N Kudalwadi New2 7.65 9.62
87 60 N Kudalwadi New3 7.43 9.35
88 60 N Kudalwadi New4 5.91 7.44
89 60 E Moshi b 5.16 6.49
90 60 N New_Charoli 4.4 5.54
91 60 N New_Moshi b 8.86 11.15
92 60 N New_Wadmukhwadi b 2.24 2.82
93 60 E Wadmukhwadi b 2.34 2.94
94 No Zone E Balewadi 0.72 0.91
95 No Zone E Chest Hospital 0.77 0.97
565.78 711.80
* E: Existing; OG: Ongoing; N= New

69
6.2 Existing Pumping Stations in Distribution System
Presently, there are 21 pumping stations in the system as shown in Table 6.2.

Table 6.2: Pumping stations in the distribution system

Sr. Discharge Working
Name of Pump house Connected Pumps Hp Head
No. (m3/h) Hrs.

Running Standby Total In M^3/Hr. MTR HR.

1 Rawet S.No. 96 3 2 5 100 600 32 18
1 1 2 180 400 90 5
2 Thergoan s.No.15 2 2 3 75 600 25 13
3 Punawale 2 1 3 120 600 38 0
4 Rahatni S.No. 20 2 2 4 60 600 20 18
5 Pimpale Gurav S.No.72 2 1 3 75 600 25 18
6 Thergoan Gavthan 1 1 2 50 500 18 16
7 Thergoan S.No. 9 1 2 3 75 600 25 16
8 Kalakhadak Waked 2 1 3 120 600 34 5
9 Tathawade 1 1 2 10 50 18 6
10 Kalakhadak Booster 1 1 2 20 50 26 3
11 Sangvi Gavthan 1 1 2 50 400 20 7
12 Sangvi S.No. 84 1 1 2 60 600 18 12
13 Sangvi PWD 1 1 2 60 600 18 12
14 Gawalimatha 2 1 3 335 838 84.29 22
1 1 2 75 250 60.36 22
15 Landewadi,bhosari gaon 1 1 2 120 500 45.56 18
Alandi Road 1 1 2 150 600 63 16
digji road 2 1 3 150 200 95 21
dighi magazine 1 1 2 120 320 60 9
dighi ESR 1 1 2 75 189 71.2 12
16 Bopkhel 2 2 4 20 118 32 15
17 Krishnanagar(old) 1 1 2 180 1283 26.1 16
1 1 2 120 975 26.38 16
Krishnanagar(new) 2 1 3 120
18 Jadhavwadi 1 1 2 40 12
19 Patilnagar 1 1 2 20 22
20 Sec22 2 1 3 20 118 32 10
21 Sec 10(FOR SEC 10) 2 1 3 150 800 33 12
(FOR SEC 12) 4 4 8 20 118 32 18
TOTAL 46 37 83
Source: PCMC Mech./ Ele. Department

6.3 Design of Transmission System

6.3.1 ESRs on the sump of Sector10 pumping station
ESRs, on the sump at Sector10 pumping station, are shown in Figure 6.2 and Table 6.3.
Water from WTP at sector 23 reaches the sump at Sector-10 by gravity. From sump water is

70
pumped to the ESRs Sector7_10_a, Sector7_10_b, WD4 a, WD4 b and WD4 c. From ESRs
WD4 b and WD4 c, water reaches to the distribution networks of these respective operational
zones and downstream EERs at Moshi, Wadmukhwadi and Chiroli by gravity.

Figure 6.2: ESRs on the sump of Sector10 pumping station

Table 6.3: ESRs on the sump of Sector10 pumping station

Demand Demand
Demand of Demand of
SN Label of 2030 2030* of 2045 2045*
(ML) 24/23 (ML) 24/23
(ML) (ML)
1 Sector7_10_a 4.93 5.14 6.20 6.47
2 Sector7_10_b 2.91 3.04 3.66 3.82
3 WD4 a 4.1 4.28 5.16 5.38
4 WD4 b 8.97 9.36 11.28 11.78
5 WD4 c 9.28 9.68 11.67 12.18
6 New Panjarpol 1 1.04 1.26 1.31
7 Panjarpol 4.56 4.76 5.74 5.99
8 Charholi c 1.75 1.83 2.20 2.30
9 Dudulgaon 3.91 4.08 4.92 5.13
10 Moshi b 5.16 5.38 6.49 6.77
11 New_Charoli 4.4 4.59 5.54 5.78
12 New_Moshi b 8.86 9.25 11.15 11.63
New_Wadmukhwadi
13 2.34 2.82 2.94
b 2.24
14 Wadmukhwadi b 2.34 2.44 2.94 3.07
Total 64.41 67.21 81.03 84.56

However, it is observed that capacities of the ESRs WD4 b and WD4 c are not enough and
they would be emptying. Hence, it is proposed that water from the sump at sector 10 will be
pumped to the ESRs WD4 a, WD4 b and WD4 c separately and there should be separate
arrangement for the transmission of water to the ESRs at Moshi, New_Moshi b,

71
Wadmukhwadi, New_Wadmukhwadi b, Chiroli and New_Charoli. The new arrangement is
shown in Figure 6.3 and 6.4.

Figure 6.3: Proposed new arrangement

Check for adequacy of Gravity main from WTP (S1) to Sump at sector 10

Figure 6.4: Transmission main S1 to Sump at Sector 7, 10

Check for flow of year 2030

A demand of year 2030 as shown in Table 6.3 is given to the node of sump at Sector 10 and
model rum is taken. It is observed that water will not reach sump at Sector 10. Hence, a
pumping will have to carry out.

Design of Pump: The levels and demand is shown in Table 6.4. A demand of 65.43 MLD and
a head of 10 m is given to the pump and model run is taken.

Table 6.4: Levels and demand at Sump at Sector 10.

72
 Demand Demand
FSL of LSL of Static Demand of Demand of Design
SN Pump tank sump head of 2030 2030* of 2045 2045* Head
(m) (m) (m) (ML) 24/23 (ML) 24/23 (m)
(ML) (ML)
1 New Sector10 613.3 610 3.3 64.41 67.21 81.03 84.56 82.31

The pipe and junction results are shown in Table 6.5 and 6.6 respectively.

Table 6.5: Pipe results

Hazen- Length Flow Headloss

Start Diameter Velocity
Label Stop Node Material Williams (Scaled) (Absolute) Gradient P_EN
Node (mm) (m/s)
C (m) (ML/day) (m/km)
P-701 J-311 Sump_Sector7,10 MS 120 479 900 67.21 1.223 1.579 E
P-700 J-226 J-311 MS 120 1,364 1,000.00 67.21 0.99 0.945 E
P-699 J-264 J-226 MS 120 1,800 1,200.00 67.21 0.688 0.389 E
P-753 S1 PMP-72 MS 120 13 1,200.00 67.21 0.688 0.389 E
PMP-
P-754 J-264 MS 120 5,409 1,200.00 67.21 0.688 0.389 E
72

Table 6.6: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
J-226 604.88 0 14.59
J-264 590.6 0 29.54
J-311 609 0 9.19
Sump_Sector7,10 607.05 67.21 10.38

From Tables 6.4 and 6.5 it is observed that velocity is less than 1.8 m/s and minimum
residual pressure is more than 8 m, hence OK.

Check for flow of year 2045

A demand of year 2045, 84.56 MLD (Table 6.3) is given to the node of sump at Sector 10.
This demand and a head of 10 m is given to the pump and model run is taken. The pipe and
junction results are shown in Tables 6.7 and 6.8 respectively.

Table 6.7: Pipe results

Hazen- Length Flow Headloss
Start Diameter Velocity
Label Stop Node Material Williams (Scaled) (Absolute) Gradient P_EN
Node (mm) (m/s)
C (m) (ML/day) (m/km)
P-701 J-311 Sump_Sector7,10 MS 120 479 900 84.56 1.538 2.415 E
P-700 J-226 J-311 MS 120 1,364 1,000.00 84.56 1.246 1.446 E
P-699 J-264 J-226 MS 120 1,800 1,200.00 84.56 0.865 0.595 E
P-753 S1 PMP-72 MS 120 13 1,200.00 84.56 0.865 0.595 E
PMP-
P-754 J-264 MS 120 5,409 1,200.00 84.56 0.865 0.595 E
72

Table 6.8: Junction results

73
 Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
J-226 604.88 0 13.1
J-264 590.6 0 28.43
J-311 609 0 7.02
Sump_Sector7,10 607.05 84.56 7.81

From Tables 6.7 and 6.8 it is observed that velocity is Ok and residual pressure is more than
6.3 m, hence OK.

Design of Rising Main

This rising main is proposed from the sump at Sector 10 to New MBR. A connection is made
en-route to provide water to the ESRs at Panjarpol and New Panjarpol (Figure 6.6).

Economic Size: Economic size is computed as shown in Appendix 1. Outer diameter of the
MS pipe is 1067 mm. Considering 10 mm thick and 6 mm mortar lining, ID is 1035 mm. The
thickness and water hammer pressure is checked in Appendix 1.

Rising mains from Sump sector 10

Pumps to be installed are shown in Figure 6.5 and various rising mains from sump at Sector 7
are shown in Figure 6.6.

Figure 6.5: Details of pumps at sump at Sector 7,10

74
 Figure 6.6: Rising mains from Sump at Sector 7,10

Values of demands of nodes and pump design head and discharge are shown in Table 6.7

Table 6.7: Demands of nodes and pump design head and discharge at sump
Design Design
FSL Demand Demand
LSL of Static Demand Demand Head Head
of of 2030* of 2045*
SN Pump sump head of 2030 of 2045 for for
tank 24/23 24/23
(m) (m) (ML) (ML) 2030 2045
(m) (ML) (ML)
(m) (m)
1 PMP-Sector7_10_a 628.2 602.94 25.26 4.93 5.14 6.20 6.47 40 40
2 PMP-Sector7_10_b 628.2 602.94 25.26 2.91 3.04 3.66 3.82 40 40
3 PMP-WD4a,b,c 633.7 602.94 30.76 22.35 23.32174 28.11811 29.34063 38 38
4 PMP-NewMBR* 634 602.94 31.06 34.22 35.70783 43.05153 44.92333 30 30
*includes demands of Panjarpol and New Panjarpol
Check for flow of year 2045

A demand of 2045 with multiplying factor of 24/23 as shown in Table 6.7 is given to the
various nodes the head for pump is taken as shown in Table 6.7 and model rum is taken. The
pipe and junction results are respectively shown in Tables 6.8 and 6.9.

Table 6.8: Pipe results

Flow
Hazen- Length Headloss
Start Stop Diameter (Absolut Velocity
Label Material Williams (Scaled) Gradient P_EN
Node Node (mm) e) (m/s)
C (m) (m/km)
(ML/day)
PMP-
Sump_Se
P-89 Sector7_ DI 135 6 300 6.47 1.06 3.51 E
ctor10
10_a
PMP- FCV-
P-90 Sector7_ Sector7_ DI 135 45 300 6.47 1.06 3.51 E
10_a 10_a
Sector7_
P-91 H-8 DI 135 4 300 6.47 1.06 3.514 E
10_a
FCV-
P-92 Sector7_ H-8 DI 135 4 300 6.47 1.06 3.504 E
10_a

75
 FCV-WD4
P-562 J-327 DI 135 14 500 12.19 0.718 0.977 E
c
FCV-WD4
P-563 WD4 c DI 135 13 500 12.19 0.718 0.977 E
c
FCV-WD4
P-615 J-327 DI 135 39 500 11.77 0.694 0.977 E
b
FCV-WD4
P-616 WD4 b DI 135 13 500 11.77 0.694 0.977 E
b
Sump_Se PMP-
P-64 DI-K9 120 5 1,000.00 44.92 0.662 0.446 N
ctor10 NewMBR
PMP-
P-65 J-318 DI-K9 120 1,025 1,000.00 44.92 0.662 0.448 N
NewMBR
PMP-
Sump_Se
P-249 Sector7_ DI 135 8 300 3.82 0.625 1.32 E
ctor10
10_b
PMP- FCV-
P-250 Sector7_ Sector7_ DI 135 18 300 3.82 0.625 1.32 E
10_b 10_b
Sector7_
P-251 H-9 DI 135 4 300 3.82 0.625 1.317 E
10_b
FCV-
P-252 Sector7_ H-9 DI 135 3 300 3.82 0.625 1.318 E
10_b
P-580 J-19 J-327 DI 135 302 900 29.34 0.534 0.273 E
PMP-
Sump_Se
P-581 WD4a,b, DI 135 6 900 29.34 0.534 0.275 E
ctor10
c
PMP-
P-582 WD4a,b, J-19 DI 135 708 900 29.34 0.534 0.273 E
c
P-322 J-319 J-312 DI 135 1,225 450 7.29 0.531 0.608 E
Sumpnod
FCV-
P-13623 e_NewM MS 120 5 1,035.00 37.62 0.518 0.273 N
NewMBR
BR
P-13624 J-318 H-109 MS 120 2,814 1,035.00 37.62 0.518 0.273 N
FCV-
P-13625 H-109 MS 120 3 1,035.00 37.62 0.518 0.266 N
NewMBR
FCV-
P-735 J-312 DI 135 32 450 5.99 0.436 0.42 E
Panjarpol
FCV-
P-738 H-103 DI 135 10 450 5.99 0.436 0.425 E
Panjarpol
P-739 H-103 Panjarpol DI 135 12 450 5.99 0.436 0.419 E
FCV-WD4
P-565 J-327 DI 135 20 500 5.38 0.317 0.244 E
a
FCV-WD4
P-566 WD4 a DI 135 9 500 5.38 0.317 0.244 E
a
P-5 J-318 J-319 DI-K9 135 31 600 7.29 0.299 0.149 N
FCV-New
P-734 J-312 DI-K7 135 43 450 1.31 0.095 0.024 N
Panjarpol
New
P-736 H-102 DI-K7 135 19 450 1.31 0.095 0.028 N
Panjarpol
FCV-New
P-737 H-102 DI-K7 135 10 450 1.31 0.095 0.023 N
Panjarpol

Table 6.9: Junction results

Label Elevation (m) Demand (ML/day) Pressure (m H2O)
WD4 c 633.7 12.19 7.01
WD4 b 633.7 11.77 7.01
WD4 a 632.4 5.38 8.3
New Panjarpol 621 1.31 10.77
Panjarpol 619.9 5.99 11.84
Sector7_10_a 628.2 6.47 14.56

76
 Sector7_10_b 628.2 3.82 14.76
Sumpnode_NewMBR 614 37.62 17.74
J-319 609.35 0 23.14
J-318 609.27 0 23.22
J-312 603.34 0 28.39
J-327 609 0 31.66
J-19 609 0 31.74

It is observed that the velocities are less than 1.8 m/s and the pressures are more than 10m,
hence the sizing of the pipes is ok.

Check for flow of year 2030

A demand of 2030 with multiplying factor of 24/23 as shown in Table 6.7 is given to the
various nodes the head for pump is taken as shown in Table 6.7. and model rum is taken. The
pipe and junction results are respectively shown in Tables 6.10 and 6.11.

Table 6.10: Pipe results

Flow
Hazen- Length Headloss
Start Stop Diameter (Absolut Velocity
Label Material Williams (Scaled) Gradient P_EN
Node Node (mm) e) (m/s)
C (m) (m/km)
(ML/day)
PMP-
Sump_Se
P-89 Sector7_ DI 135 6 300 5.14 0.842 2.295 E
ctor10
10_a
PMP- FCV-
P-90 Sector7_ Sector7_ DI 135 45 300 5.14 0.842 2.293 E
10_a 10_a
Sector7_
P-91 H-8 DI 135 4 300 5.14 0.842 2.286 E
10_a
FCV-
P-92 Sector7_ H-8 DI 135 4 300 5.14 0.842 2.306 E
10_a
FCV-WD4
P-562 J-327 DI 135 14 500 9.69 0.571 0.488 E
c
FCV-WD4
P-563 WD4 c DI 135 13 500 9.69 0.571 0.732 E
c
FCV-WD4
P-615 J-327 DI 135 39 500 9.36 0.552 0.488 E
b
FCV-WD4
P-616 WD4 b DI 135 13 500 9.36 0.552 0.732 E
b
Sump_Se PMP-
P-64 DI-K9 120 5 1,000.00 35.7 0.526 0.294 N
ctor10 NewMBR
PMP-
P-65 J-318 DI-K9 120 1,025 1,000.00 35.7 0.526 0.293 N
NewMBR
PMP-
Sump_Se
P-249 Sector7_ DI 135 8 300 3.03 0.497 0.862 E
ctor10
10_b
PMP- FCV-
P-250 Sector7_ Sector7_ DI 135 18 300 3.03 0.497 0.859 E
10_b 10_b
Sector7_
P-251 H-9 DI 135 4 300 3.03 0.497 0.851 E
10_b
FCV-
P-252 Sector7_ H-9 DI 135 3 300 3.03 0.497 0.872 E
10_b
P-580 J-19 J-327 DI 135 302 900 23.32 0.424 0.179 E
PMP-
Sump_Se
P-581 WD4a,b, DI 135 6 900 23.32 0.424 0.179 E
ctor10
c
PMP-
P-582 WD4a,b, J-19 DI 135 708 900 23.32 0.424 0.179 E
c
P-322 J-319 J-312 DI 135 1,225 450 5.8 0.422 0.397 E

77
 Sumpnod
FCV-
P-13623 e_NewM MS 120 5 1,035.00 29.91 0.411 0.178 N
NewMBR
BR
P-13624 J-318 H-109 MS 120 2,814 1,035.00 29.91 0.411 0.178 N
FCV-
P-13625 H-109 MS 120 3 1,035.00 29.91 0.411 0.186 N
NewMBR
FCV-
P-735 J-312 DI 135 32 450 4.76 0.346 0.275 E
Panjarpol
FCV-
P-738 H-103 DI 135 10 450 4.76 0.346 0.278 E
Panjarpol
P-739 H-103 Panjarpol DI 135 12 450 4.76 0.346 0.271 E
FCV-WD4
P-565 J-327 DI 135 20 500 4.28 0.252 0 E
a
FCV-WD4
P-566 WD4 a DI 135 9 500 4.28 0.252 0 E
a
P-5 J-318 J-319 DI-K9 135 31 600 5.8 0.237 0.099 N
FCV-New
P-734 J-312 DI-K7 135 43 450 1.04 0.076 0.016 N
Panjarpol
New
P-736 H-102 DI-K7 135 19 450 1.04 0.076 0.016 N
Panjarpol
FCV-New
P-737 H-102 DI-K7 135 10 450 1.04 0.076 0.023 N
Panjarpol

Table 6.11: Junction results

Label Elevation (m) Demand (ML/day) Pressure (m H2O)
WD4 b 633.7 9.36 7.1
WD4 c 633.7 9.69 7.1
WD4 a 632.4 4.28 8.4
New Panjarpol 621 1.04 11.18
Panjarpol 619.9 4.76 12.27
Sector7_10_a 628.2 5.14 14.61
Sector7_10_b 628.2 3.03 14.8
Sumpnode_NewMBR 614 29.91 18.16
J-319 609.35 0 23.29
J-318 609.27 0 23.38
J-312 603.34 0 28.81
J-327 609 0 31.75
J-19 609 0 31.81

It is observed that velocity in pipes is less than 1.8 m/s and the residual pressures at ESRs are
more than 10m, hence OK. Residual pressures are the flow at ESRs are controlled by the
FCVs with level controls.

Profile of pressure from the sump to the new MBR is shown in Figure 6.7.

78
 Figure 6.7: Profile of pressure from the sump to the new MBR

Design of Gravity Main from NewMBR

Gravity mains from the proposed New MBR are shown in Figure 6.8. The existing pipes are
shown in green colour and that of the new are shown in blue colour. Demands are shown in
Table 6.12.

Figure 6.8: Gravity mains from NewMBR

Table 6.12: Demand details

79
 Demand Demand
Demand of Demand of
SN Label of 2030 2030* of 2045 2045*
(ML) 24/23 (ML) 24/23
(ML) (ML)
1 Charholi c 1.75 1.83 2.20 2.30
2 Dudulgaon 3.91 4.08 4.92 5.13
3 Moshi b 5.16 5.38 6.49 6.77
4 New_Charoli 4.4 4.59 5.54 5.78
5 New_Moshi b 8.86 9.25 11.15 11.63
New_Wadmukhwadi
6 2.24 2.34 2.82 2.94
b
7 Wadmukhwadi b 2.34 2.44 2.94 3.07
Total 28.66 29.91 36.06 37.62

Design of New MBR

Total demand is 36.63 say 37 MLD. So per hour flow is 1567.5 m3/h. Provide 20 m diameter
tank with water depth of 5 m, so volume is 1570.8 m3. So retention = 60 minutes
Ground elevation is 614 m. staging height is 20 m.

(a) Design for year 2045:

Demand of year 2045 with multiplying factor of 24/23 (Table 6.12) has been given to the
nodes and the model run is taken. The pipe results are shown in Table 6.13 and junction
results are shown in Table 6.14.

Table 6.13: Pipe results of rising mains for year 2045

Flow
Hazen- Length Headloss
Start Stop Diameter (Absolut Velocity
Label Material Williams (Scaled) Gradient P_EN
Node Node (mm) e) (m/s)
C (m) (m/km)
(ML/day)
P-13630 NewMBR H-111 DI-K7 135 5 700 29.9 0.899 0.966 N
P-13631 H-111 J-315 DI-K7 135 1,933 700 29.9 0.899 0.963 N
P-93 J-284 J-4 DI-K7 135 109 500 14.63 0.862 1.278 N
P-94 J-283 J-284 DI-K7 135 483 500 14.63 0.862 1.32 N
P-130 J-315 J-316 DI-K7 135 28 600 16.66 0.682 0.69 N
P-158 J-238 J-272 DI 135 494 600 14.22 0.582 0.515 E
P-159 J-272 J-316 DI 135 372 600 14.22 0.582 0.515 E
FCV-
P-199 J-4 New_Mo DI-K7 135 16 500 9.25 0.545 0.569 N
shi b
FCV-
P-201 New_Mo H-5 DI-K7 135 3 500 9.25 0.545 0.556 N
shi b
New_Mo
P-202 H-5 DI-K7 135 4 500 9.25 0.545 0.568 N
shi b
FCV-
P-258 J-237 Dudulgao DI 135 306 350 4.08 0.491 0.706 E
n
FCV-
P-259 Dudulgao H-4 DI 135 6 350 4.08 0.491 0.696 E
n
P-260 H-4 Dudulgao DI 135 8 350 4.08 0.491 0.707 E

80
 n
P-38 J-313 J-314 DI-K7 135 1,641 500 6.92 0.408 0.33 N
P-370 J-237 J-238 DI 135 2,453 700 12.4 0.373 0.189 E
P-355 J-315 J-317 DI-K7 135 889 500 6.31 0.372 0.278 N
P-356 J-317 J-237 DI-K7 135 2,445 500 6.31 0.372 0.278 N
FCV-
P-396 J-4 DI-K7 135 18 500 5.38 0.317 0.244 N
Moshi b
FCV-
P-397 H-6 DI-K7 135 2 500 5.38 0.317 0.55 N
Moshi b
P-398 H-6 Moshi b DI-K7 135 3 500 5.38 0.317 0 N
FCV-
P-127 J-314 New_Cha DI-K7 135 2,185 500 4.59 0.27 0.154 N
roli
FCV-
P-128 New_Cha H-1 DI-K7 135 3 500 4.59 0.27 0.142 N
roli
New_Cha
P-129 H-1 DI-K7 135 3 500 4.59 0.27 0.162 N
roli
P-467 J-275 J-276 DI 135 2,082 900 14.63 0.266 0.075 E
P-468 J-276 J-237 DI 135 33 900 14.63 0.266 0.076 E
P-469 J-283 J-275 DI 135 971 900 14.63 0.266 0.075 E
FCV-
New_Wa
P-172 J-314 DI-K7 135 54 500 2.34 0.138 0.044 N
dmukhw
adi b
New_Wa
P-173 H-2 dmukhw DI-K7 135 8 500 2.34 0.138 0.046 N
adi b
FCV-
New_Wa
P-174 H-2 DI-K7 135 12 500 2.34 0.138 0.045 N
dmukhw
adi b
P-327 J-315 J-313 DI-K7 135 394 900 6.92 0.126 0.019 N
FCV-
P-575 J-270 Wadmuk DI 135 110 600 2.44 0.1 0.02 E
h
P-576 J-271 J-270 DI 135 19 600 2.44 0.1 0.02 E
P-577 J-316 J-271 DI 135 300 600 2.44 0.1 0.02 E
FCV-
P-578 Wadmuk H-7 DI 135 2 600 2.44 0.1 0.032 E
h
Wadmuk
P-579 H-7 DI 135 4 600 2.44 0.1 0.019 E
hwadi b
FCV-
P-571 J-273 Charholi DI 135 1,824 600 1.82 0.075 0.011 E
c
P-572 J-238 J-273 DI 135 524 600 1.82 0.075 0.012 E
Charholi
P-574 H-3 DI 135 4 600 1.82 0.075 0 E
c
FCV-
P-573 Charholi H-3 DI 135 4 600 1.82 0.075 0 E
c

Table 6.14: Junction results of rising mains for year 2045

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
New_Moshi b 609 9.25 21.78
Moshi b 609 5.38 21.79
New_Charoli 605.1 4.59 26.59
Dudulgaon 599.94 4.08 31.48
New_Wadmukhwadi
594.7 2.34 37.3
b
Charholi c 586.8 1.82 45.25
J-314 584.51 0 47.48
J-4 580.09 0 50.65

81
 J-284 579.77 0 50.96
J-283 574.97 0 56.39
J-275 574.26 0 57.17
J-313 574.6 0 57.91
Wadmukhwadi b 574.56 2.44 57.92
J-270 574.24 0 58.25
J-271 574.19 0 58.3
J-238 572.69 0 59.36
J-317 572.69 0 59.58
J-315 572.89 0 59.62
J-276 571.62 0 59.96
J-316 572.13 0 60.36
J-272 571.65 0 60.65
J-237 570.79 0 60.79
J-273 568.56 0 63.47

It is observed that velocity in pipelines is not exceeding 1.8 m/s and the minimum residual
pressure is about 10 m. Hence the sizes of the pipelines proposed are OK. The higher nodal
pressures at tanks can be adjusted to desired value by adjusting Flow Controlling Valves
(FCV) provided before the demand nodes (ESRs).

(a) Design for Pumps for year 2030:

Demand of year 2030 (Table 6.12) has been given to the nodes and the model run is taken.
The pipe results are shown in Table 6.15 and junction results are shown in Table 6.16.

Table 6.15: Pipe results of rising mains for year 2030

Flow
Hazen- Length Headloss
Start Stop Diameter (Absolut Velocity
Label Material Williams (Scaled) Gradient P_EN
Node Node (mm) e) (m/s)
C (m) (m/km)
(ML/day)
P-13630 NewMBR H-111 DI-K7 135 5 700 29.9 0.899 0.966 N
P-13631 H-111 J-315 DI-K7 135 1,933 700 29.9 0.899 0.963 N
P-93 J-284 J-4 DI-K7 135 109 500 14.63 0.862 1.278 N
P-94 J-283 J-284 DI-K7 135 483 500 14.63 0.862 1.32 N
P-130 J-315 J-316 DI-K7 135 28 600 16.66 0.682 0.69 N
P-158 J-238 J-272 DI 135 494 600 14.22 0.582 0.515 E
P-159 J-272 J-316 DI 135 372 600 14.22 0.582 0.515 E
FCV-
P-199 J-4 New_Mo DI-K7 135 16 500 9.25 0.545 0.569 N
shi b
FCV-
P-201 New_Mo H-5 DI-K7 135 3 500 9.25 0.545 0.556 N
shi b
New_Mo
P-202 H-5 DI-K7 135 4 500 9.25 0.545 0.568 N
shi b
FCV-
P-258 J-237 Dudulgao DI 135 306 350 4.08 0.491 0.706 E
n
FCV-
P-259 Dudulgao H-4 DI 135 6 350 4.08 0.491 0.696 E
n
Dudulgao
P-260 H-4 DI 135 8 350 4.08 0.491 0.707 E
n
P-38 J-313 J-314 DI-K7 135 1,641 500 6.92 0.408 0.33 N
P-370 J-237 J-238 DI 135 2,453 700 12.4 0.373 0.189 E
P-355 J-315 J-317 DI-K7 135 889 500 6.31 0.372 0.278 N
P-356 J-317 J-237 DI-K7 135 2,445 500 6.31 0.372 0.278 N
FCV-
P-396 J-4 DI-K7 135 18 500 5.38 0.317 0.244 N
Moshi b
P-397 FCV- H-6 DI-K7 135 2 500 5.38 0.317 0.55 N

82
 Moshi b
P-398 H-6 Moshi b DI-K7 135 3 500 5.38 0.317 0 N
FCV-
P-127 J-314 New_Cha DI-K7 135 2,185 500 4.59 0.27 0.154 N
roli
FCV-
P-128 New_Cha H-1 DI-K7 135 3 500 4.59 0.27 0.142 N
roli
New_Cha
P-129 H-1 DI-K7 135 3 500 4.59 0.27 0.162 N
roli
P-467 J-275 J-276 DI 135 2,082 900 14.63 0.266 0.075 E
P-468 J-276 J-237 DI 135 33 900 14.63 0.266 0.076 E
P-469 J-283 J-275 DI 135 971 900 14.63 0.266 0.075 E
FCV-
New_Wa
P-172 J-314 DI-K7 135 54 500 2.34 0.138 0.044 N
dmukhw
adi b
New_Wa
P-173 H-2 dmukhw DI-K7 135 8 500 2.34 0.138 0.046 N
adi b
FCV-
New_Wa
P-174 H-2 DI-K7 135 12 500 2.34 0.138 0.045 N
dmukhw
adi b
P-327 J-315 J-313 DI-K7 135 394 900 6.92 0.126 0.019 N
FCV-
P-575 J-270 Wadmuk DI 135 110 600 2.44 0.1 0.02 E
h
P-576 J-271 J-270 DI 135 19 600 2.44 0.1 0.02 E
P-577 J-316 J-271 DI 135 300 600 2.44 0.1 0.02 E
FCV-
P-578 Wadmuk H-7 DI 135 2 600 2.44 0.1 0.032 E
h
Wadmuk
P-579 H-7 DI 135 4 600 2.44 0.1 0.019 E
hwadi b
FCV-
P-571 J-273 Charholi DI 135 1,824 600 1.82 0.075 0.011 E
c
P-572 J-238 J-273 DI 135 524 600 1.82 0.075 0.012 E
Charholi
P-574 H-3 DI 135 4 600 1.82 0.075 0 E
c
FCV-
P-573 Charholi H-3 DI 135 4 600 1.82 0.075 0 E
c

Table 6.16: Junction results of rising mains for year 2030

Label Elevation (m) Demand (ML/day) Pressure (m H2O)

New_Moshi b 609 9.25 21.78
Moshi b 609 5.38 21.79
New_Charoli 605.1 4.59 26.59
Dudulgaon 599.94 4.08 31.48
New_Wadmukhwadi b 594.7 2.34 37.3
Charholi c 586.8 1.82 45.25
J-314 584.51 0 47.48
J-4 580.09 0 50.65
J-284 579.77 0 50.96
J-283 574.97 0 56.39
J-275 574.26 0 57.17
J-313 574.6 0 57.91
Wadmukhwadi b 574.56 2.44 57.92
J-270 574.24 0 58.25
J-271 574.19 0 58.3
J-238 572.69 0 59.36
J-317 572.69 0 59.58
J-315 572.89 0 59.62

83
 J-276 571.62 0 59.96
J-316 572.13 0 60.36
J-272 571.65 0 60.65
J-237 570.79 0 60.79
J-273 568.56 0 63.47

It is observed that the velocity in pipelines is not exceeding 1.8 m/s and the pressures at ERSs
are more than 10 m. Hence the pipe sizes are OK. The residual pressures at ERS can be
adjusted by FCV.

Redundant Line: Line shown in red (Figure 6.9) becomes redundant line, it can be de-laid.

Figure 6.9: Redundant line

6.3.2 ESRs on Chinchwad Line

ESRs on the Chinchwad line are shown in Figure 6.10 and Table 6.17.

84
 Figure 6.8: ESRs on the Chinchwad line

Table 6.17: ESRs on the Chinchwad Line

Demand Demand
Demand of Demand of
SN Label of 2030 2030* of 2045 2045*
(ML) 24/23 (ML) 24/23
(ML) (ML)
1 Elpro a 7.05 7.36 8.87 9.26
2 Elpro b 4.53 4.73 5.70 5.95
3 Elpro New 4.65 4.85 5.85 6.10
Gaothan New (Old
4 6.52 6.80 8.20 8.56
Sangavi)_b
5 New sangvi police Station 7.42 7.74 9.33 9.74
6 PWD Sector 84 5.07 5.29 6.38 6.66
7 Sector 29a 8.02 8.37 10.09 10.53
8 Sector 29b 4.68 4.88 5.89 6.14
9 Bijli Nagar a 8.27 8.63 10.40 10.86
10 Bijli Nagar b 3.89 4.06 4.89 5.11
11 Bijli Nagar c 5.51 5.75 6.93 7.23
12 PremlokPark 4.98 5.20 6.27 6.54

85
 13 Ashok Cinema 7.29 7.61 9.17 9.57
14 Dapodi1 4.93 5.14 6.20 6.47
15 Dapodi2 2.83 2.95 3.56 3.72
16 Kasarwadi2 8.84 9.22 11.12 11.60
17 Nav Maha 1.06 1.11 1.33 1.39
18 New Pimple Gurav Garden 7.22 7.53 9.08 9.48
19 Pimple Gurao1 3.73 3.89 4.69 4.90
20 Pimple Gurao2 4.2 4.38 5.28 5.51
21 Pimple Gurao3 4.55 4.75 5.72 5.97
22 Pimple Gurav Garden 2.98 3.11 3.75 3.91
23 Pimple Saudagar a 4.43 4.62 5.57 5.82
24 Pimple Saudagar b New 9.89 10.32 12.44 12.98
25 Pimpri Delux a 6.29 6.56 7.91 8.26
26 Pimpri Delux b 4.09 4.27 5.15 5.37
27 Sector 28 New 3.16 3.30 3.98 4.15
Total 146.08 152.43 183.78 191.77

ESRs on Pumping

Following ESRs are on pumping.

(a)With Sumps:
(1) Dapodi 1 and 2
(2) Gaothan New (Old Sangavi)_b
(3) PWD Sector 84
(4) New sangvi police Station
(5) Sector 28 New

(b)With Online boosters:

(1) Pimple Gurao1,2,3
(2) Pimple Gurav Garden
(3) New Pimple Gurav Garden
(4) Pimple Saudagar a
(5) Pimple Saudagar b New

(a)With Sumps:
(1)Dapodi 1 and 2

Pipeline network is shown in Figure 6.9. Levels and demands are shown in Table 6.18.

86
 Figure 6.9: Dapodi ESRs represented by a node

Table 6.18: Demands and levels

Design
Demand
Discharge:
FSL of LSL of Static Demand Demand of Design
Demand
SN Pump tank sump head of 2030 of 2045 2045* Head
of 2030*
(m) (m) (m) (ML) (ML) 24/23 (m)
24/23
(ML)
(ML)
1 Dapodi1 573.18 552.48 20.7 4.93 5.14 6.20 6.47 26
2 Dapodi2 573.01 552.48 20.53 2.83 2.95 3.56 3.72 26

Data as shown in Table 6.18 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.21: Pipe results

Flow
Hazen- Length Headloss
Start Stop Diameter (Absolut Velocity
Label Material Williams (Scaled) Gradient P_EN
Node Node (mm) e) (m/s)
C (m) (m/km)
(ML/day)
Sump_Da PMP-
P-476 DI 135 15 500 5.14 0.303 0.178 E
podi1,2 Dapodi1
PMP- FCV-
P-477 DI 135 16 500 5.14 0.303 0 E
Dapodi1 Dapodi1
FCV-
P-478 H-14 DI 135 3 500 5.14 0.303 0.267 E
Dapodi1
P-479 H-14 Dapodi1 DI 135 4 500 5.14 0.303 0.225 E
Sump_Da PMP-
P-463 DI 135 9 500 2.95 0.174 0 E
podi1,2 Dapodi2
PMP- FCV-
P-464 DI 135 5 500 2.95 0.174 0 E
Dapodi2 Dapodi2
FCV-
P-465 H-15 DI 135 3 500 2.95 0.174 0.233 E
Dapodi2
P-466 H-15 Dapodi2 DI 135 3 500 2.95 0.174 0 E

87
Table 6.22: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Dapodi1 573.18 5.14 4.55
Dapodi2 573.01 2.95 4.71

(2)Gaothan New (Old Sangavi)_b

Pipeline network is shown in Figure 6.10. Levels and demands are shown in Table 6.23.

Figure 6.10: Pumping at Gaothan New (Old Sangavi)_b

Table 6.23: Demands and levels

FSL of LSL of Static Demand of Demand of Design

S Demand of Demand of
Pump tank sump head 2030* 24/23 2045* 24/23 Head
N 2030 (ML) 2045 (ML)
(m) (m) (m) (ML) (ML) (m)
Gaothan New
1
(Old Sangavi)_b
580 551 29 6.52 6.80 8.20 8.56 35

Data as shown in Table 6.23 is fed to the model and model run is obtained.

Design for year 2030:

88
Table 6.24: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
Sump_Ga
othan
P-337 237 DI 135 4 500 6.8 0.401 E
New (Old
Sangavi)_b
FCV-
Gaothan
P-437 J-151 DI 135 22 600 6.8 0.278 E
New (Old
Sangavi)_b
P-438 237 J-151 DI 135 4 600 6.8 0.278 E
FCV-
Gaothan
P-439 H-16 DI 135 3 600 6.8 0.278 E
New (Old
Sangavi)_b
Gaothan
P-440 H-16 New (Old DI 135 3 600 6.8 0.278 E
Sangavi)_b

Table 6.25: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

0 J-151 555 0 31.94
10 Gaothan New (Old Sangavi)_b 580 6.8 7.15

(3)PWD Sector 84

Pipeline network is shown in Figure 6.11. Levels and demands are shown in Table 6.26.

Figure 6.11: Pumping at ESR PWD Sector 84

Table 6.26: Demands and levels

89
 LSL of Demand of Demand of Design
FSL of Static Demand of Demand of
SN Pump sump 2030* 2045* Head
tank (m) head (m) 2030 (ML) 2045 (ML)
(m) 24/23 (ML) 24/23 (ML) (m)

1 PWD Sector 84 573 551 22 5.07 5.29 6.38 6.66 30

Data as shown in Table 6.23 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.27: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
FCV-PWD
P-406 J-104 DI 135 37 500 5.07 0.299 E
Sector 84
298_PWD PMP-PWD
P-407 DI 135 5 500 5.07 0.299 E
Sector 84 Sector 84
PMP-PWD
P-408 J-104 DI 135 10 500 5.07 0.299 E
Sector 84
FCV-PWD
P-409 H-17 DI 135 4 500 5.07 0.299 E
Sector 84
PWD
P-410 H-17 DI 135 4 500 5.07 0.299 E
Sector 84

Table 6.28: Junction results

Demand Pressure (m
J_Tank_ID Label Elevation (m)
(ML/day) H2O)
PWD Sector
12 573 5.07 7.78
84
0 J-104 555 0 25.75

(4)New Sangvi police Station

Pipeline network is shown in Figure 6.12. Levels and demands are shown in Table 6.29.

Figure 6.12: Pumping at ESR New sangvi police Station

Table 6.29: Demands and levels
Demand Demand
FSL of LSL of Static Demand Demand Design
of 2030* of 2045*
SN Pump tank sump head of 2030 of 2045 Head
24/23 24/23
(m) (m) (m) (ML) (ML) (m)
(ML) (ML)
1 New sangvi police Station 575.9 551 24.9 7.42 7.74 9.33 9.74 30

90
Data as shown in Table 6.29 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.30: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
FCV-New
sangvi
P-285 J-105 DI 135 5 500 7.74 0.456 E
police
Station
Sump_Ne PMP-New
w sangvi sangvi
P-286 DI 135 4 500 7.74 0.456 E
police police
Station Station
PMP-New
sangvi
P-287 J-105 DI 135 3 500 7.74 0.456 E
police
Station
FCV-New
sangvi
P-288 H-18 DI 135 2 500 7.74 0.456 E
police
Station
New
sangvi
P-289 H-18 DI 135 2 500 7.74 0.456 E
police
Station
FCV-PWD
P-406 J-104 DI 135 37 500 5.07 0.299 E
Sector 84
298_PWD PMP-PWD
P-407 DI 135 5 500 5.07 0.299 E
Sector 84 Sector 84
PMP-PWD
P-408 J-104 DI 135 10 500 5.07 0.299 E
Sector 84
FCV-PWD
P-409 H-17 DI 135 4 500 5.07 0.299 E
Sector 84
PWD
P-410 H-17 DI 135 4 500 5.07 0.299 E
Sector 84

Table 6.31: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

11 New sangvi police Station 575.9 7.74 7.21
12 PWD Sector 84 573 5.07 7.78
0 J-104 555 0 25.75
0 J-105 555 0 28.07

(5)Sector 28 New

Pipeline network is shown in Figure 6.13. Levels and demands are shown in Table 6.32.

91
 Figure 6.13: Pumping at ESR Sector 28 New
Table 6.32: Demands and levels
LSL of Demand of Demand of Design
FSL of Static Demand of Demand of
SN Pump sump 2030* 2045* Head
tank (m) head (m) 2030 (ML) 2045 (ML)
(m) 24/23 (ML) 24/23 (ML) (m)

1 Sector 28 New 609.8 580.8 29 3.16 3.30 3.98 4.15 35

Data as shown in Table 6.32 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.33: Pipe results

Hazen- Length Flow

Diameter Velocity
Label Start Node Stop Node Material Williams (Scaled) (Absolute) P_EN
(mm) (m/s)
C (m) (ML/day)
Sump-Sector 28 PMP-Sector 28
P-642 DI-K9 135 4 300 3.3 0.54 N
New New
PMP-Sector 28 FCV-Sector 28
P-695 DI-K9 135 5 300 3.3 0.54 N
New New
FCV-Sector 28
P-684 H-10 DI-K9 135 2 300 3.3 0.54 N
New
P-683 H-10 Sector 28 New DI-K9 135 3 300 3.3 0.54 N

Table 6.34: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Sector 28
609.8 3.3 5.64
New

(b)With Online boosters:

(1)Pimple Gurao1,2,3

Pipeline network is shown in Figure 6.14. There is no sump as pumping is online. Levels and
demands are shown in Table 6.35. It is proposed to construct a sump at node J-313 as shown
in Figure 6.15.

92
 Figure 6.14: Pumping at ESR Sector 28 New

Figure 6.15: Pumping at ESR Sector 28 New with sump

Table 6.32: Demands and levels

LSL of Demand of Demand of Design
FSL of Static Demand of Demand of
SN Pump sump 2030* 2045* Head
tank (m) head (m) 2030 (ML) 2045 (ML)
(m) 24/23 (ML) 24/23 (ML) (m)
1 Pimple Gurao1 582.43 559 23.43 3.73 3.89 4.69 4.90 30
2 Pimple Gurao2 582.43 559 23.43 4.2 4.38 5.28 5.51
3 Pimple Gurao3 582.63 559 23.63 4.55 4.75 5.72 5.97
Total 12.48 13.02 15.69 16.38

Data as shown in Table 6.32 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.33: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)

93
 PMP-
Sump_Pim
P-117 Pimple DI 135 6 500 13.02 0.768 E
ple Gurao
Gurao
PMP-
P-118 Pimple J-150 DI 135 6 500 13.02 0.768 E
Gurao
FCV-
P-434 J-150 Pimple DI 135 8 500 4.75 0.28 E
Gurao3
FCV-
P-435 Pimple H-21 DI 135 4 500 4.75 0.28 E
Gurao3
Pimple
P-436 H-21 DI 135 4 500 4.75 0.28 E
Gurao3
FCV-
P-472 J-150 Pimple DI 135 8 500 4.38 0.258 E
Gurao2
FCV-
P-473 Pimple H-20 DI 135 7 500 4.38 0.258 E
Gurao2
Pimple
P-474 H-20 DI 135 5 500 4.38 0.258 E
Gurao2
FCV-
P-499 J-150 Pimple DI 135 7 500 3.89 0.229 E
Gurao1
FCV-
P-500 Pimple H-19 DI 135 3 500 3.89 0.229 E
Gurao1
Pimple
P-501 H-19 DI 135 3 500 3.89 0.229 E
Gurao1

Table 6.34: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

62 Pimple Gurao3 582.63 4.75 6.85
61 Pimple Gurao2 582.43 4.38 7.05
60 Pimple Gurao1 582.43 3.89 7.05
0 J-150 564 0 25.45

Design of Sump

With 2 hours of detention time, volume = 16.38*1000/12= 1365 m3. With 4m water depth,
area = 341.25 m2. And diameter = (4*Area/3.14)^0.5 = 20.84 say 21 m. Volume provided is
1764 m3.

(2)Pimple Gurav Garden

Pipeline network is shown in Figure 6.16. There is no sump as pumping is online. It is

proposed to construct a sump at node J-313 as shown in Figure 6.17. Levels and demands are
shown in Table 6.35.

94
 Figure 6.16: Pumping at ESR Sector 28 New

Figure 6.17: Pumping at ESR Sector 28 New with sump

Table 6.35: Demands and levels

LSL of Static Demand of Demand of Design
FSL of Demand of Demand of
SN Pump sump head 2030* 2045* Head
tank (m) 2030 (ML) 2045 (ML)
(m) (m) 24/23 (ML) 24/23 (ML) (m)
1 Pimple Gurav Garden 581.85 556 25.85 2.98 3.11 3.75 3.91 35

Design for year 2030:

Data as shown in Table 6.32 is fed to the model and model run is obtained.

95
Table 6.36: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP- FCV-
Pimple Pimple
P-426 MS 120 27 400 3.11 0.286 E
Gurav Gurav
Garden Garden
FCV-
Pimple
P-427 H-22 MS 120 6 400 3.11 0.286 E
Gurav
Garden
Pimple
P-428 H-22 Gurav MS 120 4 400 3.11 0.286 E
Garden
Sump- PMP-
Pimple Pimple
P-429 MS 120 7 400 3.11 0.286 E
Gurav Gurav
Garden Garden

Table 6.37: Junction results

Elevation Demand Pressure

J_Tank_ID Label
(m) (ML/day) (m H2O)
Pimple
63 Gurav 581.85 3.11 8.61
Garden

Design of Sump

With 2hours of detention time, volume = 3.91*1000/12= 317.5 m3. With 4m water depth,
area = 81.45 m2. And diameter = (4*Area/3.14)^0.5 = 10.18 say 11 m.

(3)New Pimple Gurav Garden

Pipeline network is shown in Figure 6.18. There is no sump as pumping is online. It is

proposed to construct a sump near node J-7034 as shown in Figure 6.19. Levels and demands
are shown in Table 6.38.

Figure 6.18: Online pumping at ESR New Pimple Gurav Garden

96
 Figure 6.19: Pumping at ESR New Pimple Gurav Garden New with sump

Table 6.35: Demands and levels

Demand Demand
FSL of LSL of Static Demand Demand Design
of 2030* of 2045*
SN Pump tank sump head of 2030 of 2045 Head
24/23 24/23
(m) (m) (m) (ML) (ML) (m)
(ML) (ML)
1 New Pimple Gurav Garden 587.5 557 30.5 7.22 7.53 9.08 9.48 35

Data as shown in Table 6.32 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.33: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP-New FCV-New
Pimple Pimple
P-305 DI-K9 135 10 500 7.53 0.444 N
Gurav Gurav
Garden Garden
Sump-
PMP-New
New
Pimple
P-306 Pimple DI-K9 135 5 500 7.53 0.444 N
Gurav
Gurav
Garden
Garden
New
Pimple
P-307 H-23 DI-K9 135 4 500 7.53 0.444 N
Gurav
Garden
FCV-New
Pimple
P-308 H-23 DI-K9 135 4 500 7.53 0.444 N
Gurav
Garden

97
Table 6.34: Junction results

Elevation Demand Pressure

J_Tank_ID Label
(m) (ML/day) (m H2O)
New
Pimple
57 587.5 7.53 5.37
Gurav
Garden

Design of Sump

With 2hours of detention time, volume = 9.48*1000/12= 790 m3. With 4m water depth, area
= 197.5 m2. And diameter = (4*Area/3.14)^0.5 = 15.86 say 16 m.

(4)Pimple Saudagar b New

Pipeline network is shown in Figure 6.20. There is no sump as pumping is online. It is

proposed to construct a sump near node J-193 as shown in Figure 6.21. Levels and demands
are shown in Table 6.35.

Figure 6.20: Online pumping at ESR New Pimple Gurav Garden

Figure 6.21: Pumping at ESR New Pimple Gurav Garden New with sump

Table 6.35: Demands and levels

Demand Demand
LSL of Static Demand Demand Design
FSL of of 2030* of 2045*
SN Pump sump head of 2030 of 2045 Head
tank (m) 24/23 24/23
(m) (m) (ML) (ML) (m)
(ML) (ML)
1 Pimple Saudagar b New 577.5 560 17.5 9.89 10.32 12.44 12.98 35

98
Data as shown in Table 6.35 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.36: Pipe results

Mate Hazen- Length Diameter Flow (Absolute) Velocity P_

Label Start Node Stop Node
rial Williams C (Scaled) (m) (mm) (ML/day) (m/s) EN
PMP-Pimple
FCV-Pimple
P-165 Saudagar b DI 135 4 500 10.32 0.608 E
Saudagar b New
New
FCV-Pimple
P-166 Saudagar b H-33 DI 135 2 500 10.32 0.608 E
New
Pimple Saudagar b
P-167 H-33 DI 135 2 500 10.32 0.608 E
New
Sump-Pimple
PMP-Pimple
P-168 Saudagar b DI 135 1 500 10.32 0.608 E
Saudagar b New
New

Table 6.37: Junction results

Elevation Demand Pressure

J_Tank_ID Label
(m) (ML/day) (m H2O)
Pimple
66 Saudagar 585 10.32 6.48
b New

Design of Sump

With 2hours of detention time, volume = 12.98*1000/12= 1081.6 m3. With 4m water depth,
area = 270.4 m2. And diameter = (4*Area/3.14)^0.5 = 18.56 say 19 m.

(5)Pimple Saudagar a

Pipeline network is shown in Figure 6.22. There is no sump as pumping is online. It is

proposed to construct a sump near node J-193 as shown in Figure 6.23. Levels and demands
are shown in Table 6.38.

Figure 6.22: Online pumping at ESR New Pimple Gurav Garden

99
 Figure 6.23: Pumping at ESR New Pimple Gurav Garden New with sump

Table 6.38: Demands and levels

LSL of Demand of Demand of
FSL of Static Demand of Demand of Design
SN Pump sump 2030* 2045*
tank (m) head (m) 2030 (ML) 2045 (ML) Head (m)
(m) 24/23 (ML) 24/23 (ML)
1 Pimple Saudagar a 577 557 20 4.43 4.62 5.57 5.82 25

Data as shown in Table 6.38 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.39: Pipe results

Lab Mate Hazen- Length Diameter Flow (Absolute) Velocity P_

Start Node Stop Node
el rial Williams C (Scaled) (m) (mm) (ML/day) (m/s) EN
P- PMP-Pimple FCV-Pimple
DI 135 4 500 4.62 0.272 E
457 Saudagar a Saudagar a
P- FCV-Pimple
H-34 DI 135 2 500 4.62 0.272 E
458 Saudagar a
P- Pimple
H-34 DI 135 2 500 4.62 0.272 E
459 Saudagar a
P- Sump-Pimple PMP-Pimple
DI 135 2 500 4.62 0.272 E
460 Saudagar a Saudagar a
Table 6.40: Junction results

Elevation Demand Pressure

J_Tank_ID Label
(m) (ML/day) (m H2O)
Pimple
65 Saudagar 577 4.62 4.49
a

Design of Sump

With 2hours of detention time, volume = 5.82*1000/12= 485 m3. With 4m water depth, area
= 121.2 m2. And diameter = (4*Area/3.14)^0.5 = 12.42 say 13 m.

Design of Gravity Main

Gravity main is simulated with following two cases:

Case 1: ESRs without sumps, or direct filling by gravity

100
Case 2: ESRs with sumps, or no direct filling by gravity but water comes by gravity upto the
sump and then from the sump it is pumped to the ESR.

In Case 1: The demand of the zone is given to the representative nodes and the FSL of the
tank is given as elevation to these nodes.

In Case2: Sumps of the ESRs are represented by a single node as shown in Figure 6.20. The
combined demand of ESRs is given to the representative nodes, however, ground elevation of
the sump is given as elevation to these nodes.

Figure 6.20: Nodes of Sumps and ESR

(a) Design for year 2041:

The gravity main is designed for year 2045. Demand of the year 2045 as shown in Table
6.17 has been given to the nodes and the model run is taken. It is observed that the velocity
of flow is exceeding 1.8 m/s in the pipes shown as red in Figure 6.21. Hence a parallel
101
pipeline of 500 mm has been proposed. Again the model run is taken. Now the velocity is
less than 1.8 m/s. The pipe results are shown in Table 6.41 and junction results are shown in
Table 6.42.

Figure 6.21: Velocity in gravity pipeline of Chinchwad

Table 6.41: Pipe results of rising mains for the year 2045

Flow
Hazen- Length Diameter Velocity
Label Start Node Stop Node Material (Absolute)
Williams C (Scaled) (m) (mm) (m/s)
(ML/day)
P-179 J-320 J-321 MS 120 2 750 69.34 1.807
P-641 J-106 J-303 MS 120 94 500 30.6 1.804
P-181 J-190 J-184 MS 120 175 1,100.00 140.39 1.71
P-182 J-186 J-179 MS 120 785 1,100.00 140.39 1.71
P-183 J-184 J-186 MS 120 580 1,100.00 140.39 1.71
P-153 J-181 J-191 MS 120 452 600 39.26 1.607
P-360 J-163 J-157 MS 120 526 750 60.09 1.574
P-361 J-134 J-128 MS 120 293 750 60.09 1.574
P-362 J-128 J-177 MS 120 285 750 60.09 1.574
P-363 J-168 J-163 MS 120 557 750 60.09 1.574
P-364 J-157 J-288 MS 120 769 750 60.09 1.574
P-365 J-288 J-134 MS 120 351 750 60.09 1.574
P-366 J-321 J-168 MS 120 323 750 60.09 1.574
P-343 J-179 J-178 MS 120 191 750 59 1.546
P-344 J-178 J-169 MS 120 721 750 59 1.546
P-345 J-164 J-158 MS 120 522 750 59 1.546
P-346 J-169 J-289 MS 120 189 750 59 1.546
P-347 J-289 J-164 MS 120 371 750 59 1.546
P-348 J-158 J-291 MS 120 1,676 750 59 1.546
P-178 J-286 J-285 MS 120 149 750 58.62 1.536
P-56 J-321 FCV-Elpro a DI 135 64 300 9.25 1.515
P-57 H-30 Elpro a DI 135 12 300 9.25 1.515

102
 P-58 FCV-Elpro a H-30 DI 135 8 300 9.25 1.515
P-144 J-230 J-224 MS 120 898 1,200.00 147.54 1.51
FCV-Pimple
P-681 J-79 Gurao1,2,3_ MS 120 4 400 16.38 1.509
sump
FCV-Pimple
P-669 Gurao1,2,3_ H-36 MS 120 2 400 16.38 1.509
sump
Sump_Prop
osed_Pimpl
P-657 H-36 MS 120 2 400 16.38 1.509
e
Gurao1,2,3
P-216 J-191 J-190 MS 120 23 1,200.00 146.93 1.504
P-180 J-179 J-286 DI-K7 135 423 900 81.39 1.481
P-644 J-107 J-71 MS 120 339 500 24.79 1.461
P-650 J-68 J-61 MS 120 486 500 24.79 1.461
P-651 J-91 J-84 MS 120 741 500 24.79 1.461
P-652 J-84 J-68 MS 120 450 500 24.79 1.461
P-653 J-102 J-91 MS 120 674 500 24.79 1.461
P-646 J-65 J-72 MS 120 311 500 24.79 1.461
P-645 J-71 J-74 MS 120 324 500 24.79 1.461
P-643 J-74 J-72 MS 120 163 500 24.79 1.461
P-649 J-62 J-61 MS 120 175 500 24.79 1.461
P-648 J-62 J-65 MS 120 363 500 24.79 1.461
P-647 J-303 J-102 MS 120 69 500 24.79 1.461
P-276 J-285 J-320 MS 120 2 750 52.68 1.38
P-62 J-225 J-278 MS 120 22 500 23.19 1.367
P-46 S1 J-231 MS 120 1,412 1,000.00 92.33 1.361
P-638 J-292 J-106 DI-K7 135 1,146 500 22.99 1.355
P-229 J-286 J-320 DI-K7 135 156 500 22.77 1.342
P-194 J-224 J-225 MS 120 363 1,200.00 130.86 1.339
P-564 J-291 J-141 MS 120 576 750 50.8 1.331
P-584 J-177 J-290 MS 120 71 750 46.47 1.217
P-637 J-126 J-106 MS 120 349 500 20.59 1.214
P-636 J-116 J-126 MS 120 556 500 20.59 1.214
P-635 J-292 J-116 MS 120 233 500 20.59 1.214
P-654 J-141 J-294 MS 120 751 750 43.58 1.142
P-655 J-294 J-292 MS 120 146 750 43.58 1.142
P-378 J-225 J-191 MS 120 705 1,200.00 107.67 1.102
P-13634 J-291 J-7111 DI 135 578 500 18.32 1.08
P-511 J-129 J-109 DI 135 455 600 25.53 1.045
P-512 J-109 J-92 DI 135 656 600 25.53 1.045
P-513 J-92 J-112 DI 135 315 600 25.53 1.045
P-515 J-293 J-129 DI 135 1,602 600 25.53 1.045
P-13632 J-293 J-7111 DI 135 448 600 25.53 1.045
P-534 J-103 J-86 MS 120 979 600 25.4 1.04
P-535 J-127 J-103 MS 120 558 600 25.4 1.04
P-536 J-117 J-127 MS 120 543 600 25.4 1.04
P-537 J-123 J-125 MS 120 492 600 25.4 1.04
P-538 J-119 J-122 MS 120 229 600 25.4 1.04
P-539 J-122 J-123 MS 120 15 600 25.4 1.04
P-540 J-125 J-295 MS 120 520 600 25.4 1.04
P-541 J-295 J-117 MS 120 161 600 25.4 1.04
P-1 FCV-16 J-260 MS 120 46 1,200.00 98.62 1.009
P-10 R-16 FCV-17 MS 120 10 1,200.00 98.62 1.009
P-9 FCV-17 J-324 MS 120 64 1,200.00 98.62 1.009
P-2 J-324 FCV-16 MS 120 7 1,200.00 98.62 1.009
P-13635 J-260 J-7112 MS 120 3 1,200.00 98.62 1.009
P-13636 J-7112 J-230 MS 120 1,199 1,200.00 98.62 1.009
P-120 J-285 FCV-Elpro b DI 135 57 300 5.95 0.974
P-121 H-28 Elpro b DI 135 10 300 5.95 0.974
P-122 FCV-Elpro b H-28 DI 135 7 300 5.95 0.974
P-379 J-290 J-119 MS 120 40 750 36.36 0.953
P-659 J-31 J-25 DI 135 216 400 10.19 0.938
P-667 J-50 J-40 DI 135 561 400 10.19 0.938

103
P-663 J-40 J-34 DI 135 93 400 10.19 0.938
P-665 J-34 J-31 DI 135 325 400 10.19 0.938
P-672 J-52 J-50 DI 135 66 400 10.19 0.938
P-668 J-25 FCV-Dapodi DI 135 689 400 10.19 0.938
P-660 FCV-Dapodi H-39 DI 135 3 400 10.19 0.938
Sump_Dapo
P-671 H-39 DI 135 2 400 10.19 0.938
di
P-625 J-112 J-85 DI 135 700 600 22.65 0.927
P-626 J-70 J-108 DI 135 475 600 22.65 0.927
P-627 J-85 J-70 DI 135 178 600 22.65 0.927
Sump_New
sangvi
P-670 J-107 DI 135 5 400 9.74 0.897
police
Station
P-661 J-107 J-58 MS 120 341 500 15.04 0.887
FCV-Ashok
P-137 J-149 MS 120 11 400 9.57 0.882
Cinema
P-138 J-99 J-149 MS 120 27 400 9.57 0.882
P-139 J-99 J-114 MS 120 619 400 9.57 0.882
FCV-Ashok
P-140 H-31 MS 120 3 400 9.57 0.882
Cinema
Ashok
P-141 H-31 MS 120 3 400 9.57 0.882
Cinema
P-662 J-108 J-322 DI 135 26 500 13.99 0.825
FCV-Pimple
P-746 J-106 Saudagar b DI 135 3 500 12.98 0.765
New
FCV-Pimple
P-747 Saudagar b H-106 DI 135 1 500 12.98 0.765
New
sump-
Pimple
P-748 H-106 DI 135 2 500 12.98 0.765
Saudagar b
New
P-673 J-322 J-48 DI 135 321 450 10.19 0.741
P-675 J-48 J-52 DI 135 173 450 10.19 0.741
P-72 J-230 J-231 DI 135 7 1,000.00 48.92 0.721
FCV-
P-200 J-43 DI-K7 135 22 500 11.61 0.684
Kasarwadi2
FCV-
P-203 H-35 DI-K7 135 5 500 11.61 0.684
Kasarwadi2
P-204 H-35 Kasarwadi2 DI-K7 135 4 500 11.61 0.684
P-628 J-86 J-83 MS 120 226 600 16.67 0.682
P-629 J-83 J-67 MS 120 644 600 16.67 0.682
P-630 J-67 J-79 MS 120 591 600 16.67 0.682
FCV-Sector
P-191 J-181 DI-K7 135 437 300 4.15 0.679
28 New
FCV-Sector
P-192 H-26 DI-K7 135 6 300 4.15 0.679
28 New
Sump_Secto
P-193 H-26 DI-K7 135 5 300 4.15 0.679
r 28 New
P-217 J-73 J-114 DI 135 274 500 10.96 0.646
P-218 J-121 J-120 MS 120 20 500 10.96 0.646
P-219 J-124 J-73 DI 135 101 500 10.96 0.646
P-220 J-121 J-119 MS 120 237 500 10.96 0.646
P-221 J-120 J-124 MS 120 486 500 10.96 0.646
FCV-Bijli
P-226 J-278 DI 135 15 500 10.85 0.64
Nagar a
FCV-Bijli
P-227 H-11 DI 135 3 500 10.85 0.64
Nagar a
P-228 H-11 Bijli Nagar a DI 135 2 500 10.85 0.64
P-433 J-231 J-181 MS 120 1,561 1,000.00 43.41 0.64
FCV-Sector
P-253 J-211 DI 135 23 500 10.53 0.621
29a
FCV-Sector
P-254 H-24 DI 135 7 500 10.53 0.621
29a
P-255 H-24 Sector 29a DI 135 5 500 10.53 0.621

104
P-658 J-58 TCV-96 MS 120 25 400 6.49 0.597
Sump_PWD
P-676 TCV-96 MS 120 3 400 6.49 0.597
Sector 84
P-293 J-177 J-257 DI 135 80 600 13.62 0.557
P-294 J-257 J-115 DI 135 10 600 13.62 0.557
FCV-New
Pimple
P-691 J-308 Gurav DI-K7 135 7 500 8.94 0.527
Garden_Su
mp
Sump_New
Pimple
P-682 H-37 DI-K7 135 1 500 8.94 0.527
Gurav
Garden
FCV-New
Pimple
P-664 Gurav H-37 DI-K7 135 2 500 8.94 0.527
Garden_Su
mp
P-116 J-86 J-43 DI-K7 135 1,024 500 8.73 0.515
P-336 J-100 J-113 DI 135 142 200 1.39 0.512
P-619 J-308 J-108 DI 135 37 500 8.66 0.51
FCV-
Gaothan
P-677 J-58 MS 120 340 500 8.56 0.505
New (Old
Sangavi)_b
Sump_Gaot
han New
P-678 H-40 MS 120 3 500 8.56 0.505
(Old
Sangavi)_b
FCV-
Gaothan
P-692 H-40 MS 120 4 500 8.56 0.505
New (Old
Sangavi)_b
P-338 J-209 J-210 MS 120 419 700 16.68 0.502
P-339 J-206 J-209 MS 120 255 700 16.68 0.502
P-340 J-211 J-256 DI 135 17 700 16.68 0.502
P-341 J-256 J-210 MS 120 292 700 16.68 0.502
P-342 J-224 J-206 MS 120 161 700 16.68 0.502
FCV-Pimpri
P-349 J-140 CI 85 8 500 8.25 0.486
Delux a
P-350 J-115 J-140 CI 85 6 500 8.25 0.486
FCV-Pimpri
P-749 H-107 CI 85 3 500 8.25 0.486
Delux a
Pimpri
P-750 H-107 CI 85 6 500 8.25 0.486
Delux a
FCV-
P-357 PremlokPar J-190 DI 135 538 450 6.54 0.476
k
PremlokPar
P-358 H-27 DI 135 5 450 6.54 0.476
k
FCV-
P-359 H-27 PremlokPar DI 135 7 450 6.54 0.476
k
P-119 J-112 J-43 DI 135 1,028 300 2.88 0.471
FCV-Bijli
P-380 J-278 MS 120 10 500 7.23 0.426
Nagar c
FCV-Bijli
P-381 H-13 DI 135 3 500 7.23 0.426
Nagar c
P-382 H-13 Bijli Nagar c DI 135 3 500 7.23 0.426
FCV-Sector
P-461 H-25 DI 135 4 500 6.15 0.362
29b
P-462 H-25 Sector 29b DI 135 5 500 6.15 0.362
FCV-Elpro
P-430 J-320 DI-K7 135 53 500 6.11 0.36
New
P-431 H-29 Elpro New DI-K7 135 8 500 6.11 0.36
FCV-Elpro
P-432 H-29 DI-K7 135 6 500 6.11 0.36
New

105
 FCV-Pimple
Gurav
P-685 J-322 MS 120 3 400 3.81 0.351
Garden_su
mp
Sump_Pimp
P-656 H-38 le Gurav MS 120 1 400 3.81 0.351
Garden
FCV-Pimple
Gurav
P-688 H-38 MS 120 2 400 3.81 0.351
Garden_su
mp
FCV-Pimple
P-743 J-303 Saudagar DI 135 3 500 5.82 0.343
a_Sump
FCV-Pimple
P-744 Saudagar H-105 DI 135 1 500 5.82 0.343
a_Sump
sump-
P-745 H-105 Pimple DI 135 2 500 5.82 0.343
Saudagar a
FCV-Pimpri
P-470 J-139 MS 120 36 500 5.37 0.316
Delux b
P-471 J-115 J-139 MS 120 8 500 5.37 0.316
FCV-Pimpri
P-751 H-108 MS 120 3 500 5.37 0.316
Delux b
Pimpri
P-752 H-108 MS 120 4 500 5.37 0.316
Delux b
FCV-Bijli
P-495 J-278 DI 135 27 500 5.11 0.301
Nagar b
FCV-Bijli
P-496 H-12 DI 135 6 500 5.11 0.301
Nagar b
P-497 H-12 Bijli Nagar b DI 135 3 500 5.11 0.301
P-13633 J-7111 J-141 DI 135 12 600 7.21 0.295
P-475 J-290 J-291 DI-K7 135 254 750 10.11 0.265
FCV-Sector
P-533 J-211 DI 135 23 600 6.15 0.252
29b
FCV-Nav
P-600 J-100 DI 135 10 500 1.39 0.082
Maha
P-601 J-114 J-113 DI 135 96 500 1.39 0.082
FCV-Nav
P-602 H-32 DI 135 2 500 1.39 0.082
Maha
P-603 H-32 Nav Maha DI 135 2 500 1.39 0.082
P-620 J-79 J-78 DI 135 172 500 0.28 0.017
P-621 J-78 J-308 DI 135 200 500 0.28 0.017

Table 6.42: Junction results of rising mains for the year 2045

Label Elevation (m) Demand (ML/day) Pressure (m H2O)

1.47 (no demand, just near to
J-324 609.98 0
sump at WTP)
1.74 (no demand, just near to
J-260 609.66 0
sump at WTP)
1.79 (no demand, just near to
J-7112 609.61 0
sump at WTP)
Kasarwadi2 581.58 11.61 4.04
Sector 29b 604.4 6.15 4.1
Nav Maha 587.44 1.39 4.2
Sector 29a 604.1 10.53 4.4
Elpro New 598.5 6.11 4.47
Pimpri Delux b 587.81 5.37 5.13
Pimpri Delux a 587.72 8.25 5.21
Ashok Cinema 584.61 9.57 5.89
Bijli Nagar c 602.28 7.23 6.19
Bijli Nagar a 602.24 10.85 6.23
PremlokPark 601.5 6.54 6.3

106
 Bijli Nagar b 602.07 5.11 6.4
Sump_Sector 28 New 600.2 4.15 8.8
Elpro a 592.8 9.25 9.59
Elpro b 593.1 5.95 9.66
Sump_Gaothan New (Old
555 8.56 13.07
Sangavi)_b
Sump_PWD Sector 84 555 6.49 13.23
J-58 555 0 13.23
Sump_New sangvi police
555 9.74 13.77
Station
J-107 555 0 13.81
J-65 559.42 0 14.24
J-62 560.54 0 14.7
J-71 555 0 15.16
J-61 560.31 0 15.73
J-84 564 0 16.08
J-74 555.08 0 16.52
J-72 555.77 0 16.53
J-231 590.83 0 19.48
J-230 590.57 0 19.73
J-68 558.03 0 20.13
J-78 564 0 20.82
J-79 564 0 20.82
Sump_Proposed_Pimple
563 16.38 21.81
Gurao1,2,3
J-83 564 0 21.92
J-86 564 0 22.13
J-112 564 0 22.47
J-91 560 0 23.29
Sump_New Pimple Gurav
561.4 8.94 23.41
Garden
J-308 561.32 0 23.5
J-225 584.89 0 23.57
J-256 584.88 0 23.58
J-278 584.82 0 23.61
J-211 584.61 0 23.85
Sump_Dapodi 556.5 10.19 23.97
J-108 560.5 0 24.33
J-50 559.4 0 24.7
Sump_Pimple Gurav Garden 560.02 3.81 24.78
J-322 559.99 0 24.8
J-52 559.41 0 24.82
J-149 565.28 0 25.18
J-99 565.25 0 25.24
J-210 583.31 0 25.28
J-181 584.05 0 25.6
J-48 558.52 0 25.89
J-40 556.91 0 26.07
J-102 560 0 26.12
sump-Pimple Saudagar a 560 5.82 26.45
J-303 560 0 26.45
J-34 556.16 0 26.67
J-25 555 0 26.81
J-31 555 0 26.91
J-92 560 0 26.94
sump-Pimple Saudagar b New 560 12.98 27.11
J-106 560 0 27.11
J-70 558.1 0 27.3
J-67 558.02 0 27.34
J-103 560 0 27.92
J-109 560 0 27.93
J-184 579.27 0 28.09
J-190 579.6 0 28.16
J-100 563.41 0 28.18
J-191 579.61 0 28.19

107
 J-126 560 0 28.23
J-295 561.83 0 28.51
J-292 562.05 0 28.56
J-129 560 0 28.63
J-85 557.04 0 28.89
J-127 560 0 29.03
J-116 560.7 0 29.18
J-117 560.72 0 29.31
J-114 562.29 0 29.5
J-113 562.1 0 29.69
J-224 579.18 0 29.74
J-206 578.94 0 29.92
J-294 560.81 0 29.96
J-43 555.16 0 30.43
J-293 560 0 30.77
J-125 560.5 0 30.85
J-73 561.06 0 30.93
J-209 577.42 0 31.33
J-140 561.46 0 31.42
J-139 561.35 0 31.54
J-115 561.33 0 31.56
J-7111 560 0 31.66
J-141 560 0 31.66
J-124 560.35 0 31.71
J-257 561.14 0 31.77
J-122 560.09 0 32.2
J-123 560.06 0 32.21
J-120 560 0 32.53
J-121 560 0 32.54
J-119 560 0 32.8
J-291 560 0 32.81
J-290 560 0 32.84
J-177 560 0 32.95
J-128 560 0 33.8
J-186 571.61 0 34.38
J-169 566.68 0 34.45
J-285 568.31 0 34.62
J-320 568.28 0 34.64
J-321 568.25 0 34.66
J-134 560 0 34.71
J-168 566.8 0 34.78
J-289 565.42 0 35.14
J-286 567.69 0 35.7
J-288 560 0 35.8
J-158 561.24 0 36.62
J-157 561.35 0 36.86
J-178 565.99 0 37.58
J-164 561.4 0 38.04
J-163 561.51 0 38.32
J-179 565.05 0 39.1

The higher nodal pressures at the demand nodes (ESRs) can be adjusted to desired value by
adjusting Flow controlling valve (FCV) provided before the demand nodes (ESRs).
Hence the sizes of the pipelines proposed are OK.

(a) Design for Pumps for year 2030:

The demands of the year 2030 as shown in Table 6.17 is given to nodes and the model run is
taken. The pipe results are shown in Table 6.42 and junction results are shown in Table 6.43.

108
Table 6.42: Pipe results of rising mains for the year 2030

Flow
Hazen- Length Diameter Velocity
Label Start Node Stop Node Material (Absolute)
Williams C (Scaled) (m) (mm) (m/s)
(ML/day)
P-179 J-320 J-321 MS 120 2 750 55.11 1.444
P-641 J-106 J-303 MS 120 94 500 24.32 1.434
P-181 J-190 J-184 MS 120 175 1,100.00 111.59 1.359
P-182 J-186 J-179 MS 120 785 1,100.00 111.59 1.359
P-183 J-184 J-186 MS 120 580 1,100.00 111.59 1.359
P-153 J-181 J-191 MS 120 452 600 31.21 1.278
P-360 J-163 J-157 MS 120 526 750 47.76 1.251
P-361 J-134 J-128 MS 120 293 750 47.76 1.251
P-362 J-128 J-177 MS 120 285 750 47.76 1.251
P-363 J-168 J-163 MS 120 557 750 47.76 1.251
P-364 J-157 J-288 MS 120 769 750 47.76 1.251
P-365 J-288 J-134 MS 120 351 750 47.76 1.251
P-366 J-321 J-168 MS 120 323 750 47.76 1.251
P-343 J-179 J-178 MS 120 191 750 46.9 1.229
P-344 J-178 J-169 MS 120 721 750 46.9 1.229
P-345 J-164 J-158 MS 120 522 750 46.9 1.229
P-346 J-169 J-289 MS 120 189 750 46.9 1.229
P-347 J-289 J-164 MS 120 371 750 46.9 1.229
P-348 J-158 J-291 MS 120 1,676 750 46.9 1.229
P-178 J-286 J-285 MS 120 149 750 46.6 1.221
P-56 J-321 FCV-Elpro a DI 135 64 300 7.35 1.204
P-57 H-30 Elpro a DI 135 12 300 7.35 1.204
P-58 FCV-Elpro a H-30 DI 135 8 300 7.35 1.204
P-144 J-230 J-224 MS 120 898 1,200.00 117.27 1.2
FCV-Pimple
P-681 J-79 Gurao1,2,3_ MS 120 4 400 13.02 1.199
sump
FCV-Pimple
P-669 Gurao1,2,3_ H-36 MS 120 2 400 13.02 1.199
sump
Sump_Prop
osed_Pimpl
P-657 H-36 MS 120 2 400 13.02 1.199
e
Gurao1,2,3
P-216 J-191 J-190 MS 120 23 1,200.00 116.79 1.195
P-180 J-179 J-286 DI-K7 135 423 900 64.69 1.177
P-46 S1 J-231 MS 120 1,412 1,000.00 78.82 1.161
P-644 J-107 J-71 MS 120 339 500 19.7 1.161
P-650 J-68 J-61 MS 120 486 500 19.7 1.161
P-651 J-91 J-84 MS 120 741 500 19.7 1.161
P-652 J-84 J-68 MS 120 450 500 19.7 1.161
P-653 J-102 J-91 MS 120 674 500 19.7 1.161
P-646 J-65 J-72 MS 120 311 500 19.7 1.161
P-645 J-71 J-74 MS 120 324 500 19.7 1.161
P-643 J-74 J-72 MS 120 163 500 19.7 1.161
P-649 J-62 J-61 MS 120 175 500 19.7 1.161
P-648 J-62 J-65 MS 120 363 500 19.7 1.161
P-647 J-303 J-102 MS 120 69 500 19.7 1.161
P-276 J-285 J-320 MS 120 2 750 41.87 1.097
P-62 J-225 J-278 MS 120 22 500 18.43 1.087
P-638 J-292 J-106 DI-K7 135 1,146 500 18.28 1.077
P-229 J-286 J-320 DI-K7 135 156 500 18.1 1.067
P-194 J-224 J-225 MS 120 363 1,200.00 104.01 1.064
P-564 J-291 J-141 MS 120 576 750 40.38 1.058
P-584 J-177 J-290 MS 120 71 750 36.94 0.968
P-637 J-126 J-106 MS 120 349 500 16.37 0.965
P-636 J-116 J-126 MS 120 556 500 16.37 0.965
P-635 J-292 J-116 MS 120 233 500 16.37 0.965

109
 P-654 J-141 J-294 MS 120 751 750 34.64 0.908
P-655 J-294 J-292 MS 120 146 750 34.64 0.908
P-378 J-225 J-191 MS 120 705 1,200.00 85.58 0.876
P-13634 J-291 J-7111 DI 135 578 500 14.56 0.858
P-511 J-129 J-109 DI 135 455 600 20.29 0.831
P-512 J-109 J-92 DI 135 656 600 20.29 0.831
P-513 J-92 J-112 DI 135 315 600 20.29 0.831
P-515 J-293 J-129 DI 135 1,602 600 20.29 0.831
P-13632 J-293 J-7111 DI 135 448 600 20.29 0.831
P-534 J-103 J-86 MS 120 979 600 20.19 0.826
P-535 J-127 J-103 MS 120 558 600 20.19 0.826
P-536 J-117 J-127 MS 120 543 600 20.19 0.826
P-537 J-123 J-125 MS 120 492 600 20.19 0.826
P-538 J-119 J-122 MS 120 229 600 20.19 0.826
P-539 J-122 J-123 MS 120 15 600 20.19 0.826
P-540 J-125 J-295 MS 120 520 600 20.19 0.826
P-541 J-295 J-117 MS 120 161 600 20.19 0.826
P-120 J-285 FCV-Elpro b DI 135 57 300 4.73 0.774
P-121 H-28 Elpro b DI 135 10 300 4.73 0.774
P-122 FCV-Elpro b H-28 DI 135 7 300 4.73 0.774
P-379 J-290 J-119 MS 120 40 750 28.9 0.757
P-10 R-16 FCV-17 MS 120 10 1,200.00 72.96 0.747
P-9 FCV-17 J-324 MS 120 64 1,200.00 72.96 0.747
P-2 J-324 FCV-16 MS 120 7 1,200.00 72.96 0.747
P-1 FCV-16 J-260 MS 120 46 1,200.00 72.96 0.747
P-13635 J-260 J-7112 MS 120 3 1,200.00 72.96 0.747
P-13636 J-7112 J-230 MS 120 1,199 1,200.00 72.96 0.747
P-659 J-31 J-25 DI 135 216 400 8.1 0.746
P-667 J-50 J-40 DI 135 561 400 8.1 0.746
P-663 J-40 J-34 DI 135 93 400 8.1 0.746
P-665 J-34 J-31 DI 135 325 400 8.1 0.746
P-672 J-52 J-50 DI 135 66 400 8.1 0.746
P-668 J-25 FCV-Dapodi DI 135 689 400 8.1 0.746
P-660 FCV-Dapodi H-39 DI 135 3 400 8.1 0.746
Sump_Dapo
P-671 H-39 DI 135 2 400 8.1 0.746
di
P-625 J-112 J-85 DI 135 700 600 18.01 0.737
P-626 J-70 J-108 DI 135 475 600 18.01 0.737
P-627 J-85 J-70 DI 135 178 600 18.01 0.737
Sump_New
sangvi
P-670 J-107 DI 135 5 400 7.74 0.713
police
Station
P-661 J-107 J-58 MS 120 341 500 11.96 0.705
FCV-Ashok
P-137 J-149 MS 120 11 400 7.61 0.701
Cinema
P-138 J-99 J-149 MS 120 27 400 7.61 0.701
P-139 J-99 J-114 MS 120 619 400 7.61 0.701
FCV-Ashok
P-140 H-31 MS 120 3 400 7.61 0.701
Cinema
Ashok
P-141 H-31 MS 120 3 400 7.61 0.701
Cinema
P-662 J-108 J-322 DI 135 26 500 11.12 0.656
P-72 J-230 J-231 DI 135 7 1,000.00 44.31 0.653
FCV-Pimple
P-746 J-106 Saudagar b DI 135 3 500 10.32 0.608
New
FCV-Pimple
P-747 Saudagar b H-106 DI 135 1 500 10.32 0.608
New
sump-
Pimple
P-748 H-106 DI 135 2 500 10.32 0.608
Saudagar b
New
P-673 J-322 J-48 DI 135 321 450 8.1 0.589
P-675 J-48 J-52 DI 135 173 450 8.1 0.589

110
 FCV-
P-200 J-43 DI-K7 135 22 500 9.23 0.544
Kasarwadi2
FCV-
P-203 H-35 DI-K7 135 5 500 9.23 0.544
Kasarwadi2
P-204 H-35 Kasarwadi2 DI-K7 135 4 500 9.23 0.544
P-628 J-86 J-83 MS 120 226 600 13.25 0.542
P-629 J-83 J-67 MS 120 644 600 13.25 0.542
P-630 J-67 J-79 MS 120 591 600 13.25 0.542
FCV-Sector
P-191 J-181 DI-K7 135 437 300 3.3 0.54
28 New
FCV-Sector
P-192 H-26 DI-K7 135 6 300 3.3 0.54
28 New
Sump_Secto
P-193 H-26 DI-K7 135 5 300 3.3 0.54
r 28 New
P-217 J-73 J-114 DI 135 274 500 8.71 0.514
P-218 J-121 J-120 MS 120 20 500 8.71 0.514
P-219 J-124 J-73 DI 135 101 500 8.71 0.514
P-220 J-121 J-119 MS 120 237 500 8.71 0.514
P-221 J-120 J-124 MS 120 486 500 8.71 0.514
P-433 J-231 J-181 MS 120 1,561 1,000.00 34.51 0.509
FCV-Bijli
P-226 J-278 DI 135 15 500 8.63 0.509
Nagar a
FCV-Bijli
P-227 H-11 DI 135 3 500 8.63 0.509
Nagar a
P-228 H-11 Bijli Nagar a DI 135 2 500 8.63 0.509
FCV-Sector
P-253 J-211 DI 135 23 500 8.37 0.493
29a
FCV-Sector
P-254 H-24 DI 135 7 500 8.37 0.493
29a
P-255 H-24 Sector 29a DI 135 5 500 8.37 0.493
P-658 J-58 TCV-96 MS 120 25 400 5.15 0.475
Sump_PWD
P-676 TCV-96 MS 120 3 400 5.15 0.475
Sector 84
P-293 J-177 J-257 DI 135 80 600 10.82 0.443
P-294 J-257 J-115 DI 135 10 600 10.82 0.443
FCV-New
Pimple
P-691 J-308 Gurav DI-K7 135 7 500 7.11 0.419
Garden_Su
mp
Sump_New
Pimple
P-682 H-37 DI-K7 135 1 500 7.11 0.419
Gurav
Garden
FCV-New
Pimple
P-664 Gurav H-37 DI-K7 135 2 500 7.11 0.419
Garden_Su
mp
P-116 J-86 J-43 DI-K7 135 1,024 500 6.94 0.409
P-336 J-100 J-113 DI 135 142 200 1.1 0.407
P-619 J-308 J-108 DI 135 37 500 6.88 0.406
FCV-
Gaothan
P-677 J-58 MS 120 340 500 6.8 0.401
New (Old
Sangavi)_b
Sump_Gaot
han New
P-678 H-40 MS 120 3 500 6.8 0.401
(Old
Sangavi)_b
FCV-
Gaothan
P-692 H-40 MS 120 4 500 6.8 0.401
New (Old
Sangavi)_b
P-338 J-209 J-210 MS 120 419 700 13.26 0.399
P-339 J-206 J-209 MS 120 255 700 13.26 0.399
P-340 J-211 J-256 DI 135 17 700 13.26 0.399
P-341 J-256 J-210 MS 120 292 700 13.26 0.399

111
 P-342 J-224 J-206 MS 120 161 700 13.26 0.399
FCV-Pimpri
P-349 J-140 CI 85 8 500 6.56 0.387
Delux a
P-350 J-115 J-140 CI 85 6 500 6.56 0.387
FCV-Pimpri
P-749 H-107 CI 85 3 500 6.56 0.387
Delux a
Pimpri
P-750 H-107 CI 85 6 500 6.56 0.387
Delux a
FCV-
P-357 PremlokPar J-190 DI 135 538 450 5.2 0.378
k
PremlokPar
P-358 H-27 DI 135 5 450 5.2 0.378
k
FCV-
P-359 H-27 PremlokPar DI 135 7 450 5.2 0.378
k
P-119 J-112 J-43 DI 135 1,028 300 2.29 0.374
FCV-Bijli
P-380 J-278 MS 120 10 500 5.74 0.339
Nagar c
FCV-Bijli
P-381 H-13 DI 135 3 500 5.74 0.339
Nagar c
P-382 H-13 Bijli Nagar c DI 135 3 500 5.74 0.339
FCV-Sector
P-461 H-25 DI 135 4 500 4.89 0.288
29b
P-462 H-25 Sector 29b DI 135 5 500 4.89 0.288
FCV-Elpro
P-430 J-320 DI-K7 135 53 500 4.85 0.286
New
P-431 H-29 Elpro New DI-K7 135 8 500 4.85 0.286
FCV-Elpro
P-432 H-29 DI-K7 135 6 500 4.85 0.286
New
FCV-Pimple
Gurav
P-685 J-322 MS 120 3 400 3.03 0.279
Garden_su
mp
Sump_Pimp
P-656 H-38 le Gurav MS 120 1 400 3.03 0.279
Garden
FCV-Pimple
Gurav
P-688 H-38 MS 120 2 400 3.03 0.279
Garden_su
mp
FCV-Pimple
P-743 J-303 Saudagar DI 135 3 500 4.62 0.272
a_Sump
FCV-Pimple
P-744 Saudagar H-105 DI 135 1 500 4.62 0.272
a_Sump
sump-
P-745 H-105 Pimple DI 135 2 500 4.62 0.272
Saudagar a
FCV-Pimpri
P-470 J-139 MS 120 36 500 4.27 0.251
Delux b
P-471 J-115 J-139 MS 120 8 500 4.27 0.251
FCV-Pimpri
P-751 H-108 MS 120 3 500 4.27 0.251
Delux b
Pimpri
P-752 H-108 MS 120 4 500 4.27 0.251
Delux b
FCV-Bijli
P-495 J-278 DI 135 27 500 4.06 0.239
Nagar b
FCV-Bijli
P-496 H-12 DI 135 6 500 4.06 0.239
Nagar b
P-497 H-12 Bijli Nagar b DI 135 3 500 4.06 0.239
P-13633 J-7111 J-141 DI 135 12 600 5.73 0.235
P-475 J-290 J-291 DI-K7 135 254 750 8.04 0.211
FCV-Sector
P-533 J-211 DI 135 23 600 4.89 0.2
29b
FCV-Nav
P-600 J-100 DI 135 10 500 1.1 0.065
Maha
P-601 J-114 J-113 DI 135 96 500 1.1 0.065

112
 FCV-Nav
P-602 H-32 DI 135 2 500 1.1 0.065
Maha
P-603 H-32 Nav Maha DI 135 2 500 1.1 0.065
P-620 J-79 J-78 DI 135 172 500 0.22 0.013
P-621 J-78 J-308 DI 135 200 500 0.22 0.013

Table 6.43: Junction results of rising mains for the year 2030

Label Elevation (m) Demand (ML/day) Pressure (m H2O)

1.49 (Node is near sump, no
J-324 609.98 0
demand)
1.79 (Node is near sump, no
J-260 609.66 0
demand)
1.84 (Node is near sump, no
J-7112 609.61 0.00
demand)
Sector 29b 604.4 4.89 5.23
Sector 29a 604.1 8.37 5.53
Bijli Nagar c 602.28 5.74 7.33
Bijli Nagar a 602.24 8.63 7.37
Elpro New 598.5 4.85 7.51
Bijli Nagar b 602.07 4.06 7.54
PremlokPark 601.5 5.2 7.68
Sump_Sector 28 New 600.2 3.3 9.75
Nav Maha 587.44 1.1 11.16
Pimpri Delux b 587.81 4.27 11.64
Pimpri Delux a 587.72 6.56 11.72
Elpro b 593.1 4.73 12.77
Elpro a 592.8 7.35 12.83
Kasarwadi2 581.58 9.23 13.08
Ashok Cinema 584.61 7.61 13.24
J-231 591 0 19.98
J-230 590.57 0 20.23
J-225 584.89 0 24.71
J-256 584.88 0 24.71
J-278 584.82 0 24.75
J-211 584.61 0.00 24.98
J-181 584.05 0 26.32
J-210 583.31 0 26.37
J-84 564 0 27.02
J-62 560.54 0.00 27.32
J-65 559.42 0 27.41
J-61 560.31 0 28.07
Sump_Gaothan New (Old
555 6.8 28.17
Sangavi)_b
Sump_PWD Sector 84 555 5.15 28.28
J-58 555 0 28.28
Sump_New sangvi police
555 7.74 28.63
Station
J-107 555 0 28.66
J-190 579.6 0 29.53
J-71 555 0 29.54
J-191 579.61 0 29.55
J-184 579.27 0 29.6
J-78 564 0 30.12
J-79 564 0 30.12
J-72 555.77 0 30.17
J-74 555 0.00 30.4
J-224 579 0 30.71
J-83 564 0 30.84
J-206 578.94 0.00 30.91
J-86 564 0 30.98
Sump_Proposed_Pimple
563 13.02 31.12
Gurao1,2,3

113
 J-112 564 0 31.21
J-68 558.03 0 31.74
J-209 577.42 0 32.35
J-149 565.28 0 32.53
J-99 565.25 0 32.58
Sump_New Pimple Gurav
561.4 7.11 32.72
Garden
J-308 561.32 0 32.8
J-91 560 0 33.12
J-108 560.5 0 33.63
Sump_Pimple Gurav Garden 560.02 3.03 34.09
J-322 560 0 34.11
J-50 559.4 0 34.25
J-52 559.41 0 34.33
Sump_Dapodi 556.5 8.1 34.77
J-102 560 0 34.98
J-100 563.41 0 35.14
sump-Pimple Saudagar a 560 4.62 35.19
J-303 560 0 35.19
J-48 558.52 0 35.34
J-92 560 0 35.51
sump-Pimple Saudagar b New 560 10.32 35.62
J-106 560 0.00 35.62
J-292 562.05 0.00 35.86
J-295 561.83 0.00 35.9
J-40 556.91 0.00 36.01
J-103 560 0.00 36.15
J-109 560 0 36.15
J-126 560 0 36.35
J-186 571.61 0 36.36
J-114 562.29 0 36.39
J-70 558.1 0 36.4
J-67 558.02 0 36.45
J-113 562.1 0 36.58
J-129 560 0 36.61
J-34 556.16 0 36.66
J-116 560.7 0 36.73
J-117 560.72 0 36.81
J-127 560 0 36.87
J-25 555 0 37.15
J-294 560.81 0 37.2
J-31 555 0 37.22
J-285 568.31 0 37.66
J-320 568.28 0 37.68
J-321 568.25 0 37.7
J-73 561.06 0 37.75
J-85 557.04 0 37.81
J-125 560.5 0 37.89
J-140 561.46 0 37.93
J-293 560 0 38.01
J-139 561.35 0 38.05
J-115 561.33 0 38.07
J-169 566.68 0 38.11
J-257 561.14 0 38.27
J-168 566.8 0 38.28
J-124 560.35 0.00 38.51
J-286 567.69 0 38.57
J-7111 560 0 38.59
J-141 560 0 38.6
J-122 560.09 0 38.92
J-123 560.06 0 38.93
J-289 565.42 0 38.99
J-120 560 0 39.16
J-121 560 0 39.17
J-119 560 0 39.34

114
 J-291 560 0 39.35
J-290 560 0 39.36
J-177 560 0 39.44
J-43 555.16 0 39.46
J-128 560 0 39.99
J-178 565.99 0 40.39
J-134 560 0 40.59
J-288 560 0 41.3
J-158 561 0.00 41.41
J-157 561.35 0 41.53
J-179 565.05 0 41.71
J-164 561.4 0 42.28
J-163 561.51 0 42.43

It is observed that the velocity in pipelines is not exceeding 1.8 m/s and the minimum
pressure is 5 m. Hence the pipe sizes are OK.

6.3.3 ESRs on Thergaon Line

ESRs on the Thergaon line are shown in Figure 6.22 and Table 6.44.

Figure 6.22: ESRs on the Thergaon line

115
Table 6.44: ESRs on the Thergaon Line
Deman Deman
Deman Deman
d of d of
Tank d of d of
SN Label 2030* 2045*
ID 2030 2045
24/23 24/23
(ML) (ML)
(ML) (ML)
1 19 Thergaon Gaothan1 9.52 9.93 11.98 12.50
2 38 Kala Khadak 6.93 7.23 8.72 9.10
3 39 Kala Khadak New1 10.66 11.12 13.41 13.99
4 40 Kala Khadak New 2 11.8 12.31 14.85 15.49
5 43 Kaveri Nagar 7.26 7.58 9.13 9.53
6 46 Lakshman Nagar 13.52 14.11 17.01 17.75
7 47 Lakshman Nagar 2 8.12 8.47 10.22 10.66
8 50 Thergaon Gaothan2 6.18 6.45 7.77 8.11
9 53 Naydu 6.02 6.28 7.57 7.90
10 64 Pimple Nilakh 10.58 11.04 13.31 13.89
11 69 Proposed Naydu 3.56 3.71 4.48 4.67
12 71 Rahatni1 7.06 7.37 8.88 9.27
13 72 Rahatni2 8.4 8.77 10.57 11.03
14 73 Rahatni3 6.28 6.55 7.90 8.24
15 94 Balewadi 0.72 0.75 0.91 0.95
16 95 Chest Hospital 0.77 0.80 0.97 1.01
Total 117.38 122.48 147.67 154.09

ESRs on Pumping

Following ESRs are on pumping.

(a)With Sumps:
(1) Kala Khadak
(2) Kala Khadak New1
(3) Kala Khadak New 2

(b)With Online boosters:

(1) Lakshman Nagar
(2) Lakshman Nagar 2

(c)By Gravity:
(1) Kaveri Nagar
(2) Rahatni3
(3) Rahatni2
(4) Rahatni1
(5) Thergaon Gaothan1
(6) Thergaon Gaothan2

116
 (7) Proposed Naydu
(8) Naydu
(9) Pimple Nilakh
(10) Chest Hospital
(11) Balewadi

Demand of 2045 is given to the nodes and model run is taken. The nodal pressures are shown
in Figure 6.23. It is observed that water is not reaching by gravity to the ESRs at Kaveri
Nagar, Rahatni1, Rahatni2 and Rahatni3. Hence, sumps are proposed at these ESRs and
water is proposed to be pumped to these ESRs from the sumps.

Figure 6.23: Nodal pressures

(a)With Sumps:

(1) Kala Khadak

(2) Kala Khadak New1
(3) Kala Khadak New 2

117
Pipeline network is shown in Figure 6.24. Levels and demands are shown in Table 6.45.

Figure 6.24: Network of Kala Khadak ESRs

Table 6.45: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Kala Khadak 611.56 581.29 30.27 6.93 7.23 8.72 9.10 40
2 Kala Khadak New1 608.5 581.29 27.21 10.66 11.12 13.41 13.99 40
3 Kala Khadak New 2 608.5 581.29 27.21 11.8 12.31 14.85 15.49 40
Total 29.39 30.67 36.97 38.58

Data as shown in Table 6.45 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.46: Pipe results

Flow
Hazen- Length Diameter Velocity
Label Start Node Stop Node Material (Absolute)
Williams C (Scaled) (m) (mm) (m/s)
(ML/day)
PMP-Kala FCV-Kala
P-205 Khadak New Khadak New DI 135 7 500 12.31 0.726
2 2
PMP-Kala
P-206 T-84 Khadak New DI-K9 135 7 500 12.31 0.726
2
FCV-Kala
P-207 Khadak New H-50 DI 135 3 500 12.31 0.726
2
Kala Khadak
P-208 H-50 DI 135 2 500 12.31 0.726
New 2
PMP-Kala FCV-Kala
P-100 Khadak Khadak DI 135 8 500 11.12 0.656
New1 New1
PMP-Kala
P-101 T-84 DI-K9 135 8 500 11.12 0.656
Khadak

118
 New1
FCV-Kala
P-102 Khadak H-51 DI 135 2 500 11.12 0.656
New1
Kala Khadak
P-103 H-51 DI 135 3 500 11.12 0.656
New1
PMP-Kala FCV-Kala
P-418 DI 135 12 600 7.23 0.296
Khadak Khadak
PMP-Kala
P-419 T-84 DI-K9 135 5 600 7.23 0.296
Khadak
FCV-Kala
P-420 H-52 DI 135 3 600 7.23 0.296
Khadak
P-421 H-52 Kala Khadak DI 135 4 600 7.23 0.296

Table 6.47: Junction results

Demand Pressure (m
Label Elevation (m)
(ML/day) H2O)
Kala Khadak 611.56 7.23 6.12
Kala Khadak
608.5 11.12 9.16
New1
Kala Khadak
608.50 12.31 9.16
New 2

Design of Sump

With 2hours of detention time, volume = 38.58*1000/12= 3215.2 m3. With 4m water depth,
area = 803.8 m2. And diameter = (4*Area/3.14)^0.5 = 31.99 say 32 m

(b)Kaveri:

Pipeline network is shown in Figure 6.25. Levels and demands are shown in Table 6.48.

Figure 6.25: Network of Kaveri

119
 Figure 6.26: Network of Kaveri with sump

Table 6.48: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Kaveri Nagar 605.8 578.5 27.3 7.26 7.58 9.13 9.53 35

Data as shown in Table 6.48 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.49: Pipe results
Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute)
Williams C (mm) (m/s)
(m) (ML/day)
PMP-
FCV-Kaveri
P-399 Kaveri DI-K9 120 9 600 7.58 0.31
Nagar
Nagar
Sump- PMP-
P-400 Kaveri Kaveri DI-K9 120 4 600 7.58 0.31
Nagar Nagar
FCV-Kaveri
P-402 H-48 DI-K9 120 4 600 7.58 0.31
Nagar
Kaveri
P-403 H-48 DI-K9 120 3 600 7.58 0.31
Nagar

Table 6.50: Junction results

Demand Pressure (m
Label Elevation (m)
(ML/day) H2O)
Kaveri
605.8 7.58 4.2
Nagar

Design of Sump

With 2hours of detention time, volume = 9.53*1000/12= 794.1 m3. With 4m water depth,
area = 1598.5 m2. And diameter = (4*Area/3.14)^0.5 = 15.9 say 16 m

120
(b) Rahatni1, Rahatni2 and Rahatni3:

Pipeline network is shown in Figure 6.26. Levels and demands are shown in Table 6.51.

Figure 6.26: Network of Rahatni

Figure 6.27: Network of Rahatni with sump

121
Table 6.48: Demands and levels

Demand Demand
LSL of Static Demand Demand
FSL of of 2030* of 2045* Design
SN Pump sump head of 2030 of 2045
tank (m) 24/23 24/23 Head (m)
(m) (m) (ML) (ML)
(ML) (ML)
1 Rahatni1 591.98 569.12 22.86 7.06 7.37 8.88 9.27 30
2 Rahatni2 593.61 569.12 24.49 8.4 8.77 10.57 11.03 35
3 Rahatni3 595 569.12 25.88 6.28 6.55 7.90 8.24 35
Total 21.74 22.69 27.35 28.54

Data as shown in Table 6.48 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.49: Pipe results

Flow
Hazen- Length Diameter Velocity
Label Start Node Stop Node Material (Absolute)
Williams C (Scaled) (m) (mm) (m/s)
(ML/day)
FCV-
P-222 H-47 DI 135 6 500 8.4 0.495
Rahatni2
P-223 H-47 Rahatni2 DI 135 6 500 8.4 0.495
Sump- PMP-
P-224 DI 135 13 500 8.4 0.495
Rahatni Rahatni2
PMP- FCV-
P-225 DI 135 16 500 8.4 0.495
Rahatni2 Rahatni2
FCV-
P-301 H-46 DI 135 7 500 7.06 0.416
Rahatni1
P-302 H-46 Rahatni1 DI 135 6 500 7.06 0.416
Sump- PMP-
P-303 DI 135 13 500 7.06 0.416
Rahatni Rahatni1
PMP- FCV-
P-304 DI 135 16 500 7.06 0.416
Rahatni1 Rahatni1
FCV-
P-351 H-45 DI 135 5 500 6.28 0.37
Rahatni3
P-352 H-45 Rahatni3 DI 135 4 500 6.28 0.37
Sump- PMP-
P-353 DI 135 8 500 6.28 0.37
Rahatni Rahatni3
PMP- FCV-
P-354 DI 135 11 500 6.28 0.37
Rahatni3 Rahatni3

Table 6.50: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Rahatni1 591.98 7.06 4.46
Rahatni2 593.61 8.4 7.95
Rahatni3 595 6.28 6.56

Minimum velocity is less than 1.8 m/s and minimum residual pressure is 4.4 m. Hence, OK.

122
Design of Sump

With 2hours of detention time, volume = 28.54*1000/12= 2378.3 m3. With 4m water depth,
area = 594.6 m2. And diameter = (4*Area/3.14)^0.5 = 27.52 m say 28 m

(c)Lakshman Nagar and Lakshman Nagar 2

Pipeline network is shown in Figure 6.28. Levels and demands are shown in Table 6.51.

Figure 6.28: Network of Lakshman Nagar ESRs

Figure 6.29: Pumping at ESR New Pimple Gurav Garden New with sump

123
Table 6.51: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Lakshman Nagar 601.16 578 23.16 13.52 14.11 17.01 17.75 30
2 Lakshman Nagar 2 600.6 578 22.6 8.12 8.47 10.22 10.66 30
Total 22.08

Data as shown in Table 6.18 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.52: Pipe results
Flow
Hazen- Length Diameter Velocity
Label Start Node Stop Node Material (Absolute)
Williams C (Scaled) (m) (mm) (m/s)
(ML/day)
PMP-
Sump_Laks
P-104 Lakshman MS 120 9 500 13.52 0.797
hman Nagar
Nagar
PMP- FCV-
P-105 Lakshman Lakshman MS 120 13 500 13.52 0.797
Nagar Nagar
FCV-
P-106 Lakshman H-41 DI 135 3 500 13.52 0.797
Nagar
Lakshman
P-107 H-41 DI 135 3 500 13.52 0.797
Nagar
PMP-
Sump_Laks
P-239 Lakshman DI-K9 135 9 500 8.12 0.479
hman Nagar
Nagar 2
PMP- FCV-
P-240 Lakshman Lakshman DI-K9 135 96 500 8.12 0.479
Nagar 2 Nagar 2
FCV-
P-241 Lakshman H-42 DI-K9 135 4 500 8.12 0.479
Nagar 2
Lakshman
P-242 H-42 DI-K9 135 3 500 8.12 0.479
Nagar 2

Table 6.53: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Lakshman
601.16 13.52 4.15
Nagar
Lakshman
600.6 8.12 4.69
Nagar 2

Minimum velocity is less than 1.8 m/s and minimum residual pressure is 4.1 m. Hence, OK.

Design of Sump

With 2 hours of detention time, volume = 28.41*1000/12= 2367.5 m3. With 4m water depth,
area = 591.8 m2. And diameter = (4*Area/3.14)^0.5 = 27.4 m

124
Design of Gravity Main from WTP to ESRs on Thergaon Line

Gravity main is simulated with following two cases:

Case 1: ESRs without sumps, or direct filling by gravity

Case 2: ESRs with sumps, or no direct filling by gravity but water comes by gravity up to the
sump and then from the sump it is pumped to the ESR.

In Case 1: The demand of the zone is given to the representative nodes and the FSL of the
tank is given as elevation to these nodes.

In Case2: Sumps of the ESRs are represented by a single node as shown in Figure 6.30. The
combined demand of ESRs is given to the representative nodes, however, ground elevation of
the sump is given as elevation to these nodes.

Figure 6.30: Nodes of Sumps and ESR

(a) Design for year 2045:

The gravity main is designed for year 2045. Demand of the year 2045 as shown in Table
6.44 has been given to the nodes and the model run is taken. The junction results are shown
in Table 6.54

125
Table 6.55: Junction results of rising mains for the year 2045

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

94 Balewadi 559.91 0.72 23
95 Chest Hospital 559.44 0.77 24.7
69 Proposed Naydu 588.6 3.56 -2.56
53 Naydu 588.14 6.02 -2.09
50 Thergaon Gaothan2 589.17 6.18 -5.15
19 Thergaon Gaothan1 589.39 9.52 -5.34
106 Sump-Kaveri Nagar 578.7 9.53 6.11
64 Pimple Nilakh 580.25 10.58 0.57
108 Sump_Lakshman Nagar 579 28.41 4.92
107 Sump_Rahatni 569.41 28.54 14.93
109 Sump_Kala Khadak 581.34 35.58 -2.41

It is observed that there are negative pressures at ESRs as shown in Table 6.55. Even for the
year 2030, residual pressure is just 1m. Moreover, velocities in pipes are more than 2m/s.
Hence, it is proposed to add new parallel MS pipelines shown by blue line in Figure 6.31.

Figure 6.31: Nodes of Sumps and ESR

After adding new line, demand of the year 2045 as shown in Table 6.44 has been given to
the nodes and the model run is taken. The pipe results are shown in Table 6.56 and junction
results are shown in Table 6.57.

126
Table 6.56: Pipe results of rising mains for the year 2045

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-24 J-200 J-201 MS 120 15 1,000.00 116.03 1.71 E
P-25 J-199 J-200 MS 120 18 1,000.00 116.03 1.71 E
P-26 J-201 J-202 MS 120 21 1,000.00 116.03 1.71 E
P-27 J-193 J-187 MS 120 335 1,000.00 116.03 1.71 E
P-28 J-196 J-199 MS 120 384 1,000.00 116.03 1.71 E
P-29 J-193 J-196 MS 120 334 1,000.00 116.03 1.71 E
P-30 J-202 J-228 MS 120 20 1,000.00 116.03 1.71 E
P-31 J-228 J-174 MS 120 213 1,000.00 116.03 1.71 E
P-32 J-174 J-261 DI 135 14 1,000.00 116.03 1.71 E
P-33 J-187 J-296 MS 120 158 1,000.00 116.03 1.71 E
P-13661 J-7121 J-7117 MS 1,200.00 285 500 28.94 1.706 N
P-73 J-242 J-229 DI 135 143 1,000.00 103.12 1.52 E
P-74 J-261 J-242 DI 135 12 1,000.00 103.12 1.52 E
P-75 J-229 J-203 MS 120 37 1,000.00 103.12 1.52 E
P-13639 R-15 J-7114 DI-K7 135 5,596 1,000.00 97.06 1.43 N
FCV-Kala
P-43 J-215 DI-K7 135 184 700 46.71 1.405 N
Khadak
Sump_Kal
P-44 H-61 DI-K7 135 4 700 46.71 1.405 N
a Khadak
FCV-Kala
P-45 H-61 DI-K7 135 5 700 46.71 1.405 N
Khadak
P-13642 J-7114 J-7115 DI 135 1,504 600 33.8 1.384 N
P-13645 J-296 J-7116 MS 120 1,191 600 33.2 1.359 E
FCV-
P-66 J-152 Pimple DI 135 21 400 13.89 1.279 E
Nilakh
P-67 J-143 J-142 MS 120 675 400 13.89 1.279 E
P-68 J-146 J-152 MS 120 107 400 13.89 1.279 E
P-69 J-143 J-146 MS 120 520 400 13.89 1.279 E
FCV-
P-70 Pimple H-44 DI 135 3 400 13.89 1.279 E
Nilakh
Pimple
P-71 H-44 DI 135 4 400 13.89 1.279 E
Nilakh
P-95 J-219 J-182 MS 120 3,155 1,000.00 85.96 1.267 E
P-96 J-182 J-180 MS 120 325 1,000.00 85.96 1.267 E
P-97 R-15 J-287 MS 120 104 1,000.00 85.96 1.267 E
P-98 J-287 J-219 MS 120 1,882 1,000.00 85.96 1.267 E
P-99 J-296 J-180 MS 120 167 1,000.00 85.96 1.267 E
P-13651 J-203 J-7118 MS 120 2 1,000.00 79.9 1.177 E
P-83 J-188 J-176 DI 135 470 400 12.58 1.159 E
P-84 J-176 J-138 DI 135 431 400 12.58 1.159 E
FCV-
P-85 J-137 Thergaon MS 120 13 400 12.5 1.151 E
Gaothan1
FCV-
P-86 Thergaon H-56 MS 120 4 400 12.5 1.151 E
Gaothan1
Thergaon
P-87 H-56 MS 120 4 400 12.5 1.151 E
Gaothan1
P-40 J-261 J-223 MS 120 1,309 600 27.69 1.134 E
P-41 J-223 J-301 MS 120 70 600 27.69 1.134 E
P-42 J-301 J-215 MS 120 575 600 27.69 1.134 E
FCV-
P-36 Lakshman H-60 MS 120 3 700 37.3 1.122 R
Nagar
Sump_Lak
P-37 H-60 shman MS 120 5 700 37.3 1.122 R
Nagar
FCV-
P-13649 J-7117 MS 120 10 700 37.3 1.122 R
Lakshman

127
 Nagar
P-13644 J-7115 J-215 DI 135 1,978 500 19.01 1.121 N
P-13658 J-175 J-7121 MS 120 5 500 18.18 1.072 E
P-155 J-198 J-195 MS 120 368 1,000.00 64.88 0.956 E
P-156 J-195 J-280 MS 120 125 1,000.00 64.88 0.956 E
P-157 J-280 J-300 MS 120 378 1,000.00 64.88 0.956 E
P-13652 J-7118 J-198 MS 120 226 1,000.00 64.88 0.956 E
P-77 J-204 J-279 MS 120 534 600 23.22 0.951 E
P-13640 J-7114 J-296 DI-K7 135 10 1,000.00 63.26 0.932 N
P-13655 J-7118 J-7119 DI 135 712 500 15.02 0.885 N
FCV-
P-213 J-170 Rahatni_s MS 120 117 800 37.47 0.863 E
ump
FCV-
P-214 Rahatni_s H-59 MS 120 5 800 37.47 0.863 E
ump
Sump_Rah
P-215 H-59 MS 120 7 800 37.47 0.863 E
atni
P-13647 J-7116 J-137 DI 135 573 500 13.78 0.813 N
P-13646 J-7116 J-297 MS 120 5 600 19.41 0.795 E
P-78 J-279 J-175 MS 120 4 600 19.12 0.783 E
P-230 J-172 J-170 MS 120 928 1,000.00 52.37 0.772 E
P-231 J-189 J-172 MS 120 339 1,000.00 52.37 0.772 E
P-232 J-300 J-189 MS 120 184 1,000.00 52.37 0.772 E
FCV-
P-175 J-137 Thergaon MS 120 20 400 8.12 0.748 E
Gaothan2
FCV-
P-176 Thergaon H-55 MS 120 3 400 8.12 0.748 E
Gaothan2
Thergaon
P-177 H-55 MS 120 4 400 8.12 0.748 E
Gaothan2
P-142 J-203 J-204 MS 120 178 700 23.22 0.698 E
P-13660 J-7120 J-7121 DI 135 4 500 10.76 0.634 N
P-11 J-297 J-298 MS 120 540 400 6.83 0.629 E
P-12 J-298 J-137 MS 120 25 400 6.83 0.629 E
P-13643 J-7115 J-261 DI 135 18 600 14.78 0.605 N
P-13656 J-7119 J-7120 DI 135 2 700 19.12 0.575 N
P-331 J-297 J-188 MS 120 5 600 12.58 0.515 E
FCV-Kaveri
P-401 J-300 DI-K7 135 237 600 12.51 0.512 N
Nagar
Sump-
P-404 H-58 Kaveri DI-K7 135 4 600 12.51 0.512 N
Nagar
FCV-Kaveri
P-405 H-58 DI-K7 135 4 600 12.51 0.512 N
Nagar
FCV-
P-502 J-138 DI-K7 135 96 500 7.9 0.466 N
Naydu
FCV-
P-503 H-53 DI-K7 135 9 500 7.9 0.466 N
Naydu
P-504 H-53 Naydu DI-K7 135 5 500 7.9 0.466 N
P-443 J-207 J-208 DI 135 512 200 0.94 0.348 E
P-444 J-274 J-282 DI 135 422 200 0.94 0.348 E
P-445 J-208 J-274 DI 135 497 200 0.94 0.348 E
P-446 J-207 J-299 DI 135 332 200 0.94 0.348 E
FCV-
P-447 J-282 DI 135 488 200 0.94 0.348 E
Balewadi
P-448 H-49 Balewadi DI 135 5 200 0.94 0.348 E
FCV-
P-449 H-49 DI 135 6 200 0.94 0.348 E
Balewadi
P-455 J-142 J-167 MS 120 1,435 800 14.9 0.343 E
P-456 J-170 J-167 MS 120 919 800 14.9 0.343 E
FCV-
P-367 J-138 Proposed DI-K7 135 67 500 4.68 0.276 N
Naydu
FCV-
P-368 H-54 DI-K7 135 8 500 4.68 0.276 N
Proposed

128
 Naydu
Proposed
P-369 H-54 DI-K7 135 7 500 4.68 0.276 N
Naydu
P-13657 J-7120 J-7117 DI 135 288 700 8.35 0.251 N
P-567 J-299 J-175 DI 135 149 300 0.94 0.155 E
P-13653 J-279 J-7119 DI 135 3 700 4.1 0.123 N
FCV-Chest
P-594 J-96 MS 120 28 400 1.01 0.093 E
Hospital
P-595 J-111 J-96 MS 120 365 400 1.01 0.093 E
P-596 J-142 J-111 MS 120 824 400 1.01 0.093 E
FCV-Chest
P-597 H-43 MS 120 3 400 1.01 0.093 E
Hospital
Chest
P-598 H-43 MS 120 3 400 1.01 0.093 E
Hospital

Table 6.57: Junction results of rising mains for the year 2045

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

0 J-287 609.53 0 0.27 (Very near to sump at WTP and there is no demand)
69 Proposed Naydu 588.6 4.68 7.41
19 Thergaon Gaothan1 589.39 12.5 7.82
53 Naydu 588.14 7.9 7.88
50.00 Thergaon Gaothan2 589.17 8.12 8
64 Pimple Nilakh 580.25 13.89 9.44
109 Sump_Kala Khadak 581.34 46.71 12.12
0 J-215 579.59 0 13.86
0 J-301 579.24 0 15.33
0 J-223 579.26 0 15.46
0 J-172 579 0 17.06
0 J-189 579 0 17.27
108 Sump_Lakshman Nagar 579 37.3 17.33
0 J-7117 578.95 0 17.38
0 J-300 579 0 17.39
106 Sump-Kaveri Nagar 578.7 12.51 17.59
0 J-204 579 0 18.2
0 J-7120 577.54 0 18.81
0 J-7119 577.53 0 18.82
0 J-279 577.52 0 18.83
0 J-7121 577.49 0 18.86
0 J-175 577.46 0 18.89
0 J-203 577.41 0 19.93
0 J-7118 577.38 0 19.95
0 J-229 577.28 0 20.13
0 J-299 576.04 0 20.29
0 J-242 576.71 0 20.94
0 J-261 576.66 0 21.01
0 J-7115 576.52 0 21.17
0 J-174 576.49 0 21.22
0 J-195 575.36 0 21.44
0 J-280 575.02 0 21.76
0 J-198 575.19 0 21.94
0 J-228 574.36 0 23.83
0.00 J-202 574.31 0 23.93
0.00 J-201 574.26 0 24.03
0.00 J-200 574.23 0 24.08
0.00 J-199 574.15 0 24.17
0.00 J-207 571.33 0 24.75
0.00 J-170 569.57 0 26.12
107 Sump_Rahatni 569.41 37.47 26.13
0 J-208 569.27 0 26.44
0 J-219 579.24 0 27.42
0 J-188 569.68 0 28.16

129
 0 J-297 569.66 0 28.18
0 J-7116 569.64 0 28.21
0 J-137 568.33 0 28.84
0.00 J-176 566.98 0 29.37
0 J-298 567.8 0 29.4
0 J-138 566.2 0 29.78
0 J-196 569.44 0 29.93
0 J-152 559.12 0 30.53
0 J-167 564.99 0 30.53
0 J-146 559.23 0 30.77
0 J-274 564.42 0 30.93
0 J-142 564 0 31.28
0 J-143 559.57 0 32.73
94 Balewadi 559.91 0.94 34.79
0 J-193 564.95 0 35.27
0 J-111 559.85 0 35.38
0 J-282 559.5 0 35.56
0 J-96 559.56 0 35.67
95 Chest Hospital 559.44 1.01 35.78
0 J-187 564.29 0 36.8
0 J-7114 564.08 0 37.42
0 J-296 564 0 37.5
0 J-180 561.63 0 40.12
0 J-182 560 0 42.22

It is observed that the velocity in pipelines is not exceeding 1.8 m/s and the minimum
residual pressure at ESR is adequate. The higher nodal pressures at the demand nodes
(ESRs) can be adjusted to desired value by adjusting Flow controlling valve (FCV) provided
before the demand nodes (ESRs).
Hence the sizes of the pipelines proposed are OK.

(a) Design for year 2030:

The demands of the year 2030 as shown in Table 7.44 is given to nodes and the model run is
taken. The pipe results are shown in Table 6.58 and junction results are shown in Table 6.59.

Table 6.58: Pipe results of rising mains for the year 2030

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-24 J-200 J-201 MS 120 15 1,000.00 92.22 1.359 E
P-25 J-199 J-200 MS 120 18 1,000.00 92.22 1.359 E
P-26 J-201 J-202 MS 120 21 1,000.00 92.22 1.359 E
P-27 J-193 J-187 MS 120 335 1,000.00 92.22 1.359 E
P-28 J-196 J-199 MS 120 384 1,000.00 92.22 1.359 E
P-29 J-193 J-196 MS 120 334 1,000.00 92.22 1.359 E
P-30 J-202 J-228 MS 120 20 1,000.00 92.22 1.359 E
P-31 J-228 J-174 MS 120 213 1,000.00 92.22 1.359 E
P-32 J-174 J-261 DI 135 14 1,000.00 92.22 1.359 E
P-33 J-187 J-296 MS 120 158 1,000.00 92.22 1.359 E
P-13661 J-7121 J-7117 MS 1,200.00 285 500 23.01 1.356 N
P-73 J-242 J-229 DI 135 143 1,000.00 81.96 1.208 E
P-74 J-261 J-242 DI 135 12 1,000.00 81.96 1.208 E
P-75 J-229 J-203 MS 120 37 1,000.00 81.96 1.208 E
P-13639 R-15 J-7114 DI-K7 135 5,596 1,000.00 77.15 1.137 N
P-43 J-215 FCV-Kala DI-K7 135 184 700 37.13 1.117 N

130
 Khadak
Sump_Kal
P-44 H-61 DI-K7 135 4 700 37.13 1.117 N
a Khadak
FCV-Kala
P-45 H-61 DI-K7 135 5 700 37.13 1.117 N
Khadak
P-13642 J-7114 J-7115 DI 135 1,504 600 26.87 1.1 N
P-13645 J-296 J-7116 MS 120 1,191 600 26.39 1.08 E
FCV-
P-66 J-152 Pimple DI 135 21 400 11.04 1.017 E
Nilakh
P-67 J-143 J-142 MS 120 675 400 11.04 1.017 E
P-68 J-146 J-152 MS 120 107 400 11.04 1.017 E
P-69 J-143 J-146 MS 120 520 400 11.04 1.017 E
FCV-
P-70 Pimple H-44 DI 135 3 400 11.04 1.017 E
Nilakh
Pimple
P-71 H-44 DI 135 4 400 11.04 1.017 E
Nilakh
P-95 J-219 J-182 MS 120 3,155 1,000.00 68.33 1.007 E
P-96 J-182 J-180 MS 120 325 1,000.00 68.33 1.007 E
P-97 R-15 J-287 MS 120 104 1,000.00 68.33 1.007 E
P-98 J-287 J-219 MS 120 1,882 1,000.00 68.33 1.007 E
P-99 J-296 J-180 MS 120 167 1,000.00 68.33 1.007 E
P-13651 J-203 J-7118 MS 120 2 1,000.00 63.51 0.936 E
P-83 J-188 J-176 DI 135 470 400 10 0.921 E
P-84 J-176 J-138 DI 135 431 400 10 0.921 E
FCV-
P-85 J-137 Thergaon MS 120 13 400 9.93 0.915 E
Gaothan1
FCV-
P-86 Thergaon H-56 MS 120 4 400 9.93 0.915 E
Gaothan1
Thergaon
P-87 H-56 MS 120 4 400 9.93 0.915 E
Gaothan1
P-40 J-261 J-223 MS 120 1,309 600 22.01 0.901 E
P-41 J-223 J-301 MS 120 70 600 22.01 0.901 E
P-42 J-301 J-215 MS 120 575 600 22.01 0.901 E
FCV-
P-36 Lakshman H-60 MS 120 3 700 29.65 0.892 R
Nagar
Sump_Lak
P-37 H-60 shman MS 120 5 700 29.65 0.892 R
Nagar
FCV-
P-13649 J-7117 Lakshman MS 120 10 700 29.65 0.892 R
Nagar
P-13644 J-7115 J-215 DI 135 1,978 500 15.11 0.891 N
P-13658 J-175 J-7121 MS 120 5 500 14.45 0.852 E
P-155 J-198 J-195 MS 120 368 1,000.00 51.57 0.76 E
P-156 J-195 J-280 MS 120 125 1,000.00 51.57 0.76 E
P-157 J-280 J-300 MS 120 378 1,000.00 51.57 0.76 E
P-13652 J-7118 J-198 MS 120 226 1,000.00 51.57 0.76 E
P-77 J-204 J-279 MS 120 534 600 18.46 0.756 E
P-13640 J-7114 J-296 DI-K7 135 10 1,000.00 50.29 0.741 N
P-13655 J-7118 J-7119 DI 135 712 500 11.94 0.704 N
FCV-
P-213 J-170 Rahatni_s MS 120 117 800 29.78 0.686 E
ump
FCV-
P-214 Rahatni_s H-59 MS 120 5 800 29.78 0.686 E
ump
Sump_Rah
P-215 H-59 MS 120 7 800 29.78 0.686 E
atni
P-13647 J-7116 J-137 DI 135 573 500 10.96 0.646 N
P-13646 J-7116 J-297 MS 120 5 600 15.43 0.632 E
P-78 J-279 J-175 MS 120 4 600 15.2 0.622 E
P-230 J-172 J-170 MS 120 928 1,000.00 41.62 0.613 E

131
 P-231 J-189 J-172 MS 120 339 1,000.00 41.62 0.613 E
P-232 J-300 J-189 MS 120 184 1,000.00 41.62 0.613 E
FCV-
P-175 J-137 Thergaon MS 120 20 400 6.45 0.594 E
Gaothan2
FCV-
P-176 Thergaon H-55 MS 120 3 400 6.45 0.594 E
Gaothan2
Thergaon
P-177 H-55 MS 120 4 400 6.45 0.594 E
Gaothan2
P-142 J-203 J-204 MS 120 178 700 18.46 0.555 E
P-13660 J-7120 J-7121 DI 135 4 500 8.56 0.504 N
P-11 J-297 J-298 MS 120 540 400 5.43 0.5 E
P-12 J-298 J-137 MS 120 25 400 5.43 0.5 E
P-13643 J-7115 J-261 DI 135 18 600 11.75 0.481 N
P-13656 J-7119 J-7120 DI 135 2 700 15.19 0.457 N
P-331 J-297 J-188 MS 120 5 600 10 0.409 E
FCV-Kaveri
P-401 J-300 DI-K7 135 237 600 9.94 0.407 N
Nagar
Sump-
P-404 H-58 Kaveri DI-K7 135 4 600 9.94 0.407 N
Nagar
FCV-Kaveri
P-405 H-58 DI-K7 135 4 600 9.94 0.407 N
Nagar
FCV-
P-502 J-138 DI-K7 135 96 500 6.28 0.37 N
Naydu
FCV-
P-503 H-53 DI-K7 135 9 500 6.28 0.37 N
Naydu
P-504 H-53 Naydu DI-K7 135 5 500 6.28 0.37 N
P-443 J-207 J-208 DI 135 512 200 0.75 0.276 E
P-444 J-274 J-282 DI 135 422 200 0.75 0.276 E
P-445 J-208 J-274 DI 135 497 200 0.75 0.276 E
P-446 J-207 J-299 DI 135 332 200 0.75 0.276 E
FCV-
P-447 J-282 DI 135 488 200 0.75 0.276 E
Balewadi
P-448 H-49 Balewadi DI 135 5 200 0.75 0.276 E
FCV-
P-449 H-49 DI 135 6 200 0.75 0.276 E
Balewadi
P-455 J-142 J-167 MS 120 1,435 800 11.84 0.273 E
P-456 J-170 J-167 MS 120 919 800 11.84 0.273 E
FCV-
P-367 J-138 Proposed DI-K7 135 67 500 3.72 0.219 N
Naydu
FCV-
P-368 Proposed H-54 DI-K7 135 8 500 3.72 0.219 N
Naydu
Proposed
P-369 H-54 DI-K7 135 7 500 3.72 0.219 N
Naydu
P-13657 J-7120 J-7117 DI 135 288 700 6.64 0.2 N
P-567 J-299 J-175 DI 135 149 300 0.75 0.123 E
P-13653 J-279 J-7119 DI 135 3 700 3.26 0.098 N
FCV-Chest
P-594 J-96 MS 120 28 400 0.8 0.074 E
Hospital
P-595 J-111 J-96 MS 120 365 400 0.8 0.074 E
P-596 J-142 J-111 MS 120 824 400 0.8 0.074 E
FCV-Chest
P-597 H-43 MS 120 3 400 0.8 0.074 E
Hospital
Chest
P-598 H-43 MS 120 3 400 0.8 0.074 E
Hospital
Table 6.59: Junction results of rising mains for the year 2030

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)

0 J-287 609.53 0 0.33 (Very near to sump at WTP and there is no demand)
19 Thergaon Gaothan1 589.39 9.93 12.23
69 Proposed Naydu 588.6 3.72 12.23
50 Thergaon Gaothan2 589.17 6.45 12.42

132
53 Naydu 588.14 6.28 12.7
64 Pimple Nilakh 580.25 11.04 16.44
109 Sump_Kala Khadak 581.34 37.13 17.82
0 J-215 579.59 0 19.56
0 J-301 579.24 0 20.64
0 J-223 579.26 0 20.72
0 J-172 579 0 21.86
0 J-189 579 0 21.99
108 Sump_Lakshman Nagar 579 29.65 22.03
0 J-300 579 0 22.08
0 J-7117 578.95 0 22.08
106 Sump-Kaveri Nagar 578.7 9.94 22.31
0 J-204 579 0 22.6
0 J-7120 577.54 0 23.5
0 J-7119 577.53 0 23.52
0 J-279 577.52 0 23.53
0 J-7121 577.49 0 23.56
0 J-175 577.46 0 23.59
0 J-203 577.41 0 24.29
0 J-7118 577.38 0 24.31
0 J-229 577.28 0 24.46
0 J-299 576.04 0 25
0 J-242 576.71 0 25.19
0 J-261 576.66 0 25.25
0 J-7115 576.52 0 25.4
0 J-174 576.49 0 25.44
0 J-195 575.36 0 25.98
0 J-280 575.02 0 26.31
0 J-198 575.19 0 26.36
0 J-228 574.36 0 27.89
0 J-202 574.31 0 27.97
0 J-201 574.26 0 28.05
0 J-200 574.23 0 28.1
0 J-199 574.15 0 28.18
0 J-219 579.24 0 28.55
0 J-207 571.33 0 29.54
0 J-170 569.57 0 31.04
107 Sump_Rahatni 569.41 29.78 31.1
0 J-208 569.27 0 31.35
0 J-188 569.68 0 32.33
0 J-297 569.66 0 32.36
0 J-7116 569.64 0 32.38
0 J-137 568.33 0 33.25
0 J-196 569.44 0 33.58
0 J-298 567.8 0 33.79
0 J-176 566.98 0 34.06
0 J-138 566.2 0 34.6
0 J-167 564.99 0 35.51
0 J-274 564.42 0 35.96
0 J-142 564 0 36.34
0 J-152 559.12 0 37.53
0 J-146 559.23 0 37.65
0 J-193 564.95 0 38.62
0 J-143 559.57 0 38.81
0 J-187 564.29 0 39.84
94 Balewadi 559.91 0.75 40.04
0 J-7114 564.08 0 40.32
0 J-296 564 0 40.4
0 J-111 559.85 0 40.45
0 J-282 559.5 0 40.69
0 J-96 559.56 0 40.74
95 Chest Hospital 559.44 0.8 40.85
0 J-180 561.63 0 42.93
0 J-182 560 0 44.87

133
It is observed that the velocity in pipelines is not exceeding 1.8 m/s and the minimum
pressure is 10 m. Hence the pipe sizes are OK.

6.3.4 ESRs on Mamurdi_Punavale

ESRs on the Mamurdi_Punavale line are shown in Figure 6.32 and Table 6.60.

Figure 6.32: ESRs on the Mamurdi_Punavale line

Table 6.60: ESRs on the Mamurdi_Punavale Line

Demand Demand
of Demand of
Demand
SN Label 2030* of 2045 2045*
(ML/day)
24/23 (ML) 24/23
(ML) (ML)
1 Mamurdi 4.99 5.21 6.28 6.55
2 New_Punavale 7.48 7.81 9.41 9.82
3 Punavale 5.61 5.85 7.06 7.36

134
 4 Sector 96 6.59 6.88 8.29 8.65
5 Sector 96 New 10.79 11.26 13.57 14.16
Sector 96 Part
6 7.16 7.47 9.01 9.40
2
Total 42.62 44.47 53.62 55.95

Adequacy of gravity main from WTP to Sump Sector 96

This gravity main is shown in Figure 6.33.

Figure 6.32: Gravity main from WTP to Sump Sector 96

With the demand of 2045 water will not reach sump at Sector 96. Hence a new line of 500
mm is proposed to be laid from WTP to this sump as shown in Figure 6.33.

Figure 6.33: Gravity main with extra line (blue) from WTP to Sump Sector 96

With extra pipeline, model is run for year 2045. Pipe results and junction results are shown in
Table 6.61 and 6.62 respectively.

Table 6.61: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-15 R-15 Sump- DI-K7 135 2,836 500 30.82 1.817 N

135
 Mamurdi_
Punavale
P-16 J-212 J-213 MS 120 268 600 44.05 1.803 E
P-17 J-213 J-214 MS 120 387 600 44.05 1.803 E
P-18 J-214 J-216 MS 120 259 600 44.05 1.803 E
P-19 J-216 J-217 MS 120 579 600 44.05 1.803 E
P-20 R-15 J-212 MS 120 1,012 600 44.05 1.803 E
Sump-
P-21 H-65 Mamurdi_ MS 120 7 600 44.05 1.803 E
Punavale
FCV-
Sump-
P-22 J-217 MS 120 336 600 44.05 1.803 E
Mamurdi_
Punavale
FCV-
Sump-
P-23 H-65 MS 120 5 600 44.05 1.803 E
Mamurdi_
Punavale

Table 6.62: Junction results

Label Elevation (m) Demand (ML/day) Pressure (m H2O)

J-217 594.65 0 2.11
Sump-Mamurdi_Punavale 590.56 74.87 4.53
J-216 591.24 0 8.25
J-214 588.84 0 11.95
J-213 584.19 0 18.59
J-212 585.09 0 19.09

(1)ESRs Sector 96, Sector 96 Part2 and Sector 96 New

Pipeline network is shown in Figure 6.34. Levels and demands are shown in Table 6.63.

Figure 6.34: Pipe network

Table 6.63: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Sector 96 615.17 586 24.29 6.59 6.88 8.29 8.65 35
2 Sector 96 Part 2 616.55 586 25.67 7.16 7.47 9.01 9.40 35
2 Sector 96 New 616.55 586 25.67 10.79 11.26 13.57 14.16 35

136
Data as shown in Table 6.63 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.64: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP-
Sump-
P-145 Sector 96 DI-K9 135 13 500 10.79 0.636 N
Sector 96
New
PMP- FCV-
P-146 Sector 96 Sector 96 DI-K9 135 52 500 10.79 0.636 N
New New
FCV-
P-147 Sector 96 H-64 DI-K9 135 6 500 10.79 0.636 N
New
Sector 96
P-148 H-64 DI-K9 135 5 500 10.79 0.636 N
New
FCV-
P-295 Sector 96 H-62 DI 135 4 500 7.16 0.422 E
Part 2
Sector 96
P-296 H-62 DI 135 4 500 7.16 0.422 E
Part 2
PMP-
Sump-
P-297 Sector 96 DI 135 12 500 7.16 0.422 E
Sector 96
Part 2
PMP- FCV-
P-298 Sector 96 Sector 96 DI 135 42 500 7.16 0.422 E
Part 2 Part 2
FCV-
P-323 H-63 DI 135 3 500 6.59 0.389 E
Sector 96
P-324 H-63 Sector 96 DI 135 4 500 6.59 0.389 E
Sump- PMP-
P-325 DI 135 10 500 6.59 0.389 E
Sector 96 Sector 96
PMP- FCV-
P-326 DI 135 15 500 6.59 0.389 E
Sector 96 Sector 96

Table 6.65: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Sector 96
616.55 10.79 5.83
New
Sector 96 615.17 6.59 7.27
Sector 96
614.97 7.16 7.47
Part 2

(1)ESR Mamurdi

Pipeline network is shown in Figure 6.35. Levels and demands are shown in Table 6.66.

137
 Figure 6.35: Pipe network

Table 6.66: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Mamurdi 634 586 48 4.99 5.21 6.28 6.55 55

Data as shown in Table 6.66 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.67: Pipe results
Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP_Ma Sump-
P-267 DI 135 8 400 5.21 0.48 E
murdi Sector 96
FCV- PMP_Ma
P-733 DI 135 7,140 400 5.21 0.48 E
Mamurdi murdi
P-731 Mamurdi H-101 DI 135 5 400 5.21 0.48 E
FCV-
P-732 H-101 DI 135 5 400 5.21 0.48 E
Mamurdi

Table 6.68: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Mamurdi 634 5.21 3.37

Design of Sump: This sump is common for ESRs at Sector 96, Sector 96 Part2 and Sector 96
New and Mamurdi.

138
With 2hours of detention time, volume = 38.77*1000/12= 3230.8 m3. With 4m water depth,
area = 807.7 m2. And diameter = (4*Area/3.14)^0.5 = 32 m.

(1)ESR Punavale and Punavale_New

Pipeline network is shown in Figure 6.35. Levels and demands are shown in Table 6.69.

Figure 6.36: Pipe network

Table 6.69: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Punavale 602 568.5 33.5 7.48 7.81 9.41 9.82 40
2 New_Punavale 596.97 568.5 28.47 5.61 5.85 7.06 7.36 45
Total 13.09 13.66 16.47 17.18

Data as shown in Table 6.69 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.70: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP-
P-278 Punavale New_Puna DI-K9 135 4 500 7.8 0.46 N
vale
PMP- FCV-
P-279 New_Puna New_Puna DI-K9 135 7 500 7.8 0.46 N
vale vale
New_Puna
P-280 H-66 DI-K9 135 3 500 7.8 0.46 N
vale
FCV-
P-281 New_Puna H-66 DI-K9 135 3 500 7.8 0.46 N
vale

139
 PMP-
P-235 Punavale DI 135 3 500 5.85 0.345 E
Punavale
PMP- FCV-
P-236 DI 135 6 500 5.85 0.345 E
Punavale Punavale
P-237 H-67 Punavale DI 135 3 500 5.85 0.345 E
FCV-
P-238 H-67 DI 135 1 500 5.85 0.345 E
Punavale

Table 6.71: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
New_Punavale 596.97 7.8 5.83
Punavale 602 5.85 13.32

Design of Sump:
With 2hours of detention time, volume = 17.18*1000/12= 1431.6 m3. With 4m water depth,
area = 357.91 m2. And diameter = (4*Area/3.14)^0.5 = 21.35 m, say 22 m

Adequacy of gravity main from WTP to Sump Sector 96

This gravity main is shown in Figure 6.37.

Figure 6.37: Gravity main from WTP to Sump Sector 96

With the demand of 2045, model is run. Pipe results and junction results are shown in Table
6.72 and 6.73 respectively.

140
Table 6.72: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
FCV-
Sump_Pun
P-740 Punavale_ DI 135 4,112 500 22.55 1.329 E
avale
Sump
FCV-
P-741 Punavale_ H-104 DI 135 4 500 22.55 1.329 E
Sump
Sump-
P-742 H-104 DI 135 9 500 22.55 1.329 E
Punavale

Table 6.73: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Sump-
571.94 22.55 2.42
Punavale

6.3.5 ESRs on Gavalimatha Line

ESRs on the Gavalimatha line are shown in Figure 6.38 and Table 6.74.

Figure 6.38: ESRs on the Gavalimatha line

Table 6.74: ESRs on the Gavalimatha Line
Demand Demand
Demand Demand
of 2030* of 2045*
SN Label of 2030 of 2045
24/23 24/23
(ML) (ML)
(ML) (ML)

141
 1 Bhosari Gaothan 4.05 4.23 5.10 5.32
2 Dighi 9.93 10.36 12.49 13.04
3 Dighi Gaothan 3.56 3.71 4.48 4.67
4 Sant Tukaram 4.09 4.27 5.15 5.37
5 Sant Tukaram Nagar New 11.87 12.39 14.93 15.58
6 Ashram 3.39 3.54 4.26 4.45
7 Bopkhel 0 0.00 0.00 0.00
8 Dighi_Magzine 2.16 2.25 2.72 2.84
9 Indrayaninagar a 4.82 5.03 6.06 6.33
Total 43.87 45.78 55.19 57.59

(1)ESRs Sant Tukaram and Sant Tukaram New

Pipeline network is shown in Figure 6.39. Levels and demands are shown in Table 6.75.

Figure 6.39: Pipe network

Table 6.75: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Sant Tukaram 611 576.9 34.1 4.09 4.27 5.15 5.37 50
Sant Tukaram
2
Nagar New
618.5 576.9 41.6 11.87 12.39 14.93 15.58 50

Total 15.96 16.65 20.08 20.95

Data as shown in Table 6.75 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.76: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-53 J-220 J-3 DI 135 89 450 16.65 1.212 E
P-54 J-220 PMP-Sant DI 135 1,627 450 16.65 1.212 E

142
 Tukaram
PMP-Sant
P-55 Landewadi DI 135 12 450 16.65 1.212 E
Tukaram
FCV-Sant
Tukaram
P-124 J-3 DI-K9 135 337 500 12.39 0.73 N
Nagar
New
FCV-Sant
Tukaram
P-125 H-73 DI-K9 135 2 500 12.39 0.73 N
Nagar
New
Sant
Tukaram
P-126 H-73 DI-K9 135 2 500 12.39 0.73 N
Nagar
New
FCV-Sant
P-480 J-3 DI 135 20 500 4.27 0.251 E
Tukaram
FCV-Sant
P-481 H-72 DI 135 4 500 4.27 0.251 E
Tukaram
Sant
P-482 H-72 DI 135 4 500 4.27 0.251 E
Tukaram

Table 6.77: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Sant Tukaram Nagar
618.5 12.39 4.32
New
Sant Tukaram 611.4 4.27 11.73
J-220 594.6 0 28.82
J-3 594.24 0 28.86

(2)ESRs Indrayaninagar_a and Ashram

Pipeline network is shown in Figure 6.40. Levels and demands are shown in Table 6.78.

Figure 6.40: Pipe network

Table 6.78: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)

143
 1 Indrayaninagar a 623.24 582.2 41.04 4.82 5.03 6.06 6.33 50
2 Ashram 610.93 582.2 28.73 3.39 3.54 4.26 4.45 50
Total 8.21 8.57 10.33 10.78

Data as shown in Table 6.78 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.79: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
FCV-
P-108 J-15 Indrayanin DI 135 7 300 5.03 0.823 E
agar a
P-109 J-18 J-221 DI 135 301 400 8.56 0.789 E
P-110 J-22 J-21 DI 135 392 400 8.56 0.789 E
P-111 J-24 J-22 DI 135 249 400 8.56 0.789 E
P-112 J-26 J-24 DI 135 111 400 8.56 0.789 E
P-113 J-21 J-20 DI 135 841 400 8.56 0.789 E
P-114 J-236 J-18 DI 135 108 400 8.56 0.789 E
P-115 J-20 J-236 DI 135 206 400 8.56 0.789 E
Gavali
PMP-
P-233 Matha DI 135 7 500 8.56 0.505 E
Ashram
Sump
PMP-
P-234 J-26 DI 135 9 500 8.56 0.505 E
Ashram
P-277 J-221 J-15 DI 135 67 400 5.03 0.463 E
P-387 J-12 J-14 DI 135 384 400 3.54 0.326 E
P-388 J-14 J-13 DI 135 307 400 3.54 0.326 E
P-389 J-221 J-249 DI 135 301 400 3.54 0.326 E
P-390 J-249 J-12 DI 135 111 400 3.54 0.326 E
FCV-
P-391 J-251 DI 135 14 400 3.54 0.326 E
Ashram
P-392 J-251 J-13 DI 135 458 400 3.54 0.326 E
P-393 Ashram H-70 DI 135 4 400 3.54 0.326 E
FCV-
P-394 H-70 DI 135 5 400 3.54 0.326 E
Ashram
FCV-
P-422 Indrayanin H-69 DI 135 2 500 5.03 0.296 E
agar a
Indrayanin
P-423 H-69 DI 135 2 500 5.03 0.296 E
agar a

Table 6.80: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Indrayaninagar
623.24 5.03 7.05
a
Ashram 610.93 3.54 18.93
J-15 604 0 26.27

144
 J-221 604 0 26.27
J-249 601 0 29.17
J-12 599.59 0 30.55
J-18 599.92 0 30.86
J-236 597.08 0 33.85
J-14 595.29 0 34.72
J-20 594.93 0 36.29
J-21 594.5 0 37.55
J-13 591.53 0 38.39
J-251 589.05 0 40.76
J-22 589.51 0 43.11
J-24 584.98 0 47.99
J-26 583.85 0 49.28

(3)ESRs Dighi_Magzine

Pipeline network is shown in Figure 6.41. Levels and demands are shown in Table 6.81.

Figure 6.41: Pipe network

Table 6.81: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Dighi_Magzine 630.36 576.9 53.46 2.16 2.25 2.72 2.84 60

Data as shown in Table 6.81 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.82: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP-
P-544 Landewadi DI 135 8 450 2.25 0.164 E
Dighi_Mag

145
 zine
PMP- FCV-
P-545 Dighi_Mag Dighi_Mag DI 135 3,537 450 2.25 0.164 E
zine zine
FCV-
P-560 Dighi_Mag H-68 DI 135 3 500 2.25 0.133 E
zine
Dighi_Mag
P-561 H-68 DI 135 4 500 2.25 0.133 E
zine

Table 6.83: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Dighi_Magzine 630.36 2.25 7.38

(4)ESRs Dighi

Pipeline network is shown in Figure 6.42. Levels and demands are shown in Table 6.84.

Figure 6.42: Pipe network

Table 6.84: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Dighi 630.5 576.9 53.6 9.93 10.36 12.49 13.04 65

Data as shown in Table 6.84 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.85: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-48 J-1 J-6 DI 135 1,546 400 9.93 0.915 E
P-49 J-2 J-1 DI 135 452 400 9.93 0.915 E
P-50 J-5 J-2 DI 135 843 400 9.93 0.915 E
P-47 J-6 J-252 DI 135 447 400 9.93 0.915 E

146
 P-79 J-252 FCV-Dighi DI 135 284 400 9.93 0.915 E
P-80 FCV-Dighi H-74 DI 135 2 400 9.93 0.915 E
P-81 H-74 Dighi DI 135 3 400 9.93 0.915 E
P-51 J-5 PMP-Dighi DI 135 585 400 9.93 0.915 E
P-52 PMP-Dighi Landewadi DI 135 10 400 9.93 0.915 E

Table 6.86: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Dighi 630.5 9.93 6.31
J-252 604 0 33.26
J-6 601.99 0 36.12
J-2 589.46 0 52.43
J-1 585.97 0 55.06
J-5 587.68 0 55.82

(5)ESR Dighi Gaothan

Pipeline network is shown in Figure 6.39. Levels and demands are shown in Table 6.87.

Figure 6.43: Pipe network

Table 6.87: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Dighi Gaothan 631.4 576.9 54.5 3.56 3.71 4.48 4.67 65

Data as shown in Table 6.87 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.88: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
FCV-Dighi
P-162 J-239 DI 135 547 300 3.72 0.609 E
Gaothan
PMP-Dighi
P-160 Landewadi DI 135 14 300 3.72 0.609 E
Gaothan
P-161 PMP-Dighi J-239 DI 135 3,413 300 3.72 0.609 E

147
 Gaothan
FCV-Dighi
P-163 H-75 DI 135 5 300 3.72 0.609 E
Gaothan
Dighi
P-164 H-75 DI 135 4 300 3.72 0.609 E
Gaothan

Table 6.89: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Dighi
631.4 3.72 6.37
Gaothan
J-239 601.99 0 36.42

(6)ESR Bhosari Gaothan

Pipeline network is shown in Figure 6.44. Levels and demands are shown in Table 6.90.

Figure 6.44: Pipe network

Table 6.90: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Bhosari Gaothan 607.4 573.68 33.72 4.05 4.23 5.10 5.32 40

Data as shown in Table 6.90 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.91: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-143 J-222 J-10 DI 135 166 300 4.22 0.691 E
FCV-
P-487 J-222 Bhosari DI 135 45 500 4.22 0.249 E
Gaothan

148
 FCV-
P-488 Bhosari H-71 DI 135 3 500 4.22 0.249 E
Gaothan
Bhosari
P-489 H-71 DI 135 4 500 4.22 0.249 E
Gaothan
Sump- PMP-
P-490 DI 135 6 500 4.22 0.249 E
Bhosari Bhosari
PMP-
P-491 J-10 DI 135 8 500 4.22 0.249 E
Bhosari

Table 6.92: Junction results

Elevation Demand Pressure

Label
(m) (ML/day) (m H2O)
Bhosari
607.4 4.22 6.97
Gaothan
J-222 582.6 0 31.72
J-10 578.68 0 35.97

(7)ESR Bopkhel

Pipeline network is shown in Figure 6.45. Levels and demands are shown in Table 6.93.

Figure 6.45: Pipe network

Table 6.93: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
1 Bopkhel 594.33 573.15 21.18 5.2 5.43 6.54 6.83 30
Data as shown in Table 6.93 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.94: Pipe results

Hazen- Length Diameter Flow Velocity
Label Start Node Stop Node Material P_EN
Williams (Scaled) (mm) (Absolute) (m/s)

149
 C (m) (ML/day)
PMP- FCV-
P-680 DI 135 10 500 0 0 E
Bopkhel Bopkhel
P-693 H-76 Bopkhel DI 135 3 500 0 0 E
FCV-
P-689 H-76 DI 135 3 500 0 0 E
Bopkhel
Bopkhel PMP-
P-712 DI 135 5 500 0 0 E
Sump Bopkhel

Table 6.95: Junction results

Elevation Demand Pressure
Label
(m) (ML/day) (m H2O)
Bopkhel 598.33 0 15.29

Design of Sump at Bhosari:

With 2hours of detention time, volume = 6.83*1000/12= 569.1 m3. With 4m water depth,
area = 142.3 m2. And diameter = (4*Area/3.14)^0.5 = 13.4 say 14 m.

Design of Sump at Landewadi:

ESRs that are pumped are shown in Table 6.96

Table 6.96: ESRs on Landewadi sump

Demand Demand
Demand of Demand of
SN ESR Label of 2030 2030* of 2045 2045*
(ML) 24/23 (ML) 24/23
(ML) (ML)
1 Sant Tukaram Nagar New 11.87 12.39 14.93 15.58
2 Sant Tukaram 4.09 4.27 5.15 5.37
3 Dighi_Magzine 2.16 2.25 2.72 2.84
4 Dighi Gaothan 3.56 3.71 4.48 4.67
5 Dighi 9.93 10.36 12.49 13.04
Total 31.61 32.98 39.77 41.50
With 2hours of detention time, volume = 41.5*1000/12= 3458.3 m3. With 4m water depth,
area = 864.6 m2. And diameter = (4*Area/3.14)^0.5 = 33.1 Say 33 m.

Design of Sump at Gavalimatha:

ESRs that are pumped are: Indrayaninagar a and Ashram

With 2 hours of detention time, volume = 10.78*1000/12= 898.3m3. With 4m water depth,
area = 224.6 m2. And diameter = (4*Area/3.14)^0.5 = 16.91 Say 17 m.

Redundant Lines:

There are two pipelines- (1) from Gavalimatha sump to WD4 Esrs (Figure 6.46) and (2) From
junction J-614 to Bhopkhel Sump (Figure 6.47). These lines are not in use and hence these
lines are not considered in the design.
150
 Figure 6.46: Pipe network

Figure 6.47: Pipe network

Adequacy of gravity main from WTP to Sumps up to Bhopkhel

This gravity main is shown in Figure 6.48.

151
 Figure 6.48: Gravity main from WTP to Sump Sector 96
Design for Year 2045:

With the demand of 2045, model is run. Pipe results and junction results are shown in Table
6.97 and 6.98 respectively.

Table 6.97: Pipe results

Length Flow
Start Hazen- Diameter Velocity
Label Stop Node Material (Scaled) (Absolute) P_EN
Node Williams C (mm) (m/s)
(m) (ML/day)
Sump_Ga
P-634 J-75 vali DI 135 16 500 0 0 E
Matha
Sump_Ga
P-633 J-27 vali DI 135 17 500 0 0 E
Matha
P-639 J-28 J-75 DI 135 21 600 0 0 E
P-640 J-28 J-27 DI 135 16 600 0 0 E
FCV-
P-377 J-309 1Bopkhel DI 135 2,235 350 0 0 E
Sump
FCV-
P-376 1Bopkhel H-77 DI 135 4 350 0 0 E
Sump
P-693 H-76 Bopkhel DI 135 3 500 0 0 E
P-442 J-325 J-309 DI 135 1,397 400 0 0 E
P-583 J-30 J-325 DI 135 2,726 600 0 0 E
P-605 J-262 J-30 DI 135 6 900 0 0 E
P-606 J-153 J-262 DI 135 4,366 900 0 0 E
P-7 S1 J-263 DI 135 193 1,000.00 0 0 E
P-607 J-173 J-153 DI 135 1,572 1,000.00 0 0 E
P-609 J-263 J-185 DI 135 1,234 1,000.00 0 0 E
P-608 J-185 J-173 DI 135 669 1,000.00 0 0 E
PMP- FCV-
P-680 DI 135 10 500 0 0 E
Bopkhel Bopkhel

152
 Sump_Bo
P-375 H-77 DI 135 4 350 0 0 E
pkhel
P-599 J-29 J-16 DI 135 2,556 450 0 0 E
P-631 J-30 J-29 DI 135 7 900 0 0 E
FCV-
P-689 H-76 DI 135 3 500 0 0 E
Bopkhel
P-697 H-81 J-28 DI 135 4 750 0 0 E
FCV-
P-694 J-262 Gavali DI 135 22 750 0 0 E
Matha
P-614 J-325 J-8 DI 135 532 600 0 0 E
FCV-
P-686 Gavali H-81 DI 135 3 750 0 0 E
Matha
Bopkhel PMP-
P-712 DI 135 5 500 0 0 E
Sump Bopkhel

Table 6.98: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)
0 J-263 609.94 0 2.36
0 J-173 603.53 0 8.76
0 J-185 597.22 0 15.06
33 Bopkhel 598.33 0 15.29
0 J-153 594.71 0 17.56
113 Sump_Gavali Matha 583.54 0 28.71
0 J-27 583.47 0 28.77
0 J-75 583.37 0 28.88
0 J-28 583.32 0 28.93
0 J-262 583.2 0 29.05
0 J-30 583.1 0 29.14
0 J-29 583.02 0 29.22
0 J-16 582.9 0 29.35
0 J-309 579.86 0 32.38
0 J-325 579.38 0 32.86
0 J-8 578.1 0 34.14
119 Sump_Bopkhel 577.16 0 35.08

Design for Year 2030:

With the demand of 2030, model is run. Pipe results and junction results are shown in Table
6.99 and 6.100 respectively.

Table 6.99: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
Sump_Gav
P-634 J-75 DI 135 16 500 0 0 E
ali Matha
Sump_Gav
P-633 J-27 DI 135 17 500 0 0 E
ali Matha
P-639 J-28 J-75 DI 135 21 600 0 0 E

153
 P-640 J-28 J-27 DI 135 16 600 0 0 E
FCV-
P-377 J-309 1Bopkhel DI 135 2,235 350 0 0 E
Sump
FCV-
P-376 1Bopkhel H-77 DI 135 4 350 0 0 E
Sump
P-693 H-76 Bopkhel DI 135 3 500 0 0 E
P-442 J-325 J-309 DI 135 1,397 400 0 0 E
P-583 J-30 J-325 DI 135 2,726 600 0 0 E
P-605 J-262 J-30 DI 135 6 900 0 0 E
P-606 J-153 J-262 DI 135 4,366 900 0 0 E
P-7 S1 J-263 DI 135 193 ####### 0 0 E
P-607 J-173 J-153 DI 135 1,572 ####### 0 0 E
P-609 J-263 J-185 DI 135 1,234 ####### 0 0 E
P-608 J-185 J-173 DI 135 669 ####### 0 0 E
PMP- FCV-
P-680 DI 135 10 500 0 0 E
Bopkhel Bopkhel
Sump_Bop
P-375 H-77 DI 135 4 350 0 0 E
khel
P-599 J-29 J-16 DI 135 2,556 450 0 0 E
P-631 J-30 J-29 DI 135 7 900 0 0 E
FCV-
P-689 H-76 DI 135 3 500 0 0 E
Bopkhel
P-697 H-81 J-28 DI 135 4 750 0 0 E
FCV-Gavali
P-694 J-262 DI 135 22 750 0 0 E
Matha
P-614 J-325 J-8 DI 135 532 600 0 0 E
FCV-Gavali
P-686 H-81 DI 135 3 750 0 0 E
Matha
Bopkhel PMP-
P-712 DI 135 5 500 0 0 E
Sump Bopkhel

Table 6.100: Junction results

Label Elevation (m) Demand (ML/day) Pressure (m H2O)
J-263 609.94 0 2.36
J-173 603.53 0 8.76
J-185 597.22 0 15.06
Bopkhel 598.33 0 15.29
J-153 594.71 0 17.56
Sump_Gavali Matha 583.54 0 28.71
J-27 583.47 0 28.77
J-75 583.37 0 28.88
J-28 583.32 0 28.93
J-262 583.2 0 29.05
J-30 583.1 0 29.14
J-29 583.02 0 29.22
J-16 582.9 0 29.35
J-309 579.86 0 32.38
J-325 579.38 0 32.86
J-8 578.1 0 34.14
Sump_Bopkhel 577.16 0 35.08
It is observed that velocity is not crossing 1.8 m/s and residual pressures are enough. Hence,
sizing of pipeline is OK,

6.3.6 ESRs on Krishna Nagar Sump

ESRs on the KrishnaNagar line are shown in Figure 6.49 and Table 6.101.

154
 Figure 6.49: ESRs on the KrishnaNagar sump

Table 6.101: ESRs on the KrishnaNagar sump

Demand Demand Remark

Demand Demand
of 2030* of 2045*
SN Label of 2030 of 2045
24/23 24/23
(ML) (ML)
(ML) (ML)
1 Ajmera-1 6.33 6.61 7.96 8.31
2 Ajmera-2 5.77 6.02 7.26 7.57
3 Annasaheb_Magar 3.83 4.00 4.82 5.03
4 Triveni Nagar1 6.76 7.05 8.50 8.87
5 Triveni Nagar2 8.48 8.85 10.67 11.13
6 Kasarwadi1 1.84 1.92 2.31 2.42
7 Khandoba-1 0 0.00 0.00 0.00 Direct from S1
8 Khandoba-2 0 0.00 0.00 0.00 Direct from S1
9 Mahendra & Mahendra 5.06 5.28 6.37 6.64
10 NewJadhavwadi ESR 14.23 14.85 17.90 18.68 Direct from S1
11 Morewasti Chikhli 8.83 9.21 11.11 11.59
12 Nehru Nagar1 3.3 3.44 4.15 4.33
13 Nehru Nagar2 2.82 2.94 3.55 3.70
14 Rupi Nagar 10.67 11.13 13.42 14.01
15 Sachin1 3.5 3.65 4.40 4.59
16 Sachin2 4.34 4.53 5.46 5.70
17 Shahu Nagar 7.07 7.38 8.89 9.28
18 Kudalwadi New4 5.91 6.17 7.44 7.76 Direct from S1
Total 98.74 103.03 124.22 129.62

155
(1)ESR on Krishna Nagar

Pipeline network is shown in Figure 6.50. Levels and demands are shown in Table 6.102.

Figure 6.50: Pipe network

Table 6.102: Demands and levels

Demand Demand
Demand of Demand of
SN Label of 2030 2030* of 2045 2045*
(ML) 24/23 (ML) 24/23
(ML) (ML)
1 Ajmera-1 6.33 6.61 7.96 8.31
2 Ajmera-2 5.77 6.02 7.26 7.57
3 Annasaheb_Magar 3.83 4.00 4.82 5.03
4 Triveni Nagar1 6.76 7.05 8.50 8.87
5 Triveni Nagar2 8.48 8.85 10.67 11.13
6 Kasarwadi1 1.84 1.92 2.31 2.42
Mahendra &
7 5.06 5.28 6.37 6.64
Mahendra
8 Morewasti Chikhli 8.83 9.21 11.11 11.59
9 Nehru Nagar1 3.3 3.44 4.15 4.33
10 Nehru Nagar2 2.82 2.94 3.55 3.70
11 Rupi Nagar 10.67 11.13 13.42 14.01
12 Sachin1 3.5 3.65 4.40 4.59

156
 13 Sachin2 4.34 4.53 5.46 5.70
14 Shahu Nagar 7.07 7.38 8.89 9.28
Total 78.6 82.02 98.89 103.18

Pump data is shown in Table 6.102 a.

Table 6.102: Demands and levels

Flow Pump
Label (Total) Head
(ML/day) (m)
PMP-Sachin2 4.34 30.8
PMP-Triveni Nagar 15.24 25.68
PMP-Sachin1 3.5 30.79
PMP-Rupi Nagar 10.67 30.81
PMP-Morewasti
8.83 30.8
Chikhli
PMP-Shahu Nagar 7.07 30.83

Data as shown in Table 6.102 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.103: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
PMP-
P-13 J-166 Triveni DI 135 793 400 15.24 1.404 E
Nagar
PMP- Krishna
P-14 Triveni Nagar DI 135 14 400 15.24 1.404 E
Nagar Sump
P-131 J-41 J-44 DI 135 101 700 22.63 0.68 E
P-132 J-33 J-35 DI 135 12 700 22.63 0.68 E
P-133 J-35 J-41 DI 135 372 700 22.63 0.68 E
P-134 J-32 J-33 DI 135 179 700 22.63 0.68 E
FCV-Rupi
P-149 H-91 DI 135 4 500 10.67 0.629 E
Nagar
Rupi
P-150 H-91 DI 135 4 500 10.67 0.629 E
Nagar
Krishna
PMP-Rupi
P-151 Nagar DI 135 10 500 10.67 0.629 E
Nagar
Sump
PMP-Rupi FCV-Rupi
P-152 DI 135 46 500 10.67 0.629 E
Nagar Nagar
FCV-
P-184 J-218 DI 135 4 400 5.77 0.532 E
Ajmera-2
FCV-
P-185 Ajmera-2 DI 135 9 400 5.77 0.532 E
Ajmera-2
P-186 J-66 J-80 DI 135 328 400 5.77 0.532 E
P-187 J-56 J-63 DI 135 133 400 5.77 0.532 E
P-188 J-63 J-66 DI 135 106 400 5.77 0.532 E
P-189 J-44 J-56 DI 135 375 400 5.77 0.532 E
P-190 J-80 J-218 DI 135 38 400 5.77 0.532 E
P-195 FCV- H-92 DI 135 4 500 8.83 0.521 E

157
 Morewasti
Chikhli
Morewasti
P-196 H-92 DI 135 5 500 8.83 0.521 E
Chikhli
Krishna PMP-
P-197 Nagar Morewasti DI 135 9 500 8.83 0.521 E
Sump Chikhli
PMP- FCV-
P-198 Morewasti Morewasti DI 135 54 500 8.83 0.521 E
Chikhli Chikhli
P-209 J-44 J-46 DI 135 63 700 16.85 0.507 E
FCV-
P-210 J-166 Triveni DI 135 27 500 8.48 0.5 E
Nagar2
FCV-
P-211 Triveni H-94 DI 135 3 500 8.48 0.5 E
Nagar2
Triveni
P-212 H-94 DI 135 4 500 8.48 0.5 E
Nagar2
FCV-
P-261 Ajmera-1 DI 135 4 450 6.33 0.46 E
Ajmera-1
P-262 J-45 J-59 DI 135 381 450 6.33 0.46 E
P-263 J-69 J-81 DI 135 330 450 6.33 0.46 E
P-264 J-59 J-64 DI 135 129 450 6.33 0.46 E
P-265 J-64 J-69 DI 135 105 450 6.33 0.46 E
FCV-
P-266 J-81 DI 135 13 450 6.33 0.46 E
Ajmera-1
P-309 J-94 J-89 DI 135 235 900 22.63 0.412 E
P-310 J-133 J-131 DI 135 23 900 22.63 0.412 E
P-311 J-131 J-101 DI 135 581 900 22.63 0.412 E
P-312 J-101 J-97 DI 135 296 900 22.63 0.412 E
P-313 J-97 J-94 DI 135 339 900 22.63 0.412 E
P-314 J-156 J-133 DI 135 618 900 22.63 0.412 E
P-315 J-161 J-156 DI 135 194 900 22.63 0.412 E
Krishna
P-316 Nagar J-161 DI 135 648 900 22.63 0.412 E
Sump
P-317 J-89 J-87 DI 135 294 900 22.63 0.412 E
P-318 J-87 J-32 DI 135 1,378 900 22.63 0.412 E
FCV-
P-319 J-166 Triveni DI 135 10 500 6.76 0.398 E
Nagar1
FCV-
P-320 Triveni H-95 DI 135 2 500 6.76 0.398 E
Nagar1
Triveni
P-321 H-95 DI 135 3 500 6.76 0.398 E
Nagar1
P-332 J-46 J-7 DI 135 229 700 13.02 0.392 E
Krishna
PMP-
P-383 Nagar DI 135 19 450 4.34 0.316 E
Sachin2
Sump
PMP- FCV-
P-384 DI 135 32 450 4.34 0.316 E
Sachin2 Sachin2
FCV-
P-385 H-90 DI 135 4 450 4.34 0.316 E
Sachin2
P-386 H-90 Sachin2 DI 135 3 450 4.34 0.316 E
FCV-
Mahendra
P-411 J-307 DI-K7 135 1,246 500 5.06 0.298 N
&
Mahendra
FCV-
Mahendra
P-412 H-85 DI-K7 135 4 500 5.06 0.298 N
&
Mahendra
Mahendra
P-413 H-85 & DI-K7 135 4 500 5.06 0.298 N
Mahendra
P-414 FCV-Shahu H-93 DI 135 4 600 7.07 0.289 E

158
 Nagar
Shahu
P-415 H-93 DI 135 5 600 7.07 0.289 E
Nagar
Krishna PMP-
P-416 Nagar Shahu DI 135 14 600 7.07 0.289 E
Sump Nagar
PMP-
FCV-Shahu
P-417 Shahu DI 135 85 600 7.07 0.289 E
Nagar
Nagar
P-424 J-7 J-47 DI 135 44 600 6.9 0.283 E
P-425 J-47 J-307 DI 135 375 600 6.9 0.283 E
FCV-Nehru
P-516 J-253 DI 135 25 500 3.3 0.194 E
Nagar1
FCV-Nehru Nehru
P-517 DI 135 9 500 3.3 0.194 E
Nagar1 Nagar1
P-518 J-42 J-45 MS 120 80 700 6.33 0.19 E
P-519 J-132 J-110 MS 120 578 700 6.33 0.19 E
P-520 J-88 J-36 MS 120 1,376 700 6.33 0.19 E
P-521 J-110 J-98 MS 120 293 700 6.33 0.19 E
P-522 J-36 J-37 MS 120 181 700 6.33 0.19 E
P-523 J-90 J-88 MS 120 294 700 6.33 0.19 E
P-524 J-162 J-159 MS 120 180 700 6.33 0.19 E
P-525 J-159 J-135 MS 120 628 700 6.33 0.19 E
P-526 J-95 J-90 MS 120 236 700 6.33 0.19 E
P-527 J-38 J-42 MS 120 373 700 6.33 0.19 E
P-528 J-98 J-95 MS 120 335 700 6.33 0.19 E
P-529 J-135 J-132 MS 120 13 700 6.33 0.19 E
P-530 J-37 J-38 MS 120 12 700 6.33 0.19 E
Krishna
P-531 Nagar J-162 MS 120 691 700 6.33 0.19 E
Sump
P-532 J-253 J-7 DI 135 35 700 6.12 0.184 E
FCV-Nehru
P-542 J-253 DI 135 18 500 2.82 0.166 E
Nagar2
FCV-Nehru Nehru
P-543 DI 135 13 500 2.82 0.166 E
Nagar2 Nagar2
FCV-
P-554 H-89 DI 135 4 600 3.5 0.143 E
Sachin1
P-555 H-89 Sachin1 DI 135 4 600 3.5 0.143 E
Krishna
PMP-
P-556 Nagar DI 135 14 600 3.5 0.143 E
Sachin1
Sump
PMP- FCV-
P-557 DI 135 53 600 3.5 0.143 E
Sachin1 Sachin1
FCV-
P-568 J-39 Annasahe DI 135 17 700 3.83 0.115 E
b_Magar
FCV-
Annasahe
P-569 Annasahe DI 135 6 700 3.83 0.115 E
b_Magar
b_Magar
P-570 J-46 J-39 DI 135 164 700 3.83 0.115 E
P-586 J-54 J-53 DI 135 62 600 1.84 0.075 E
P-587 J-49 J-51 DI 135 47 600 1.84 0.075 E
P-588 J-54 J-57 DI 135 492 600 1.84 0.075 E
P-589 J-60 J-55 DI 135 195 600 1.84 0.075 E
P-590 J-53 J-51 DI 135 416 600 1.84 0.075 E
P-591 J-307 J-49 DI 135 368 600 1.84 0.075 E
Kasarwadi
P-593 H-86 DI-K7 135 5 600 1.84 0.075 N
1
FCV-
P-585 J-55 Kasarwadi DI-K7 135 37 600 1.84 0.075 N
1
FCV-
P-592 Kasarwadi H-86 DI-K7 135 4 600 1.84 0.075 N
1
P-604 J-57 J-60 DI 135 56 700 1.84 0.055 E

159
Table 6.104: Junction results
J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)
3 Annasaheb_Magar 604.9 3.83 7.91
48 Mahendra & Mahendra 604.5 5.06 7.98
2 Ajmera-2 603.92 5.77 8.22
81 Shahu Nagar 636.5 7.07 8.32
54 Nehru Nagar1 604.14 3.3 8.62
51 Morewasti Chikhli 636.16 8.83 8.62
55 Nehru Nagar2 604.12 2.82 8.64
74 Rupi Nagar 635.99 10.67 8.8
20 Triveni Nagar1 627.1 6.76 9.29
1 Ajmera-1 603.79 6.33 9.38
21 Triveni Nagar2 626.3 8.48 10.09
76 Sachin2 633.05 4.34 11.73
75 Sachin1 632.86 3.5 11.91
0 J-161 599.14 0 14.71
0 J-162 598.89 0 15.04
0 J-89 597.24 0 16.24
0 J-90 597.1 0 16.67
0 J-87 595.8 0 17.62
0 J-88 595.77 0 17.97
0 J-101 594.99 0 18.62
0 J-94 594.81 0 18.7
0 J-110 594.95 0 18.88
0 J-156 594.78 0 19.04
0 J-95 594.69 0 19.09
0 J-159 594.75 0 19.15
0 J-32 594.03 0 19.16
0 J-36 594.12 0 19.53
0 J-33 592.68 0 20.41
0 J-35 592.43 0 20.65
0 J-37 592.97 0 20.67
0 J-38 592.73 0 20.91
0 J-97 590.99 0 22.57
0 J-80 589.37 0 22.75
0 J-218 589.31 0 22.8
0 J-98 590.69 0 23.11
0 J-66 589.01 0 23.37
0 J-63 589.04 0 23.4
0 J-41 589.36 0 23.5
0 J-44 589.14 0 23.66
0 J-81 589.37 0 23.78
0 J-131 589.9 0 23.8
0 J-133 589.86 0 23.84
0 J-46 588.93 0 23.85
0 J-132 589.88 0 23.97
0 J-135 589.86 0 23.99
0 J-42 589.35 0 24.26
0 J-69 589.03 0 24.29
0 J-64 589.06 0 24.3
0 J-45 589.17 0 24.43
0 J-39 587.82 0 24.95
41 Kasarwadi1 586.07 1.84 26.58
0 J-56 585.05 0 27.47
0 J-166 608.72 0 27.64
0 J-59 585.34 0 28.08
0 J-253 584.63 0 28.1
0 J-7 584.29 0 28.43
0 J-47 583.6 0 29.11
0 J-49 579.24 0 33.42
0 J-51 579.18 0 33.47
0 J-307 575.17 0 37.48
0 J-53 569.96 0 42.66

160
 0 J-54 569.76 0 42.87
0 J-57 564.5 0 48.11
0 J-60 563.78 0 48.83
0 J-55 561.26 0 51.34

Design of Sump at Krishnanagar

With 2hours of detention time, volume = 103.18*1000/12=8598.3 m3. With 4m water depth,
area = 2149.6 m2. And diameter = (4*Area/3.14)^0.5 = 52.3 say 53 m.

(2)ESR on Jadhavwadi Sump

Pipeline network is shown in Figure 6.51. Levels and demands are shown in Table 6.105.

Figure 6.51: Pipe network

Table 6.105: Demands and levels

Demand Demand
Demand Demand
FSL of LSL of Static of 2030* of 2045* Design
SN Pump of 2030 of 2045
tank (m) sump (m) head (m) 24/23 24/23 Head (m)
(ML) (ML)
(ML) (ML)
NewJadhavwadi
1
ESR
620.94 587.32 33.62 14.23 14.85 17.90 18.68 40

2 Kudalwadi New4 603 587.32 15.68 5.91 6.17 7.44 7.76 40

Total 20.14 21.02 25.34 26.44

Data as shown in Table 6.105 is fed to the model and model run is obtained.

Design for year 2030:

161
Table 6.106: Pipe results
Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
New
PMP- Sump-
P-728 DI-K9 135 8 400 21.01 1.935 N
Jadhvwadi Jadhavwa
di
P-729 J-77 H-100 DI-K9 135 1,070 400 21.01 1.935 N
PMP-
P-730 H-100 DI-K9 135 9 400 21.01 1.935 N
Jadhvwadi
P-39 J-77 J-306 DI-K9 135 2,162 400 14.2 1.308 N
P-60 J-23 J-76 DI 135 10 300 6.8 1.114 E
P-61 J-77 J-23 DI 135 2,223 300 6.8 1.114 E
P-123 J-306 J-76 DI-K9 135 52 400 8.04 0.74 N
FCV-
P-169 J-76 NewJadha DI 135 5 600 14.84 0.608 E
vwadi ESR
FCV-
P-170 NewJadha H-82 DI 135 2 600 14.84 0.608 E
vwadi ESR
NewJadha
P-171 H-82 DI 135 2 600 14.84 0.608 E
vwadi ESR
FCV-
P-372 Kudalwadi J-306 DI-K9 135 36 500 6.16 0.363 N
New4
Kudalwadi
P-373 H-83 DI-K9 135 2 500 6.16 0.363 N
New4
FCV-
P-374 H-83 Kudalwadi DI-K9 135 3 500 6.16 0.363 N
New4

Table 6.107: Junction results

Elevation Demand Pressure
J_Tank_ID Label
(m) (ML/day) (m H2O)
NewJadhavwadi
49 620.94 14.84 6.28
ESR
Kudalwadi
88 615 6.16 12.27
New4
0 J-306 603.76 0 23.49
0 J-23 601.16 0 26.03
0 J-76 600.37 0 26.81
0 J-77 592.4 0 42.83
Design of Sump at Jadhavwadi:
With 2hours of detention time, volume = 26.44*1000/12= 2203.3 m3. With 4m water depth,
area = 550.8 m2. And diameter = (4*Area/3.14)^0.5 = 26.4 say 26 m.

(3)ESR on S1-Jadhavwadi Sump Line

Pipeline network is shown in Figure 6.52. Levels and demands are shown in Table 6.108.

162
 Figure 7.52: Pipe network

Table 6.108: Demands and levels

Demand of Demand of
Demand of Demand of
Label 2030 (ML)
2030*
2045 (ML)
2045*
24/23 (ML) 24/23 (ML)
Sump-
21.02 21.93 26.44 27.59
Jadhavwadi
Khandoba-1 7 7.30 8.81 9.19
Khandoba-2 8.08 8.43 10.17 10.61
Total 36.1 37.67 45.42 47.39

Data as shown in Table 6.108 is fed to the model and model run is obtained.

Design for year 2045:

Table 6.109: Pipe results
Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-13665 J-244 H-112 DI 135 77 500 26.44 1.559 N
P-13666 H-112 FCV-141 DI 135 2 500 26.44 1.559 N
Sump-
P-13664 FCV-141 Jadhavwa DI 135 12 500 26.44 1.559 N
di
P-88 J-147 J-254 DI 135 1,274 500 18.97 1.118 E
P-450 J-160 J-148 DI 135 80 900 45.41 0.826 E
P-704 J-244 J-118 DI 135 256 700 26.44 0.795 E
P-687 J-148 J-144 DI 135 166 700 26.44 0.795 E
P-705 J-136 J-130 DI 135 138 700 26.44 0.795 E
P-706 J-144 J-136 DI 135 342 700 26.44 0.795 E
P-707 J-130 J-118 DI 135 305 700 26.44 0.795 E
P-505 R-Phase3 PMP-635 DI 135 18 600 15.14 0.62 E
P-506 PMP-635 J-205 DI 135 24 600 15.14 0.62 E
P-507 R-Phase3 PMP-635 DI 135 17 600 15.14 0.62 E
P-508 PMP-635 J-205 DI 135 23 600 15.14 0.62 E
P-509 R-Phase3 PMP-635 DI 135 18 600 15.14 0.62 E
P-510 PMP-635 J-205 DI 135 22 600 15.14 0.62 E
FCV-
P-268 J-254 Khandoba- MS 120 66 500 10.17 0.599 E
2

163
 FCV-
P-269 Khandoba- H-88 MS 120 7 500 10.17 0.599 E
2
Khandoba-
P-270 H-88 MS 120 7 500 10.17 0.599 E
2
FCV-
P-328 J-254 Khandoba- MS 120 20 500 8.8 0.519 E
1
FCV-
P-329 Khandoba- H-87 MS 120 4 500 8.8 0.519 E
1
Khandoba-
P-330 H-87 MS 120 5 500 8.8 0.519 E
1
P-546 J-165 J-160 MS 120 794 1,200.00 45.41 0.465 E
P-547 J-183 J-171 MS 120 646 1,200.00 45.41 0.465 E
P-548 J-192 J-183 MS 120 328 1,200.00 45.41 0.465 E
P-549 J-194 J-197 MS 120 354 1,200.00 45.41 0.465 E
P-550 J-205 J-197 MS 120 389 1,200.00 45.41 0.465 E
P-551 J-194 J-192 MS 120 147 1,200.00 45.41 0.465 E
P-552 J-171 J-265 MS 120 537 1,200.00 45.41 0.465 E
P-553 J-265 J-165 MS 120 258 1,200.00 45.41 0.465 E
P-451 J-145 J-147 DI 135 178 900 18.97 0.345 E
P-452 J-148 J-154 DI 135 150 900 18.97 0.345 E
P-453 J-154 J-155 DI 135 79 900 18.97 0.345 E
P-454 J-155 J-145 DI 135 501 900 18.97 0.345 E

Table 6.110: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)
0 J-160 612.84 0 19
0 J-154 611.97 0 19.85
45 Khandoba-2 607.84 10.17 21.12
0 J-205 611.39 0 21.27
0 J-155 609.17 0 22.63
0 J-148 608.76 0 23.08
44 Khandoba-1 605.29 8.8 23.71
0 J-165 604.65 0 27.32
0 J-197 604.89 0 27.5
0 J-265 604.39 0 27.62
0 J-171 604 0 28.11
0 J-144 602.84 0 28.9
0 J-194 602.47 0 29.85
0 J-145 599.63 0 32.1
0 J-192 599.72 0 32.57
0 J-183 597.5 0 34.72
0 J-136 596.22 0 35.25
0 J-130 594.77 0 36.59
0 J-147 594.97 0 36.72
0 Sump-Jadhavwadi 591.59 26.44 39.07
0 J-118 591.03 0 40.09
0 J-244 589.59 0 41.42
0 J-254 584.28 0 44.7
Design for year 2030:

Table 6.111: Pipe results

Length Flow
Hazen- Diameter Velocity
Label Start Node Stop Node Material (Scaled) (Absolute) P_EN
Williams C (mm) (m/s)
(m) (ML/day)
P-13665 J-244 H-112 DI 135 77 500 21.02 1.239 N
P-13666 H-112 FCV-141 DI 135 2 500 21.02 1.239 N
Sump-
P-13664 FCV-141 Jadhavwa DI 135 12 500 21.02 1.239 N
di

164
 P-88 J-147 J-254 DI 135 1,274 500 15.08 0.889 E
P-450 J-160 J-148 DI 135 80 900 36.09 0.657 E
P-704 J-244 J-118 DI 135 256 700 21.02 0.632 E
P-687 J-148 J-144 DI 135 166 700 21.02 0.632 E
P-705 J-136 J-130 DI 135 138 700 21.02 0.632 E
P-706 J-144 J-136 DI 135 342 700 21.02 0.632 E
P-707 J-130 J-118 DI 135 305 700 21.02 0.632 E
P-505 R-Phase3 PMP-635 DI 135 18 600 12.03 0.493 E
P-506 PMP-635 J-205 DI 135 24 600 12.03 0.493 E
P-507 R-Phase3 PMP-635 DI 135 17 600 12.03 0.493 E
P-508 PMP-635 J-205 DI 135 23 600 12.03 0.493 E
P-509 R-Phase3 PMP-635 DI 135 18 600 12.03 0.493 E
P-510 PMP-635 J-205 DI 135 22 600 12.03 0.493 E
FCV-
P-268 J-254 Khandoba- MS 120 66 500 8.08 0.476 E
2
FCV-
P-269 Khandoba- H-88 MS 120 7 500 8.08 0.476 E
2
Khandoba-
P-270 H-88 MS 120 7 500 8.08 0.476 E
2
FCV-
P-328 J-254 Khandoba- MS 120 20 500 7 0.413 E
1
FCV-
P-329 Khandoba- H-87 MS 120 4 500 7 0.413 E
1
Khandoba-
P-330 H-87 MS 120 5 500 7 0.413 E
1
P-546 J-165 J-160 MS 120 794 1,200.00 36.09 0.369 E
P-547 J-183 J-171 MS 120 646 1,200.00 36.09 0.369 E
P-548 J-192 J-183 MS 120 328 1,200.00 36.09 0.369 E
P-549 J-194 J-197 MS 120 354 1,200.00 36.09 0.369 E
P-550 J-205 J-197 MS 120 389 1,200.00 36.09 0.369 E
P-551 J-194 J-192 MS 120 147 1,200.00 36.09 0.369 E
P-552 J-171 J-265 MS 120 537 1,200.00 36.09 0.369 E
P-553 J-265 J-165 MS 120 258 1,200.00 36.09 0.369 E
P-451 J-145 J-147 DI 135 178 900 15.08 0.274 E
P-452 J-148 J-154 DI 135 150 900 15.08 0.274 E
P-453 J-154 J-155 DI 135 79 900 15.08 0.274 E
P-454 J-155 J-145 DI 135 501 900 15.08 0.274 E

Table 6.112: Junction results

J_Tank_ID Label Elevation (m) Demand (ML/day) Pressure (m H2O)
0 J-160 612.84 0 19.56
0 J-154 611.97 0 20.42
0 J-205 611.39 0 21.54
45 Khandoba-2 607.84 8.08 22.67
0 J-155 609.17 0 23.2
0 J-148 608.76 0 23.64
44 Khandoba-1 605.29 7 25.25
0 J-165 604.65 0 27.83
0 J-197 604.89 0 27.87
0 J-265 604.39 0 28.12
0 J-171 604 0 28.57
0 J-144 602.84 0 29.49
0 J-194 602.47 0 30.23
0 J-145 599.63 0 32.69
0 J-192 599.72 0 32.96
0 J-183 597.5 0 35.14
0 J-136 596.22 0 35.92
0 J-130 594.77 0 37.3

165
 0 J-147 594.97 0 37.32
0 Sump-Jadhavwadi 591.59 21.02 40.02
0 J-118 591.03 0 40.88
0 J-244 589.59 0 42.25
0 J-254 584.28 0 46.23

Redundant Lines:

There are two pipelines- (1) from S1 to Triveni Esrs (Figure 6.53), (2) Inlet and outlets of
KrishnaNagar MBR (Figure 6.54) and (3) line joining old Jadhavwadi sump. These lines are
not in use and hence these lines are not considered in the design.

Figure 6.53: Pipe network

166
 Figure 6.54: Pipe network

Figure 6.55: Pipe network

6.3.7 ESRs on Kudalwadi Line

Source of water to these ERS is the proposed Bhama-Asked dam. ESRs on the Kudalwadi
line are shown in Figure 6.55 and Table 6.113.

167
 Figure 6.55: ESRs on the Kudalwadi line

Table 6.113: ESRs on the Kudalwadi line

Demand of Demand of
Demand of 2030* Demand of 2045*
SN Label 2030 (ML) 24/23 (ML) 2045 (ML) 24/23 (ML)
1 Gairan 6.53 6.81 8.22 8.57
Kudalwadi
2 New3 7.43 7.75 9.35 9.75
Kudalwadi
3 New2 7.65 7.98 9.62 10.04
Kudalwadi
4 New1 7.41 7.73 9.32 9.73
Total 29.02 30.28 36.51 38.10

6.3.8 ESR on Gairan

Pipeline network is shown in Figure 6.56. Levels and demands are shown in Table 6.102.

168
 Figure 6.56: Pipe network

Table 6.102: Demands and levels

Demand Demand of Demand of
FSL of LSL of Static Demand of Design
SN Pump of 2030 2030* 24/23 2045* 24/23
tank (m) sump (m) head (m) 2045 (ML) Head (m)
(ML) (ML) (ML)
1 Kudalwadi New1 607 578.86 28.14 7.41 7.732174 9.322379 9.7277 35
2 Kudalwadi New2 607 578.86 28.14 7.65 7.982609 9.624318 10.04277 35
Total 15.06 15.71478 18.9467 19.77047

Demand Demand of Demand of

FSL of LSL of Static Demand of Design
SN Pump of 2030 2030* 24/23 2045* 24/23
tank (m) sump (m) head (m) 2045 (ML) Head (m)
(ML) (ML) (ML)
1 Kudalwadi New3 615 578.86 36.14 7.43 7.753043 9.347541 9.753956 45
2 Gairan 620 578.86 41.14 6.53 6.813913 8.215268 8.572454 45
Total 13.96 14.56696 17.56281 18.32641
Data as shown in Table 6.102 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.103: Pipe results

Hazen- Length Flow
Diameter Velocity
Label Start Node Stop Node Material Williams (Scaled) (Absolute) P_EN
(mm) (m/s)
C (m) (ML/day)
P-271 Sump-Kudalwadi PMP-Kudalwadi1 DI-K9 135 5 700 15.71 0.473 N
P-272 PMP-Kudalwadi1 J-304 DI-K9 135 4 700 15.71 0.473 N
FCV-Kudalwadi
P-273 J-304 DI-K9 135 12 500 7.98 0.471 N
New2
FCV-Kudalwadi
P-274 H-99 DI-K9 135 3 500 7.98 0.471 N
New2
P-275 H-99 Kudalwadi New2 DI-K9 135 3 500 7.98 0.471 N
FCV-Kudalwadi
P-282 J-305 DI-K9 135 54 500 7.75 0.457 N
New3
FCV-Kudalwadi
P-283 H-97 DI-K9 135 6 500 7.75 0.457 N
New3
P-284 H-97 Kudalwadi New3 DI-K9 135 6 500 7.75 0.457 N
FCV-Kudalwadi
P-290 J-304 DI-K9 135 10 500 7.73 0.455 N
New1

169
 FCV-Kudalwadi
P-291 H-98 DI-K9 135 2 500 7.73 0.455 N
New1
P-292 H-98 Kudalwadi New1 DI-K9 135 3 500 7.73 0.455 N
P-299 Sump-Kudalwadi PMP-Kudalwadi2 DI-K9 135 5 700 14.56 0.438 N
P-300 PMP-Kudalwadi2 J-305 DI-K9 135 2,596 700 14.56 0.438 N
P-333 J-305 FCV-Gairan DI-K9 135 44 500 6.82 0.402 N
P-334 FCV-Gairan H-96 DI-K9 135 4 500 6.82 0.402 N
P-335 H-96 Gairan DI-K9 135 4 500 6.82 0.402 N

Table 6.104: Junction results

Elevation Demand Pressure
J_Tank_ID Label
(m) (ML/day) (m H2O)
84 Gairan 620 6.82 3.32
Kudalwadi
87 615 7.75 8.3
New3
Kudalwadi
86 607 7.98 11.97
New2
Kudalwadi
85 607 7.73 11.97
New1
0 J-305 590.11 0 33.17
0 J-304 582.8 0 36.13

Design of Sump at Gairan:

With 2hours of detention time, volume = 38.1*1000/12=3175 m3. With 4m water depth, area
= 793.7 m2. And diameter = (4*Area/3.14)^0.5 = 31.7 say 32 m.

6.3.9 Pradhikaran ESR

Pipeline network is shown in Figure 6.57. Levels and demands are shown in Table 6.105.

Figure 6.57: Pipe network

Table 6.105: Demands and levels

Demand of Demand of
FSL of tank LSL of Static head Demand of Demand of Design
SN Pump 2030* 2045*
(m) sump (m) (m) 2030 (ML) 2045 (ML) Head (m)
24/23 (ML) 24/23 (ML)
1 Pradhikaran 631 608.1 22.9 11.64 12.15 14.64 15.28 30

170
Data as shown in Table 6.105 is fed to the model and model run is obtained.

Design for year 2030:

Table 6.106: Pipe results
Hazen- Length Flow
Diameter Velocity
Label Start Node Stop Node Material Williams (Scaled) (Absolute) P_EN
(mm) (m/s)
C (m) (ML/day)
PMP-
P-243 J-266 MS 120 8 600 12.14 0.497 E
Pradhikaran
PMP-
P-244 R-Phase3 MS 120 12 600 12.14 0.497 E
Pradhikaran
P-245 J-266 J-267 MS 120 3 600 12.14 0.497 E
P-246 J-267 J-269 MS 120 17 600 12.14 0.497 E
P-247 J-268 J-277 MS 120 31 600 12.14 0.497 E
P-248 J-277 Pradhikaran DI-K9 135 40 600 12.14 0.497 N
P-486 J-269 J-268 MS 120 416 600 6.09 0.249 E
P-492 J-269 J-268 MS 120 420 600 6.06 0.248 E

Table 6.107: Junction results

Elevation Demand Pressure

J_Tank_ID Label
(m) (ML/day) (m H2O)
28 Pradhikaran 631.8 12.14 10.14
0 J-277 616.01 0 25.92
0 J-268 614.95 0 26.98
0 J-267 611.94 0 30.05
0 J-266 611.88 0 30.11
0 J-269 611.72 0 30.27

6.4 Summary

Figure 6.58: Transmission pipelines of all phases

171
Transmission pipelines of all phases are shown in Figure 6.58. Details of existing and new
transmission mains is shown in Table 6.108.

Table 6.108: Details of existing and new transmission mains

Diameter E N R Redundant Grand

(mm) Total
CI DI-K7 MS Total DI-K7 DI-K9 Total MS Total DI-K7 Total
200 2404 2404 2404
250 3163 3163 3163
300 91 7829 865 8785 448 14 462 9247
350 2563 2563 2563
400 11 25834 3886 29731 3301 3301 33032
450 12431 12431 72 72 12503
500 23 7450 7262 14735 18530 776 19306 19 19 34060
550 2746 2746 2746
600 15661 12863 28524 1841 96 1937 30461
700 4911 6575 11486 2424 2610 5034 18 18 1081 1081 17619
750 29 8511 8540 254 254 8794
800 2483 2483 2483
900 17817 479 18296 817 817 19113
1000 3844 14065 17909 5606 1030 6636 24545
1035 2822 2822 2822
1100 4878 4878 4878
1200 41 13993 14034 14034
1400 91 91 91
Grand Total 125 100814 84682 185621 29992 7827 37819 18 18 1100 1100 224558

New pipes to be laid in all the phases is 37837 m. The breakup- phase wise is shown in Table
6.109.

Table 6.109: Break up of new transmission mains

Diameter 40% 60% area
Grand Total
(mm) area Phase1 Phase2 Phase3
300 462 462
400 3301 3301
450 72 72
500 1146 2669 3152 12339 19306
600 316 31 1590 1937
700 193 4859 5052
750 254 254
900 423 394 817
1000 5606 1030 6636
Grand
6752 6479 5170 19436 37837
Total

172
Isolation Valves: Isolation valves (Butter fly) required in the transmission system are shown
in Table 6.106.

Table 6.106: Number of isolation valves

Diameter
Count
(mm)
200 1
300 9
350 2
400 13
450 7
500 60
600 13
700 2
750 1
800 1
1000 1
Grand
110
Total

Flow Controlling Valves in Transmission Mains:

Throttling valves required in the transmission system are shown in Table 6.107.

Table 6.107: Number of Flow controlling valves in 60% area

Number
Diameter
Total
(mm) Phase 1 Phase 2 Phase 3

300 1 11 12
350 4 4
400 2 12 14
450 1 6 7
500 17 16 31 64
600 1 1
600 12 12
700 1 1
750 1 1
800 1 1
900 1 1
1000 1 1
1200 2 2
Grand
21 49 51 121
Total

173
Bulk Meters in Transmission Mains:

Bulk meters required in the transmission system are shown in Table 6.108.

Table 6.108: Number of bulk meters

Diameter
Count
(mm)
200 1
300 8
350 2
400 13
450 7
500 60
600 13
700 2
750 1
800 1
1000 1
Grand
109
Total

Summary of pumps:

Summary of pumps is shown in Table 6.109

Table 6.109: Summary of pumps for the year 2030

Flow Head
Label (Design) (Design)
(ML/day) (m)
PMP-WTP_Phase3P 32 13
PMP-WTP_Phase3 32.2 13
PMP-WD4a,b,c 23.32 38
PMP-WTP_Sector10 84.56 10
PMP-Bopkhel 5.43 30
PMP-Sector 28 New 3.16 35
PMP-Dighi_Magzine 2.25 60
PMP-Sector7_10_b 3.04 40
PMP-Pimple Gurav Garden 2.98 35
PMP-Sachin1 3.65 30
PMP-Dighi Gaothan 3.71 65
PMP-Bhosari 4.23 40
PMP-Dapodi1 5.14 26
PMP-Sachin2 4.53 30
PMP-Dapodi2 2.95 26

174
PMP-Pimple Saudagar a 4.62 25
PMP-WTP_Ph3 41.04 16
PMP-WTP_Ph3 41.04 16
PMP-WTP_Ph3 41.04 16
PMP-Sector7_10_a 5.14 40
PMP_Mamurdi 5.21 55
PMP-PWD Sector 84 5.29 30
PMP-Punavale 7.81 40
PMP-Rahatni3 6.55 35
PMP-WTP_Phase3 6.8 35
PMP-Sector 96 6.88 35
PMP-Kala Khadak 7.23 40
PMP-Rahatni1 7.37 30
PMP-Shahu Nagar 7.38 30
PMP-Sector 96 Part 2 7.47 35
PMP-New Pimple Gurav
7.53 35
Garden
PMP-Kaveri Nagar 7.58 35
PMP-New sangvi police
7.42 30
Station
PMP-New_Punavale 5.85 45
PMP-Lakshman Nagar 2 8.47 30
PMP-Ashram 8.57 50
PMP-Rahatni2 8.77 35
PMP-Morewasti Chikhli 9.21 30
PMP-Pimple Saudagar b New 10.32 35
PMP-Kala Khadak New1 11.12 40
PMP-Rupi Nagar 11.13 30
PMP-Sector 96 New 11.26 35
PMP-Pradhikaran 12.12 30
PMP-Kala Khadak New 2 12.31 40
PMP-Pimple Gurao 13.02 30
PMP-Dighi 10.36 65
PMP-Lakshman Nagar 14.11 30
PMP-Kudalwadi2 14.57 45
PMP-Kudalwadi1 15.71 40
PMP-Triveni Nagar 15.9 25
PMP-Sant Tukaram 16.65 50
PMP-Jadhvwadi 20.32 60
PMP-GM_WD4 20.11 84.25
PMP-NewMBR 35.7 30

**

175
Chapter-7
Design of Distribution Network
7.1 All Pipes

All pipes in the distribution system of the PCMC are shown in Table 7.1. Existing (E),
New(N), Pipes to be cut (C) and pipes to be replaced(R) are shown in Figure 2 and Table 7.2.

Figure 7.1: All pipelines in the distribution network

Figure 7.2: All pipelines (existing and new) in the distribution network

176
Length of all pipes in the distribution system including 40% and 60% area is shown in Table
7.1.

Table 7.1: Length of all pipes in the distribution system including 40% and 60% area

Diameter Grand
New_60 Old_40 Old_40_A
(mm) Total
75 140 140
80 11145 6640 970 18755
99.3 252919 84955 16806 354680
100 282648 124318 40885 447851
144.4 87660 12292 3722 103674
150 149236 102728 21223 273187
175 411 1132 1543
180.6 66251 14465 5852 86568
200 71434 24680 6980 103094
250 30204 15192 1344 46740
300 139303 57386 15826 212515
350 11137 1853 2618 15608
400 54819 24217 3822 82858
450 14334 12047 1644 28025
500 23549 7112 2850 33511
600 16130 12634 1353 30117
700 3552 493 152 4197
750 184 184
800 1419 1419
1000 131 131
Grand
1216475 502144 126178 1844797
Total
* PCMC directed to include operational zones of Bijli Nagar a, Bijli Nagar b, Bijli Nagar c,
Pradhikaran and Premlok Park in 40% area. Hence pipes in this area is denoted as Old_40_A

177
Table 7.2: Length of all pipes in the distribution system with status of Existing (E), New(N), Pipes to be cut (C) and pipes to be replaced(R)

Diameter New_60 Old_40 Old_40_A

Grand Total
(mm)
C E N R Total C E N R Total C E N R Total
75 140 140 140
80 36 11109 11145 33 6607 6640 970 970 18755
99.3 11 241669 11239 252919 632 78464 5859 84955 14885 1921 16806 354680
100 964 281684 282648 389 123929 124318 41 40844 40885 447851
144.4 745 76661 10254 87660 10961 1331 12292 67 2263 1392 3722 103674
150 1468 146845 640 283 149236 785 101714 229 102728 125 21091 7 21223 273187
175 411 411 11 1121 1132 1543
180.6 231 60977 5043 66251 12780 1685 14465 4880 972 5852 86568
200 953 70481 71434 255 24425 24680 52 6928 6980 103094
250 342 29751 111 30204 307 14885 15192 53 1291 1344 46740
300 894 49009 80974 8426 139303 433 32184 24358 411 57386 110 8783 6909 24 15826 212515
350 74 4896 6155 12 11137 21 1357 475 1853 33 1808 777 2618 15608
400 509 15519 37622 1169 54819 116 11060 13020 21 24217 38 3784 3822 82858
450 304 10867 3163 14334 132 11748 167 12047 165 1479 1644 28025
500 755 8050 14659 85 23549 17 1812 5283 7112 2850 2850 33511
600 76 9310 6744 16130 93 10041 2487 13 12634 2 1032 319 1353 30117
700 3552 3552 464 29 493 121 31 152 4197
750 17 167 184 184
800 1419 1419 1419
1000 131 131 131
Grand Total 6403 639215 534235 36622 1216475 2592 341515 148688 9349 502144 581 84452 36836 4309 126178 1844797

178
7.2 Existing Pipes
The existing pipelines laid in the distribution network of the Pimpri-Chinchwad city are
shown in Figure 7.1.

Figure 7.1: Existing pipelines in the distribution network

Length of different pipes in the distribution system including 40% and 60% area
is shown in Table 7.1.

179
Table 7.1: Length of pipes in the distribution system including 40% and 60% area

Diameter Grand
CI DI HDPE MS
(mm) Total
75 140 140
80 18686 18686
99.3 632 632
100 427174 17664 1619 446457
144.4 67 745 812
150 240425 28714 511 269650
175 1532 1532
180.6 149 82 231
200 90232 6960 4642 101834
250 45165 762 45927
300 70759 8436 10781 89976
350 8061 8061
400 17762 3977 4878 26617
450 15147 2117 6830 24094
500 4162 2801 2899 9862
600 10413 3463 6507 20383
700 121 121
750 167 167
Grand
949874 75182 1459 38667 1065182
Total

Length of pipes in the distribution system area wise is shown in Table 7.2.

180
Table 7.2: Length of existing pipes in the distribution system area wise

Diameter New_60 Old_40 Old_40_A* Grand Total

(mm) CI DI HDPE MS Total CI DI HDPE MS Total CI DI MS Total
75 140 140 140
80 11109 11109 6607 6607 970 970 18686
99.3 632 632 632
100 266266 15310 108 281684 120064 2354 1511 123929 40844 40844 446457
144.4 745 745 67 67 812
150 130419 16228 198 146845 88915 12486 313 101714 21091 21091 269650
175 411 411 1121 1121 1532
180.6 149 82 231 231
200 61666 4173 4642 70481 21638 2787 24425 6928 6928 101834
250 29431 320 29751 14443 442 14885 1291 1291 45927
300 38170 2770 8069 49009 23806 5666 2712 32184 8783 8783 89976
350 4896 4896 1357 1357 1808 1808 8061
400 10611 2354 2554 15519 7113 1623 2324 11060 38 38 26617
450 5063 574 5230 10867 8605 1543 1600 11748 1479 1479 24094
500 4152 1280 2618 8050 10 1521 281 1812 9862
600 6255 885 2170 9310 3572 2578 3891 10041 586 446 1032 20383
700 121 121 121
750 167 167 167
Grand Total 568738 44061 827 25589 639215 297251 31000 632 12632 341515 83885 121 446 84452 1065182

* PCMC directed to include operational zones of Bijli Nagar a, Bijli Nagar b, Bijli Nagar c, Pradhikaran and Premlok Park in 40% area. Hence
pipes in this area is denoted as Old_40_A

181
7.3 Design of Distribution Pipe Network

The demand is given as per the population density (Table 5.3 and Figure 5.8). The design is
carried out by a steady state method. The sizes are computed for the demand of the year 2045
with a peak factor of 2 as per CPHEEO manual. New pipes are added to increase coverage to
100%.

7.4 New Pipes

Total length of the distribution in the PCMC is 1844.797 kms as shown in Table 7.3. The
break up of pipes is shown as Existing(E), pipes to be cut(C), New(N) and pipes to be
replaced(R) is also shown.

Table 7.3: Existing and new pipes in the distribution system

Diameter (mm) C E N R Grand Total

75 140 140
80 69 18686 18755
99.3 11 632 335018 19019 354680
100 1394 446457 447851
144.4 812 89885 12977 103674
150 2378 269650 876 283 273187
175 11 1532 1543
180.6 231 78637 7700 86568
200 1260 101834 103094
250 702 45927 111 46740
300 1437 89976 112241 8861 212515
350 128 8061 7407 12 15608
400 625 26617 54426 1190 82858
450 601 24094 3330 28025
500 772 9862 22792 85 33511
600 171 20383 9550 13 30117
700 121 4047 29 4197
750 17 167 184
800 1419 1419
1000 131 131
Grand Total 9576 1065182 719759 50280 1844797

Total new pipes are 770039 m. These new pipes material wise are shown in Table 7.4.

182
Table 7.4: New pipes in the distribution system
Diameter Grand
New_60 Old_40 Old_40_A*
(mm) Total
Row Labels DI HDPE Total DI HDPE Total DI HDPE Total
99.3 252908 252908 84323 84323 16806 16806 354037
144.4 11 86904 86915 12292 12292 3655 3655 102862
150 916 7 923 229 229 7 7 1159
180.6 66020 66020 14465 14465 5852 5852 86337
250 111 111 111
300 89400 89400 24769 24769 6933 6933 121102
350 6167 6167 475 475 777 777 7419
400 38791 38791 13041 13041 3784 3784 55616
450 3163 3163 167 167 3330
500 14744 14744 5283 5283 2850 2850 22877
600 6744 6744 2500 2500 319 319 9563
700 3552 3552 493 493 31 31 4076
800 1419 1419 1419
1000 131 131 131
Grand Total 165018 405839 570857 46957 111080 158037 14832 26313 41145 770039
* PCMC directed to include operational zones of Bijli Nagar a, Bijli Nagar b, Bijli Nagar c,
Pradhikaran and Premlok Park in 40% area. Hence pipes in this area is denoted as Old_40_A

Phase wise break up of these new pipes in 60% area is shown in Table 7.5.

Table 7.5: Phase wise break up of the new pipes in 60% area
60_P1 60_P2 60_P3
Diamter (mm) Grand Total
DI HDPE Total DI HDPE Total DI HDPE Total
99.3 106066 106066 109229 109229 37613 37613 252908
144.4 11 22034 22045 32915 32915 31955 31955 86915
150 479 479 287 4 291 150 3 153 923
180.6 30290 30290 17209 17209 18521 18521 66020
250 111 111 111
300 38335 38335 29375 29375 21690 21690 89400
350 2262 2262 3121 3121 784 784 6167
400 15729 15729 17525 17525 5537 5537 38791
450 723 723 2290 2290 150 150 3163
500 3721 3721 5392 5392 5631 5631 14744
600 1876 1876 2781 2781 2087 2087 6744
700 187 187 1938 1938 1427 1427 3552
800 1411 1411 8 8 1419
Grand Total 64734 158390 223124 62828 159357 222185 37456 88092 125548 570857

Pipe results for all the zones in the 60% area are shown in Volume II of Phase 2 and 3. It is
observed that the velocity of flow is less than 1.8 m/s and most of the nodal pressures are
above 0.6 m.

7.5 District Metering Areas

183
Number of DMAs are Computed as shown in Table 7.6.

Table 7.6: Computation of number of DMAs

Actual
No.
Dema ly
Ar of
nd Populat No. of Pop/Prop Family/Pro Custo Provid
ea DM
SN Phase Label 2020 ion proper erty perty mers ed-
(% As
(MLD (2020) ties (2020) (2020) (2020) No. of
) (202
) DMAs
0)
(2020)
Phase
1 60 Ashok Cinema 4.58 25926 1313 20 4 5185 1.73 2
1
Phase
2 60 Ashram Shala 2.13 12067 1648 7 1 2413 0.80 2
1
Phase
3 60 B4_Mamurdi 3.13 17751 565 31 6 3550 1.18 1
1
Phase
4 60 Bopkhel 3.35 18992 1316 14 3 3798 1.27 1
1
Phase
5 60 Dapodi1 2.57 14585 471 31 6 2917 0.97 2
1
Phase
6 60 Dapodi2 2.75 15602 646 24 5 3120 1.04 2
1
Phase
7 60 Dighi_Magzine 1.35 7657 2465 3 1 1531 0.51 2
1
Phase Indrayaninagar
8 60 3.02 17122 804 21 4 3424 1.14 2
1 a
Phase
9 60 Kala Khadak 4.35 24647 405 61 12 4929 1.64 2
1
Phase Kala Khadak
10 60 6.69 37908 1765 21 4 7582 2.53 2
1 New1
Phase Kala Khadak
11 60 7.41 41964 3
1 New2
Phase
12 60 Kasarwadi1 1.16 6555 2068 3 1 1311 0.44 2
1
Phase
13 60 Kasarwadi2 5.55 31460 1514 21 4 6292 2.10 3
1
Phase
14 60 Kaveri Nagar 4.56 25812 1931 13 3 5162 1.72 3
1
Phase
15 60 Khandoba-1 4.21 23865 2371 10 2 4773 1.59 2
1
Phase
16 60 Khandoba-2 4.86 27529 941 29 6 5506 1.84 3
1
Phase Lakshman
17 60 8.48 48064 1468 33 7 9613 3.20 3
1 Nagar
Phase Lakshman
18 60 5.10 28904 3354 9 2 5781 1.93 3
1 Nagar 2
Phase Mahendra &
19 60 3.18 18001 134 134 27 3600 1.20 2
1 Mahendra
Phase NewJadhavwadi
20 60 3.80 21510 600 36 7 4302 1.43 3
1 1
Phase Thergaon
21 60 3.88 21977 1295 17 3 4395 1.47 2
1 Gaothan2
Phase Morewasti
22 60 5.54 31417 3514 9 2 6283 2.09 2
2 Chikhli
Phase
23 60 Nav Maha 0.66 3749 250 15 3 750 0.25 1
2
24 Phase 60 Naydu 3.78 21415 891 24 5 4283 1.43 1

184
 2
Phase
25 60 Nehru Nagar1 2.07 11719 1794 7 1 2344 0.78 2
2
Phase
26 60 Nehru Nagar2 1.77 10048 87 115 23 2010 0.67 2
2
Phase
27 60 New Panjarpol 0.62 3539 2068 2 0 708 0.24 1
2
Phase New Pimple
28 60 4.53 25658 1660 15 3 5132 1.71 3
2 Gurav Garden
Phase
29 60 New_Punavale 4.69 26604 2068 13 3 5321 1.77 2
2
Phase
30 60 Panjarpol 2.86 16212 674 24 5 3242 1.08 2
2
Phase
31 60 Pimple Gurao1 2.34 13247 1017 13 3 2649 0.88 1
2
Phase
32 60 Pimple Gurao2 2.63 14929 387 39 8 2986 1.00 1
2
Phase
33 60 Pimple Gurao3 2.85 16170 1846 9 2 3234 1.08 2
2
Phase Pimple Gurav
34 60 1.87 10595 596 18 4 2119 0.71 1
2 Garden
Phase
35 60 Pimple Nilakh 6.64 37632 1469 26 5 7526 2.51 3
2
Phase Pimple
36 60 2.78 15749 418 38 8 3150 1.05 1
2 Saudagar a
Phase Pimple
37 60 6.21 35182 565 62 12 7036 2.35 2
2 Saudagar b New
Phase
38 60 Pimpri Delux a 3.95 22364 1557 14 3 4473 1.49 2
2
Phase
39 60 Pimpri Delux b 2.57 14551 2
2
Phase Proposed
40 60 2.24 12676 2358 5 1 2535 0.85 2
2 Naydu
Phase
41 60 Punavale 3.52 19942 565 35 7 3988 1.33 1
2
Phase
42 60 Rahatni1 4.43 25087 515 49 10 5017 1.67 2
2
Phase
43 60 Rahatni2 5.27 29863 575 52 10 5973 1.99 2
2
Phase
44 60 Rahatni3 3.94 22312 1435 16 3 4462 1.49 2
2
Phase
45 60 Rupi Nagar 6.69 37932 3475 11 2 7586 2.53 3
2
Phase
46 60 Sachin1 2.20 12465 1602 8 2 2493 0.83 2
2
Phase
47 60 Sachin2 2.73 15466 91 170 34 3093 1.03 2
2
Phase Sector 28 New
48 60 2.04 11558 909 13 3 2312 0.77 2
2 ESR
Phase
49 60 Sector 96 4.14 23457 1963 12 2 4691 1.56 2
2
Phase Sector 96 New
50 60 6.78 38397 847 45 9 7679 2.56 3
2 Esr
Phase
51 60 Sector 96 Part 2 4.49 25451 605 42 8 5090 1.70 2
2
Phase
52 60 Shahu Nagar 4.44 25145 91 276 55 5029 1.68 2
2
Phase
53 60 Charholi c 1.09 6191 1465 4 1 1238 0.41 2
3
Phase
54 60 Dudulgaon 2.46 13919 243 57 11 2784 0.93 1
3

185
 Phase
55 60 Gairan 4.10 23210 803 29 6 4642 1.55 1
3
Phase Kudalwadi
56 60 4.65 26350 2038 13 3 5270 1.76 2
3 New1
Phase Kudalwadi
57 60 4.80 27197 214 127 25 5439 1.81 2
3 New2
Phase Kudalwadi
58 60 4.66 26396 497 53 11 5279 1.76 2
3 New3
Phase Kudalwadi
59 60 3.70 20991 497 42 8 4198 1.40 1
3 New4
Phase
60 60 Moshi b 3.24 18346 250 73 15 3669 1.22 2
3
Phase
61 60 New_Charoli 2.76 15616 2
3
Phase
62 60 New_Moshi b 5.56 31513 2068 15 3 6303 2.10 2
3
Phase New_Wadmukh
63 60 1.41 7963 2068 4 1 1593 0.53 2
3 wadi b
Phase Wadmukhwadi
64 60 1.47 8338 1710 5 1 1668 0.56 1
3 b
Phase NewJadhavwadi 29060.
65 60 5.13 1468 20 4 5812 1.94 2
3 2 6
Phase
66 60 Bijli Nagar a 5.19 29385 576 51 10 5877 1.96 2
3
Phase
67 60 Bijli Nagar b 2.44 13852 1233 11 2 2770 0.92 2
3
Phase
68 60 Bijli Nagar c 3.46 19589 561 35 7 3918 1.31 2
3
Phase
69 60 Pradhikaran 7.30 41370 3916 11 2 8274 2.76 4
3
Phase
70 60 Premlok Park 3.13 17719 1193 15 3 3544 1.18 2
3
Total 139

Total 139 DMAs are proposed in 70 zones (Figure D excluding those 5 zones which are to be
added to 40% area) of the 60% area. A care shall be taken to isolate the DMAs.

Figure 7.2: DMA in 60% area

Total number of DMAs in PCMC are shown in Table 7.7.

186
Table 7.7: DMAs in PCMC

60%
40% Total
Phase1 Phase2 Phase3
47 47 58 34 186

(5) Bulk Meters

The bulk meters, at the outlet of each tank and at the entry point of each DMA, have
suggested. These meters will be useful in measuring NRW in the system. The details of the
bulk meters in Phase1 have been given in Table 7.8.
Table 7.8: Abstract of bulk meters

Diameter
Phase1 Phase2 Phase3 Total
(mm)

80 8 6 14
100 130 134 37 301
150 129 144 56 329
200 99 81 33 213
250 20 13 5 38
300 81 88 45 214
350 8 6 14
400 47 33 20 100
450 11 18 1 30
500 8 19 13 40
600 11 15 6 32
700 1 1
800 2 1 3
Grand
554 558 217 1329
Total

(6) Flow Control Valves(FCV)

FCVs are essential to control the flows to the respective DMAs. They help to make equitable
distribution of water. Abstract of FCV is given in Table 7.9

Table 7.9: Abstract FCV required in 60% area

187
 Number of FCV
Diameter
Total
(mm) Phase 1 Phase 2 Phase 3

300 12 22 6 40
350 2 3 5
400 31 17 7 55
450 2 2 4
500 8 5 13
600 1 4 1 6
Total 48 56 19 123

Abstract FCV required in 60% area is shown in Table 7.10.

Table 7.10: Abstract Scour valves required in 60% area

Diameter
Phase1 Phase2 Phase3 Total
(mm)
100 33 29 10 72
150 11 10 5 26
200 3 6 2 11
250 1 1 2
350 1 1 1 3
400 1 2 1 4
450 1 2 3
500 1 4 5
Grand
51 55 20 126
Total

**

188
Appendix- A
Mass Balance of ESRs

Table 1: Ashok Cinema

OHT at Ashok Cinema

Peak Factor 2 Maximum surplus 1470.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 344.8
Outflow Hours 24 1st Guess Capacity 1815 < 2000
(m3)
Minimum wataer level (m) 579.610 As per CPHEEO Capacity (m3) 2130
Initial water level (m) 580.610 Final computed Capacity (m3) 2000
Maximum wataer level (m) 584.610 Max. Population 40225
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 73.1
Diameter (m) 22.57 Depth for Fire (m) 0.061
Max. serving Demand (mld) 7.10 Av. Flow (m3/h)= 308.632

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 308.6 708.7 29.6 29.6 679.1 279.05 580.610 20.0 OK
1 0.1 308.6 1017.3 29.6 59.2 958.2 279.05 581.307 33.9 OK
2 0.1 308.6 1326.0 29.6 88.7 1237.2 279.05 582.005 47.9 OK
3 0.3 308.6 1634.6 88.7 177.5 1457.1 219.90 582.702 61.8 OK
4 1 308.6 1943.2 295.8 473.2 1470.0 12.86 583.252 72.8 OK
5 1.2 308.6 2251.9 354.9 828.2 1423.7 -46.29 583.284 73.5 OK
6 2 308.6 2560.5 591.5 1419.7 1140.8 -282.91 583.169 71.2 OK
7 2 308.6 2869.1 591.5 2011.2 857.9 -282.91 582.461 57.0 OK
8 2 308.6 3177.8 591.5 2602.8 575.0 -282.91 581.754 42.9 OK
9 1.5 308.6 3486.4 443.7 3046.5 440.0 -135.03 581.047 28.7 OK
10 1.2 308.6 3795.0 354.9 3401.4 393.7 -46.29 580.710 22.0 OK
11 1 308.6 4103.7 295.8 3697.1 406.5 12.86 580.594 19.7 OK
12 1 308.6 4412.3 295.8 3992.9 419.4 12.86 580.626 20.3 OK
13 0.6 308.6 4720.9 177.5 4170.4 550.5 131.17 580.658 21.0 OK
14 0.6 308.6 5029.6 177.5 4347.8 681.7 131.17 580.986 27.5 OK
15 0.5 308.6 5338.2 147.9 4495.7 842.5 160.75 581.314 34.1 OK
16 1.2 308.6 5646.8 354.9 4850.7 796.2 -46.29 581.716 42.1 OK
17 1.5 308.6 5955.5 443.7 5294.3 661.1 -135.03 581.600 39.8 OK
18 1.5 308.6 6264.1 443.7 5738.0 526.1 -135.03 581.262 33.0 OK
19 1.5 308.6 6572.7 443.7 6181.6 391.1 -135.03 580.925 26.3 OK
20 1.2 308.6 6881.4 354.9 6536.6 344.8 -46.29 580.588 19.6 OK
21 1 308.6 7190.0 295.8 6832.3 357.6 12.86 580.472 17.2 OK
22 0.6 308.6 7498.6 177.5 7009.8 488.8 131.17 580.504 17.9 OK
23 0.3 0.0 7498.6 88.7 7098.5 400.1 -88.73 580.832 24.4 OK
24 0.1 308.6 7807.2 29.6 7128.1 679.1 279.05 580.610 20.0 OK

Table 2: Ashram

189
 OHT at Ashram Shala
Peak Factor 2 Maximum surplus 897.7
(m3)
Inflow Hours 23 Minimum surplus (m3) 374.0
Outflow Hours 24 1st Guess Capacity 1272 < 1999
(m3)
Minimum wataer level (m) 605.930 As per CPHEEO Capacity (m3) 991
Initial water level (m) 606.930 Final computed Capacity (m3) 1999
Maximum wataer level (m) 610.930 Max. Population 18722
serving
Initial water depth in tank 1 Initial Volume (m3) 399.73
Area of CS 399.73 Fire storage (m3) 34.0
Diameter (m) 22.56 Depth for Fire (m) 0.028
Max. serving Demand (mld) 3.30 Av. Flow (m3/h)= 143.648

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 143.6 543.4 13.8 13.8 529.6 129.88 606.930 20.0 OK
1 0.1 143.6 687.0 13.8 27.5 659.5 129.88 607.255 26.5 OK
2 0.1 143.6 830.7 13.8 41.3 789.4 129.88 607.580 33.0 OK
3 0.3 143.6 974.3 41.3 82.6 891.7 102.35 607.905 39.5 OK
4 1 143.6 1118.0 137.7 220.3 897.7 5.99 608.161 44.6 OK
5 1.2 143.6 1261.6 165.2 385.5 876.2 -21.55 608.176 44.9 OK
6 2 143.6 1405.3 275.3 660.8 744.5 -131.68 608.122 43.8 OK
7 2 143.6 1548.9 275.3 936.1 612.8 -131.68 607.792 37.2 OK
8 2 143.6 1692.6 275.3 1211.4 481.1 -131.68 607.463 30.7 OK
9 1.5 143.6 1836.2 206.5 1417.9 418.3 -62.85 607.134 24.1 OK
10 1.2 143.6 1979.9 165.2 1583.1 396.7 -21.55 606.976 20.9 OK
11 1 143.6 2123.5 137.7 1720.8 402.7 5.99 606.923 19.9 OK
12 1 143.6 2267.2 137.7 1858.4 408.7 5.99 606.937 20.1 OK
13 0.6 143.6 2410.8 82.6 1941.0 469.8 61.05 606.952 20.4 OK
14 0.6 143.6 2554.4 82.6 2023.6 530.8 61.05 607.105 23.5 OK
15 0.5 143.6 2698.1 68.8 2092.5 605.6 74.82 607.258 26.6 OK
16 1.2 143.6 2841.7 165.2 2257.7 584.1 -21.55 607.445 30.3 OK
17 1.5 143.6 2985.4 206.5 2464.2 521.2 -62.85 607.391 29.2 OK
18 1.5 143.6 3129.0 206.5 2670.7 458.4 -62.85 607.234 26.1 OK
19 1.5 143.6 3272.7 206.5 2877.1 395.5 -62.85 607.077 22.9 OK
20 1.2 143.6 3416.3 165.2 3042.3 374.0 -21.55 606.920 19.8 OK
21 1 143.6 3560.0 137.7 3180.0 380.0 5.99 606.866 18.7 OK
22 0.6 143.6 3703.6 82.6 3262.6 441.0 61.05 606.881 19.0 OK
23 0.3 0.0 3703.6 41.3 3303.9 399.7 -41.30 607.033 22.1 OK
24 0.1 143.6 3847.3 13.8 3317.7 529.6 129.88 606.930 20.0 OK

Table 3: B4_Mamurdi

190
 OHT at B4_Mamurdi
Peak Factor 2 Maximum surplus 1046.7
(m3)
Inflow Hours 23 Minimum surplus (m3) 276.3
Outflow Hours 24 1st Guess Capacity 1323 < 1571
(m3)
Minimum wataer level (m) 629.000 As per CPHEEO Capacity (m3) 1458
Initial water level (m) 630.000 Final computed Capacity (m3) 1571
Maximum wataer level (m) 634.000 Max. Population 27542
serving
Initial water depth in tank 1 Initial Volume (m3) 314.16
Area of CS 314.16 Fire storage (m3) 50.0
Diameter (m) 20 Depth for Fire (m) 0.053
Max. serving Demand (mld) 4.86 Av. Flow (m3/h)= 211.322

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 211.3 525.5 20.3 20.3 505.2 191.07 630.000 20.0 OK
1 0.1 211.3 736.8 20.3 40.5 696.3 191.07 630.608 32.2 OK
2 0.1 211.3 948.1 20.3 60.8 887.4 191.07 631.216 44.3 OK
3 0.3 211.3 1159.4 60.8 121.5 1037.9 150.57 631.825 56.5 OK
4 1 211.3 1370.8 202.5 324.0 1046.7 8.81 632.304 66.1 OK
5 1.2 211.3 1582.1 243.0 567.0 1015.0 -31.70 632.332 66.6 OK
6 2 211.3 1793.4 405.0 972.1 821.3 -193.71 632.231 64.6 OK
7 2 211.3 2004.7 405.0 1377.1 627.6 -193.71 631.614 52.3 OK
8 2 211.3 2216.1 405.0 1782.1 433.9 -193.71 630.998 40.0 OK
9 1.5 211.3 2427.4 303.8 2085.9 341.5 -92.45 630.381 27.6 OK
10 1.2 211.3 2638.7 243.0 2328.9 309.8 -31.70 630.087 21.7 OK
11 1 211.3 2850.0 202.5 2531.5 318.6 8.81 629.986 19.7 OK
12 1 211.3 3061.3 202.5 2734.0 327.4 8.81 630.014 20.3 OK
13 0.6 211.3 3272.7 121.5 2855.5 417.2 89.81 630.042 20.8 OK
14 0.6 211.3 3484.0 121.5 2977.0 507.0 89.81 630.328 26.6 OK
15 0.5 211.3 3695.3 101.3 3078.3 617.1 110.06 630.614 32.3 OK
16 1.2 211.3 3906.6 243.0 3321.3 585.4 -31.70 630.964 39.3 OK
17 1.5 211.3 4118.0 303.8 3625.0 492.9 -92.45 630.863 37.3 OK
18 1.5 211.3 4329.3 303.8 3928.8 400.4 -92.45 630.569 31.4 OK
19 1.5 211.3 4540.6 303.8 4232.6 308.0 -92.45 630.275 25.5 OK
20 1.2 211.3 4751.9 243.0 4475.6 276.3 -31.70 629.980 19.6 OK
21 1 211.3 4963.2 202.5 4678.1 285.1 8.81 629.879 17.6 OK
22 0.6 211.3 5174.6 121.5 4799.6 374.9 89.81 629.908 18.2 OK
23 0.3 0.0 5174.6 60.8 4860.4 314.2 -60.76 630.193 23.9 OK
24 0.1 211.3 5385.9 20.3 4880.7 505.2 191.07 630.000 20.0 OK

Table 4: Bopkhrl

OHT at Bopkhe

191
 l
Peak Factor 2 Maximum surplus (m3) 1096.4
Inflow Hours 23 Minimum surplus (m3) 272.1
Outflow Hours 24 1st Guess Capacity 1368 < 1563
(m3)
Minimum wataer level (m) 594.330 As per CPHEEO Capacity (m3) 1560
Initial water level (m) 595.330 Final computed Capacity (m3) 1250
Maximum wataer level (m) 598.330 Max. Population 29467
serving
Initial water depth in tank 1 Initial Volume (m3) 312.59
Area of CS 312.59 Fire storage (m3) 53.5
Diameter (m) 19.95 Depth for Fire (m) 0.057
Max. serving Demand (mld) 5.20 Av. Flow (m3/h)= 226.087

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 226.1 538.7 21.7 21.7 517.0 204.42 595.330 25.0 OK
1 0.1 226.1 764.8 21.7 43.3 721.4 204.42 595.984 41.3 OK
2 0.1 226.1 990.9 21.7 65.0 925.9 204.42 596.638 57.7 OK
3 0.3 226.1 1216.9 65.0 130.0 1086.9 161.09 597.292 74.0 OK
4 1 226.1 1443.0 216.7 346.7 1096.4 9.42 597.807 86.9 OK
5 1.2 226.1 1669.1 260.0 606.7 1062.4 -33.91 597.837 87.7 OK
6 2 226.1 1895.2 433.3 1040.0 855.2 -207.25 597.729 85.0 OK
7 2 226.1 2121.3 433.3 1473.3 648.0 -207.25 597.066 68.4 OK
8 2 226.1 2347.4 433.3 1906.7 440.7 -207.25 596.403 51.8 OK
9 1.5 226.1 2573.5 325.0 2231.7 341.8 -98.91 595.740 35.2 OK
10 1.2 226.1 2799.5 260.0 2491.7 307.9 -33.91 595.423 27.3 OK
11 1 226.1 3025.6 216.7 2708.3 317.3 9.42 595.315 24.6 OK
12 1 226.1 3251.7 216.7 2925.0 326.7 9.42 595.345 25.4 OK
13 0.6 226.1 3477.8 130.0 3055.0 422.8 96.09 595.375 26.1 OK
14 0.6 226.1 3703.9 130.0 3185.0 518.9 96.09 595.683 33.8 OK
15 0.5 226.1 3930.0 108.3 3293.3 636.6 117.75 595.990 41.5 OK
16 1.2 226.1 4156.1 260.0 3553.3 602.7 -33.91 596.367 50.9 OK
17 1.5 226.1 4382.2 325.0 3878.3 503.8 -98.91 596.258 48.2 OK
18 1.5 226.1 4608.2 325.0 4203.3 404.9 -98.91 595.942 40.3 OK
19 1.5 226.1 4834.3 325.0 4528.3 306.0 -98.91 595.625 32.4 OK
20 1.2 226.1 5060.4 260.0 4788.3 272.1 -33.91 595.309 24.5 OK
21 1 226.1 5286.5 216.7 5005.0 281.5 9.42 595.200 21.8 OK
22 0.6 226.1 5512.6 130.0 5135.0 377.6 96.09 595.231 22.5 OK
23 0.3 0.0 5512.6 65.0 5200.0 312.6 -65.00 595.538 30.2 OK
24 0.1 226.1 5738.7 21.7 5221.7 517.0 204.42 595.330 25.0 OK

Table 5: Dapodi1

192
 OHT at Dapodi
1
Peak Factor 2 Maximum surplus (m3) 924.9
Inflow Hours 23 Minimum surplus (m3) 291.9
Outflow Hours 24 1st Guess Capacity 1217 < 1615
(m3)
Minimum wataer level (m) 568.180 As per CPHEEO Capacity (m3) 1198
Initial water level (m) 569.180 Final computed Capacity (m3) 1615
Maximum wataer level (m) 573.180 Max. Population 22630
serving
Initial water depth in tank 1 Initial Volume (m3) 323.02
Area of CS 323.02 Fire storage (m3) 41.1
Diameter (m) 20.28 Depth for Fire (m) 0.042
Max. serving Demand (mld) 3.99 Av. Flow (m3/h)= 173.631

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 173.6 496.6 16.6 16.6 480.0 156.99 569.180 20.0 OK
1 0.1 173.6 670.3 16.6 33.3 637.0 156.99 569.666 29.7 OK
2 0.1 173.6 843.9 16.6 49.9 794.0 156.99 570.152 39.4 OK
3 0.3 173.6 1017.5 49.9 99.8 917.7 123.71 570.638 49.2 OK
4 1 173.6 1191.2 166.4 266.2 924.9 7.23 571.021 56.8 OK
5 1.2 173.6 1364.8 199.7 465.9 898.9 -26.04 571.043 57.3 OK
6 2 173.6 1538.4 332.8 798.7 739.7 -159.16 570.963 55.7 OK
7 2 173.6 1712.1 332.8 1131.5 580.6 -159.16 570.470 45.8 OK
8 2 173.6 1885.7 332.8 1464.3 421.4 -159.16 569.977 35.9 OK
9 1.5 173.6 2059.3 249.6 1713.9 345.4 -75.96 569.485 26.1 OK
10 1.2 173.6 2233.0 199.7 1913.6 319.4 -26.04 569.249 21.4 OK
11 1 173.6 2406.6 166.4 2080.0 326.6 7.23 569.169 19.8 OK
12 1 173.6 2580.2 166.4 2246.4 333.9 7.23 569.191 20.2 OK
13 0.6 173.6 2753.9 99.8 2346.2 407.7 73.79 569.214 20.7 OK
14 0.6 173.6 2927.5 99.8 2446.0 481.5 73.79 569.442 25.2 OK
15 0.5 173.6 3101.1 83.2 2529.2 571.9 90.43 569.670 29.8 OK
16 1.2 173.6 3274.7 199.7 2728.9 545.8 -26.04 569.950 35.4 OK
17 1.5 173.6 3448.4 249.6 2978.5 469.9 -75.96 569.870 33.8 OK
18 1.5 173.6 3622.0 249.6 3228.1 393.9 -75.96 569.635 29.1 OK
19 1.5 173.6 3795.6 249.6 3477.7 318.0 -75.96 569.399 24.4 OK
20 1.2 173.6 3969.3 199.7 3677.4 291.9 -26.04 569.164 19.7 OK
21 1 173.6 4142.9 166.4 3843.8 299.1 7.23 569.084 18.1 OK
22 0.6 173.6 4316.5 99.8 3943.6 372.9 73.79 569.106 18.5 OK
23 0.3 0.0 4316.5 49.9 3993.5 323.0 -49.92 569.335 23.1 OK
24 0.1 173.6 4490.2 16.6 4010.2 480.0 156.99 569.180 20.0 OK

Table 6: Dapodi2

OHT at Dapodi
2
Peak Factor 2 Maximum surplus (m3) 966.9

193
Inflow Hours 23 Minimum surplus (m3) 289.7
Outflow Hours 24 1st Guess Capacity 1257 < 1615
(m3)
Minimum wataer level (m) 568.010 As per CPHEEO Capacity (m3) 1282
Initial water level (m) 569.010 Final computed Capacity (m3) 1615
Maximum wataer level (m) 573.010 Max. Population 24208
serving
Initial water depth in tank 1 Initial Volume (m3) 323.02
Area of CS 323.02 Fire storage (m3) 44.0
Diameter (m) 20.28 Depth for Fire (m) 0.045
Max. serving Demand (mld) 4.27 Av. Flow (m3/h)= 185.739

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 185.7 508.8 17.8 17.8 491.0 167.94 569.010 20.0 OK
1 0.1 185.7 694.5 17.8 35.6 658.9 167.94 569.530 30.4 OK
2 0.1 185.7 880.2 17.8 53.4 826.8 167.94 570.050 40.8 OK
3 0.3 185.7 1066.0 53.4 106.8 959.2 132.34 570.570 51.2 OK
4 1 185.7 1251.7 178.0 284.8 966.9 7.74 570.979 59.4 OK
5 1.2 185.7 1437.5 213.6 498.4 939.1 -27.86 571.003 59.9 OK
6 2 185.7 1623.2 356.0 854.4 768.8 -170.26 570.917 58.1 OK
7 2 185.7 1808.9 356.0 1210.4 598.5 -170.26 570.390 47.6 OK
8 2 185.7 1994.7 356.0 1566.4 428.3 -170.26 569.863 37.1 OK
9 1.5 185.7 2180.4 267.0 1833.4 347.0 -81.26 569.336 26.5 OK
10 1.2 185.7 2366.1 213.6 2047.0 319.1 -27.86 569.084 21.5 OK
11 1 185.7 2551.9 178.0 2225.0 326.9 7.74 568.998 19.8 OK
12 1 185.7 2737.6 178.0 2403.0 334.6 7.74 569.022 20.2 OK
13 0.6 185.7 2923.4 106.8 2509.8 413.6 78.94 569.046 20.7 OK
14 0.6 185.7 3109.1 106.8 2616.6 492.5 78.94 569.290 25.6 OK
15 0.5 185.7 3294.8 89.0 2705.6 589.2 96.74 569.535 30.5 OK
16 1.2 185.7 3480.6 213.6 2919.2 561.4 -27.86 569.834 36.5 OK
17 1.5 185.7 3666.3 267.0 3186.2 480.1 -81.26 569.748 34.8 OK
18 1.5 185.7 3852.1 267.0 3453.2 398.9 -81.26 569.496 29.7 OK
19 1.5 185.7 4037.8 267.0 3720.2 317.6 -81.26 569.245 24.7 OK
20 1.2 185.7 4223.5 213.6 3933.8 289.7 -27.86 568.993 19.7 OK
21 1 185.7 4409.3 178.0 4111.8 297.5 7.74 568.907 17.9 OK
22 0.6 185.7 4595.0 106.8 4218.6 376.4 78.94 568.931 18.4 OK
23 0.3 0.0 4595.0 53.4 4272.0 323.0 -53.40 569.175 23.3 OK
24 0.1 185.7 4780.8 17.8 4289.8 491.0 167.94 569.010 20.0 OK

Table 7: Dighi_Magzine

OHT at Dighi_Magzine
Peak Factor 2 Maximum surplus 615.9

194
 (m3)
Inflow Hours 23 Minimum surplus (m3) 283.5
Outflow Hours 24 1st Guess Capacity 899 < 1499
(m3)
Minimum wataer level (m) 625.360 As per CPHEEO Capacity (m3) 629
Initial water level (m) 626.360 Final computed Capacity (m3) 1499
Maximum wataer level (m) 630.360 Max. Population 11880
serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
Area of CS 299.87 Fire storage (m3) 21.6
Diameter (m) 19.54 Depth for Fire (m) 0.024
Max. serving Demand (mld) 2.10 Av. Flow (m3/h)= 91.152

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 91.2 391.0 8.7 8.7 382.3 82.42 626.360 20.0 OK
1 0.1 91.2 482.2 8.7 17.5 464.7 82.42 626.635 25.5 OK
2 0.1 91.2 573.3 8.7 26.2 547.1 82.42 626.910 31.0 OK
3 0.3 91.2 664.5 26.2 52.4 612.1 64.95 627.185 36.5 OK
4 1 91.2 755.6 87.4 139.8 615.9 3.80 627.401 40.8 OK
5 1.2 91.2 846.8 104.8 244.6 602.2 -13.67 627.414 41.1 OK
6 2 91.2 937.9 174.7 419.3 518.6 -83.56 627.368 40.2 OK
7 2 91.2 1029.1 174.7 594.0 435.1 -83.56 627.090 34.6 OK
8 2 91.2 1120.2 174.7 768.7 351.5 -83.56 626.811 29.0 OK
9 1.5 91.2 1211.4 131.0 899.7 311.6 -39.88 626.532 23.4 OK
10 1.2 91.2 1302.5 104.8 1004.6 298.0 -13.67 626.399 20.8 OK
11 1 91.2 1393.7 87.4 1091.9 301.8 3.80 626.354 19.9 OK
12 1 91.2 1484.9 87.4 1179.3 305.6 3.80 626.366 20.1 OK
13 0.6 91.2 1576.0 52.4 1231.7 344.3 38.74 626.379 20.4 OK
14 0.6 91.2 1667.2 52.4 1284.1 383.1 38.74 626.508 23.0 OK
15 0.5 91.2 1758.3 43.7 1327.8 430.5 47.48 626.637 25.5 OK
16 1.2 91.2 1849.5 104.8 1432.6 416.9 -13.67 626.796 28.7 OK
17 1.5 91.2 1940.6 131.0 1563.6 377.0 -39.88 626.750 27.8 OK
18 1.5 91.2 2031.8 131.0 1694.7 337.1 -39.88 626.617 25.1 OK
19 1.5 91.2 2122.9 131.0 1825.7 297.2 -39.88 626.484 22.5 OK
20 1.2 91.2 2214.1 104.8 1930.5 283.5 -13.67 626.351 19.8 OK
21 1 91.2 2305.2 87.4 2017.9 287.3 3.80 626.306 18.9 OK
22 0.6 91.2 2396.4 52.4 2070.3 326.1 38.74 626.318 19.2 OK
23 0.3 0.0 2396.4 26.2 2096.5 299.9 -26.21 626.447 21.7 OK
24 0.1 91.2 2487.5 8.7 2105.2 382.3 82.42 626.360 20.0 OK

Table 8: Indrayaninagar a

OHT at Indrayaninagar a
Peak Factor 2 Maximum surplus 1206.5
(m3)

195
Inflow Hours 23 Minimum surplus (m3) 463.4
Outflow Hours 24 1st Guess Capacity 1670 < 2500
(m3)
Minimum wataer level (m) 618.240 As per CPHEEO Capacity (m3) 1406
Initial water level (m) 619.240 Final computed Capacity (m3) 2500
Maximum wataer level (m) 623.240 Max. Population 26565
serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 48.3
Diameter (m) 25.23 Depth for Fire (m) 0.032
Max. serving Demand (mld) 4.69 Av. Flow (m3/h)= 203.826

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 203.8 703.8 19.5 19.5 684.2 184.29 619.240 20.0 OK
1 0.1 203.8 907.6 19.5 39.1 868.5 184.29 619.609 27.4 OK
2 0.1 203.8 1111.4 19.5 58.6 1052.8 184.29 619.977 34.7 OK
3 0.3 203.8 1315.3 58.6 117.2 1198.1 145.23 620.346 42.1 OK
4 1 203.8 1519.1 195.3 312.5 1206.5 8.49 620.636 47.9 OK
5 1.2 203.8 1722.9 234.4 546.9 1176.0 -30.57 620.653 48.3 OK
6 2 203.8 1926.7 390.7 937.6 989.1 -186.84 620.592 47.0 OK
7 2 203.8 2130.6 390.7 1328.3 802.3 -186.84 620.218 39.6 OK
8 2 203.8 2334.4 390.7 1718.9 615.5 -186.84 619.845 32.1 OK
9 1.5 203.8 2538.2 293.0 2011.9 526.3 -89.17 619.471 24.6 OK
10 1.2 203.8 2742.0 234.4 2246.3 495.7 -30.57 619.293 21.1 OK
11 1 203.8 2945.9 195.3 2441.7 504.2 8.49 619.232 19.8 OK
12 1 203.8 3149.7 195.3 2637.0 512.7 8.49 619.248 20.2 OK
13 0.6 203.8 3353.5 117.2 2754.2 599.3 86.63 619.265 20.5 OK
14 0.6 203.8 3557.3 117.2 2871.4 685.9 86.63 619.439 24.0 OK
15 0.5 203.8 3761.2 97.7 2969.1 792.1 106.16 619.612 27.4 OK
16 1.2 203.8 3965.0 234.4 3203.5 761.5 -30.57 619.824 31.7 OK
17 1.5 203.8 4168.8 293.0 3496.5 672.4 -89.17 619.763 30.5 OK
18 1.5 203.8 4372.6 293.0 3789.5 583.2 -89.17 619.585 26.9 OK
19 1.5 203.8 4576.5 293.0 4082.5 494.0 -89.17 619.406 23.3 OK
20 1.2 203.8 4780.3 234.4 4316.9 463.4 -30.57 619.228 19.8 OK
21 1 203.8 4984.1 195.3 4512.2 471.9 8.49 619.167 18.5 OK
22 0.6 203.8 5187.9 117.2 4629.4 558.5 86.63 619.184 18.9 OK
23 0.3 0.0 5187.9 58.6 4688.0 499.9 -58.60 619.357 22.3 OK
24 0.1 203.8 5391.8 19.5 4707.5 684.2 184.29 619.240 20.0 OK

Table 9: Kala Khadak

OHT at Kala Khadak

Peak Factor 2 Maximum surplus 1317.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 247.3
Outflow Hours 24 1st Guess Capacity 1564

196
 (m3)
Minimum wataer level (m) 606.560 As per CPHEEO Capacity (m3) 2025
3
Initial water level (m) 607.560 Final computed Capacity (m ) 1499
Maximum wataer level (m) 611.560 Max. Population 38241
serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
3
Area of CS 299.87 Fire storage (m ) 69.5
Diameter (m) 19.54 Depth for Fire (m) 0.077
Max. serving Demand (mld) 6.75 Av. Flow (m3/h)= 293.409

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 293.4 593.3 28.1 28.1 565.2 265.29 607.560 20.0 OK
1 0.1 293.4 886.7 28.1 56.2 830.5 265.29 608.445 37.7 OK
2 0.1 293.4 1180.1 28.1 84.4 1095.7 265.29 609.329 55.4 OK
3 0.3 293.4 1473.5 84.4 168.7 1304.8 209.05 610.214 73.1 OK
4 1 293.4 1766.9 281.2 449.9 1317.0 12.23 610.911 87.0 OK
5 1.2 293.4 2060.3 337.4 787.3 1273.0 -44.01 610.952 87.8 OK
6 2 293.4 2353.7 562.4 1349.7 1004.1 -268.96 610.805 84.9 OK
7 2 293.4 2647.1 562.4 1912.0 735.1 -268.96 609.908 67.0 OK
8 2 293.4 2940.6 562.4 2474.4 466.1 -268.96 609.011 49.0 OK
9 1.5 293.4 3234.0 421.8 2896.2 337.8 -128.37 608.114 31.1 OK
10 1.2 293.4 3527.4 337.4 3233.6 293.8 -44.01 607.686 22.5 OK
11 1 293.4 3820.8 281.2 3514.8 306.0 12.23 607.540 19.6 OK
12 1 293.4 4114.2 281.2 3796.0 318.2 12.23 607.580 20.4 OK
13 0.6 293.4 4407.6 168.7 3964.7 442.9 124.70 607.621 21.2 OK
14 0.6 293.4 4701.0 168.7 4133.4 567.6 124.70 608.037 29.5 OK
15 0.5 293.4 4994.4 140.6 4274.0 720.4 152.82 608.453 37.9 OK
16 1.2 293.4 5287.8 337.4 4611.4 676.4 -44.01 608.962 48.0 OK
17 1.5 293.4 5581.2 421.8 5033.2 548.0 -128.37 608.816 45.1 OK
18 1.5 293.4 5874.6 421.8 5455.0 419.7 -128.37 608.388 36.6 OK
19 1.5 293.4 6168.0 421.8 5876.7 291.3 -128.37 607.960 28.0 OK
20 1.2 293.4 6461.5 337.4 6214.2 247.3 -44.01 607.531 19.4 OK
21 1 293.4 6754.9 281.2 6495.3 259.5 12.23 607.385 16.5 OK
22 0.6 293.4 7048.3 168.7 6664.0 384.2 124.70 607.425 17.3 OK
23 0.3 0.0 7048.3 84.4 6748.4 299.9 -84.36 607.841 25.6 OK
24 0.1 293.4 7341.7 28.1 6776.5 565.2 265.29 607.560 20.0 OK

Table 10: Kala Khadak New1

OHT at Kala Khadak New1

Peak Factor 2 Maximum surplus 2137.0
(m3)

197
Inflow Hours 23 Minimum surplus (m3) 491.7
Outflow Hours 24 1st Guess Capacity 2629 < 2863
(m3)
Minimum wataer level (m) 603.500 As per CPHEEO Capacity (m3) 3114
Initial water level (m) 604.500 Final computed Capacity (m3) 2863
Maximum wataer level (m) 608.500 Max. Population 58816
serving
Initial water depth in tank 1 Initial Volume (m3) 572.56
Area of CS 572.56 Fire storage (m3) 106.9
Diameter (m) 27 Depth for Fire (m) 0.062
Max. serving Demand (mld) 10.38 Av. Flow (m3/h)= 451.274

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 451.3 1023.8 43.2 43.2 980.6 408.03 604.500 20.0 OK
1 0.1 451.3 1475.1 43.2 86.5 1388.6 408.03 605.213 34.3 OK
2 0.1 451.3 1926.4 43.2 129.7 1796.6 408.03 605.925 48.5 OK
3 0.3 451.3 2377.7 129.7 259.5 2118.2 321.53 606.638 62.8 OK
4 1 451.3 2828.9 432.5 692.0 2137.0 18.80 607.199 74.0 OK
5 1.2 451.3 3280.2 519.0 1210.9 2069.3 -67.69 607.232 74.6 OK
6 2 451.3 3731.5 864.9 2075.9 1655.6 -413.67 607.114 72.3 OK
7 2 451.3 4182.7 864.9 2940.8 1241.9 -413.67 606.392 57.8 OK
8 2 451.3 4634.0 864.9 3805.7 828.3 -413.67 605.669 43.4 OK
9 1.5 451.3 5085.3 648.7 4454.4 630.8 -197.43 604.947 28.9 OK
10 1.2 451.3 5536.6 519.0 4973.4 563.2 -67.69 604.602 22.0 OK
11 1 451.3 5987.8 432.5 5405.9 582.0 18.80 604.484 19.7 OK
12 1 451.3 6439.1 432.5 5838.4 600.8 18.80 604.516 20.3 OK
13 0.6 451.3 6890.4 259.5 6097.8 792.6 191.79 604.549 21.0 OK
14 0.6 451.3 7341.7 259.5 6357.3 984.3 191.79 604.884 27.7 OK
15 0.5 451.3 7792.9 216.2 6573.6 1219.4 235.04 605.219 34.4 OK
16 1.2 451.3 8244.2 519.0 7092.5 1151.7 -67.69 605.630 42.6 OK
17 1.5 451.3 8695.5 648.7 7741.2 954.3 -197.43 605.511 40.2 OK
18 1.5 451.3 9146.8 648.7 8389.9 756.8 -197.43 605.167 33.3 OK
19 1.5 451.3 9598.0 648.7 9038.6 559.4 -197.43 604.822 26.4 OK
20 1.2 451.3 10049.3 519.0 9557.6 491.7 -67.69 604.477 19.5 OK
21 1 451.3 10500.6 432.5 9990.1 510.5 18.80 604.359 17.2 OK
22 0.6 451.3 10951.9 259.5 10249.6 702.3 191.79 604.392 17.8 OK
23 0.3 0.0 10951.9 129.7 10379.3 572.6 -129.74 604.727 24.5 OK
24 0.1 451.3 11403.1 43.2 10422.5 980.6 408.03 604.500 20.0 OK

Table 11: Kala Khadak New2

OHT at Kala Khadak New2

Peak Factor 2 Maximum surplus 2347.6
(m3)
Inflow Hours 23 Minimum surplus (m3) 526.2
Outflow Hours 24 1st Guess Capacity 2874 < 3079

198
 (m3)
Minimum wataer level (m) 603.500 As per CPHEEO Capacity (m3) 3447
3
Initial water level (m) 604.500 Final computed Capacity (m ) 3079
Maximum wataer level (m) 608.500 Max. Population 65110
serving
Initial water depth in tank 1 Initial Volume (m3) 615.75
3
Area of CS 615.75 Fire storage (m ) 118.3
Diameter (m) 28 Depth for Fire (m) 0.064
Max. serving Demand (mld) 11.49 Av. Flow (m3/h)= 499.561

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 499.6 1115.3 47.9 47.9 1067.4 451.69 604.500 20.0 OK
1 0.1 499.6 1614.9 47.9 95.7 1519.1 451.69 605.234 34.7 OK
2 0.1 499.6 2114.4 47.9 143.6 1970.8 451.69 605.967 49.3 OK
3 0.3 499.6 2614.0 143.6 287.2 2326.7 355.94 606.701 64.0 OK
4 1 499.6 3113.6 478.7 766.0 2347.6 20.82 607.279 75.6 OK
5 1.2 499.6 3613.1 574.5 1340.5 2272.6 -74.93 607.313 76.3 OK
6 2 499.6 4112.7 957.5 2298.0 1814.7 -457.93 607.191 73.8 OK
7 2 499.6 4612.2 957.5 3255.5 1356.8 -457.93 606.447 58.9 OK
8 2 499.6 5111.8 957.5 4213.0 898.8 -457.93 605.703 44.1 OK
9 1.5 499.6 5611.4 718.1 4931.1 680.3 -218.56 604.960 29.2 OK
10 1.2 499.6 6110.9 574.5 5505.6 605.3 -74.93 604.605 22.1 OK
11 1 499.6 6610.5 478.7 5984.3 626.2 20.82 604.483 19.7 OK
12 1 499.6 7110.0 478.7 6463.1 647.0 20.82 604.517 20.3 OK
13 0.6 499.6 7609.6 287.2 6750.3 859.3 212.31 604.551 21.0 OK
14 0.6 499.6 8109.2 287.2 7037.6 1071.6 212.31 604.896 27.9 OK
15 0.5 499.6 8608.7 239.4 7276.9 1331.8 260.19 605.240 34.8 OK
16 1.2 499.6 9108.3 574.5 7851.4 1256.9 -74.93 605.663 43.3 OK
17 1.5 499.6 9607.8 718.1 8569.6 1038.3 -218.56 605.541 40.8 OK
18 1.5 499.6 10107.4 718.1 9287.7 819.7 -218.56 605.186 33.7 OK
19 1.5 499.6 10607.0 718.1 10005.8 601.2 -218.56 604.831 26.6 OK
20 1.2 499.6 11106.5 574.5 10580.3 526.2 -74.93 604.476 19.5 OK
21 1 499.6 11606.1 478.7 11059.0 547.1 20.82 604.355 17.1 OK
22 0.6 499.6 12105.7 287.2 11346.3 759.4 212.31 604.388 17.8 OK
23 0.3 0.0 12105.7 143.6 11489.9 615.8 -143.62 604.733 24.7 OK
24 0.1 499.6 12605.2 47.9 11537.8 1067.4 451.69 604.500 20.0 OK

Table 12: Kasarwadi1

OHT at Kasarwadi1
Peak Factor 2 Maximum surplus 670.6
(m3)
Inflow Hours 23 Minimum surplus (m3) 386.1
Outflow Hours 24 1st Guess Capacity 1057 < 2000
(m3)

199
Minimum wataer level (m) 581.070 As per CPHEEO Capacity (m3) 538
Initial water level (m) 582.070 Final computed Capacity (m3) 2000
Maximum wataer level (m) 586.070 Max. Population 10170
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
3
Area of CS 400.09 Fire storage (m ) 18.5
Diameter (m) 22.57 Depth for Fire (m) 0.015
Max. serving Demand (mld) 1.79 Av. Flow (m3/h)= 78.033

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 78.0 478.1 7.5 7.5 470.6 70.55 582.070 20.0 OK
1 0.1 78.0 556.2 7.5 15.0 541.2 70.55 582.246 23.5 OK
2 0.1 78.0 634.2 7.5 22.4 611.8 70.55 582.423 27.1 OK
3 0.3 78.0 712.2 22.4 44.9 667.3 55.60 582.599 30.6 OK
4 1 78.0 790.3 74.8 119.7 670.6 3.25 582.738 33.4 OK
5 1.2 78.0 868.3 89.7 209.4 658.9 -11.70 582.746 33.5 OK
6 2 78.0 946.3 149.6 359.0 587.4 -71.53 582.717 32.9 OK
7 2 78.0 1024.3 149.6 508.5 515.8 -71.53 582.538 29.4 OK
8 2 78.0 1102.4 149.6 658.1 444.3 -71.53 582.359 25.8 OK
9 1.5 78.0 1180.4 112.2 770.2 410.2 -34.14 582.181 22.2 OK
10 1.2 78.0 1258.4 89.7 860.0 398.5 -11.70 582.095 20.5 OK
11 1 78.0 1336.5 74.8 934.8 401.7 3.25 582.066 19.9 OK
12 1 78.0 1414.5 74.8 1009.5 405.0 3.25 582.074 20.1 OK
13 0.6 78.0 1492.5 44.9 1054.4 438.1 33.16 582.082 20.2 OK
14 0.6 78.0 1570.6 44.9 1099.3 471.3 33.16 582.165 21.9 OK
15 0.5 78.0 1648.6 37.4 1136.7 511.9 40.64 582.248 23.6 OK
16 1.2 78.0 1726.6 89.7 1226.4 500.2 -11.70 582.350 25.6 OK
17 1.5 78.0 1804.7 112.2 1338.6 466.1 -34.14 582.320 25.0 OK
18 1.5 78.0 1882.7 112.2 1450.8 431.9 -34.14 582.235 23.3 OK
19 1.5 78.0 1960.7 112.2 1562.9 397.8 -34.14 582.150 21.6 OK
20 1.2 78.0 2038.8 89.7 1652.7 386.1 -11.70 582.064 19.9 OK
21 1 78.0 2116.8 74.8 1727.5 389.4 3.25 582.035 19.3 OK
22 0.6 78.0 2194.8 44.9 1772.3 422.5 33.16 582.043 19.5 OK
23 0.3 0.0 2194.8 22.4 1794.8 400.1 -22.43 582.126 21.1 OK
24 0.1 78.0 2272.9 7.5 1802.2 470.6 70.55 582.070 20.0 OK

Table 13: Kasarwadi2

OHT at Kasarwadi2
Peak Factor 2 Maximum surplus 1698.4
(m3)
Inflow Hours 23 Minimum surplus (m3) 333.0
Outflow Hours 24 1st Guess Capacity 2031
(m3)
Minimum wataer level (m) 576.580 As per CPHEEO Capacity (m3) 2584
Initial water level (m) 577.580 Final computed Capacity (m3) 2000

200
Maximum wataer level (m) 581.580 Max. Population 48812
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 88.7
Diameter (m) 22.57 Depth for Fire (m) 0.074
Max. serving Demand (mld) 8.61 Av. Flow (m3/h)= 374.517

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 374.5 774.6 35.9 35.9 738.7 338.63 577.580 20.0 OK
1 0.1 374.5 1149.1 35.9 71.8 1077.3 338.63 578.426 36.9 OK
2 0.1 374.5 1523.6 35.9 107.7 1416.0 338.63 579.273 53.9 OK
3 0.3 374.5 1898.2 107.7 215.3 1682.8 266.84 580.119 70.8 OK
4 1 374.5 2272.7 358.9 574.3 1698.4 15.60 580.786 84.1 OK
5 1.2 374.5 2647.2 430.7 1005.0 1642.2 -56.18 580.825 84.9 OK
6 2 374.5 3021.7 717.8 1722.8 1298.9 -343.31 580.685 82.1 OK
7 2 374.5 3396.2 717.8 2440.6 955.6 -343.31 579.827 64.9 OK
8 2 374.5 3770.7 717.8 3158.4 612.3 -343.31 578.969 47.8 OK
9 1.5 374.5 4145.3 538.4 3696.8 448.5 -163.85 578.110 30.6 OK
10 1.2 374.5 4519.8 430.7 4127.5 392.3 -56.18 577.701 22.4 OK
11 1 374.5 4894.3 358.9 4486.4 407.9 15.60 577.560 19.6 OK
12 1 374.5 5268.8 358.9 4845.3 423.5 15.60 577.600 20.4 OK
13 0.6 374.5 5643.3 215.3 5060.7 582.7 159.17 577.639 21.2 OK
14 0.6 374.5 6017.8 215.3 5276.0 741.8 159.17 578.036 29.1 OK
15 0.5 374.5 6392.4 179.5 5455.5 936.9 195.06 578.434 37.1 OK
16 1.2 374.5 6766.9 430.7 5886.2 880.7 -56.18 578.922 46.8 OK
17 1.5 374.5 7141.4 538.4 6424.5 716.9 -163.85 578.781 44.0 OK
18 1.5 374.5 7515.9 538.4 6962.9 553.0 -163.85 578.372 35.8 OK
19 1.5 374.5 7890.4 538.4 7501.3 389.2 -163.85 577.962 27.6 OK
20 1.2 374.5 8265.0 430.7 7932.0 333.0 -56.18 577.553 19.5 OK
21 1 374.5 8639.5 358.9 8290.9 348.6 15.60 577.412 16.6 OK
22 0.6 374.5 9014.0 215.3 8506.2 507.8 159.17 577.451 17.4 OK
23 0.3 0.0 9014.0 107.7 8613.9 400.1 -107.67 577.849 25.4 OK
24 0.1 374.5 9388.5 35.9 8649.8 738.7 338.63 577.580 20.0 OK

Table 14: Kaveri Nagar

OHT at Kaveri Nagar

Peak Factor 2 Maximum surplus 1681.0
3
(m )
Inflow Hours 23 Minimum surplus (m3) 560.7
Outflow Hours 24 1st Guess Capacity 2242 < 3079
(m3)
Minimum wataer level (m) 600.800 As per CPHEEO Capacity (m3) 2120
Initial water level (m) 601.800 Final computed Capacity (m3) 3079
Maximum wataer level (m) 605.800 Max. Population 40049

201
 serving
Initial water depth in tank 1 Initial Volume (m3) 615.75
Area of CS 615.75 Fire storage (m3) 72.8
Diameter (m) 28 Depth for Fire (m) 0.039
Max. serving Demand (mld) 7.07 Av. Flow (m3/h)= 307.278

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 307.3 923.0 29.4 29.4 893.6 277.83 601.800 20.0 OK
1 0.1 307.3 1230.3 29.4 58.9 1171.4 277.83 602.251 29.0 OK
2 0.1 307.3 1537.6 29.4 88.3 1449.2 277.83 602.702 38.0 OK
3 0.3 307.3 1844.9 88.3 176.7 1668.2 218.94 603.154 47.1 OK
4 1 307.3 2152.1 294.5 471.2 1681.0 12.80 603.509 54.2 OK
5 1.2 307.3 2459.4 353.4 824.5 1634.9 -46.09 603.530 54.6 OK
6 2 307.3 2766.7 589.0 1413.5 1353.2 -281.67 603.455 53.1 OK
7 2 307.3 3074.0 589.0 2002.4 1071.5 -281.67 602.998 44.0 OK
8 2 307.3 3381.3 589.0 2591.4 789.9 -281.67 602.540 34.8 OK
9 1.5 307.3 3688.5 441.7 3033.1 655.4 -134.43 602.083 25.7 OK
10 1.2 307.3 3995.8 353.4 3386.5 609.4 -46.09 601.864 21.3 OK
11 1 307.3 4303.1 294.5 3680.9 622.2 12.80 601.790 19.8 OK
12 1 307.3 4610.4 294.5 3975.4 635.0 12.80 601.810 20.2 OK
13 0.6 307.3 4917.6 176.7 4152.1 765.6 130.59 601.831 20.6 OK
14 0.6 307.3 5224.9 176.7 4328.8 896.1 130.59 602.043 24.9 OK
15 0.5 307.3 5532.2 147.2 4476.0 1056.2 160.04 602.255 29.1 OK
16 1.2 307.3 5839.5 353.4 4829.4 1010.1 -46.09 602.515 34.3 OK
17 1.5 307.3 6146.8 441.7 5271.1 875.7 -134.43 602.440 32.8 OK
18 1.5 307.3 6454.0 441.7 5712.8 741.2 -134.43 602.222 28.4 OK
19 1.5 307.3 6761.3 441.7 6154.5 606.8 -134.43 602.004 24.1 OK
20 1.2 307.3 7068.6 353.4 6507.9 560.7 -46.09 601.785 19.7 OK
21 1 307.3 7375.9 294.5 6802.4 573.5 12.80 601.711 18.2 OK
22 0.6 307.3 7683.2 176.7 6979.1 704.1 130.59 601.731 18.6 OK
23 0.3 0.0 7683.2 88.3 7067.4 615.8 -88.34 601.943 22.9 OK
24 0.1 307.3 7990.4 29.4 7096.8 893.6 277.83 601.800 20.0 OK

Table 15: Khandoba-1

OHT at Khandoba-1
Peak Factor 2 Maximum surplus 1526.1
(m3)
Inflow Hours 23 Minimum surplus (m3) 490.3
Outflow Hours 24 1st Guess Capacity 2016 < 2706
(m3)
Minimum wataer level (m) 600.290 As per CPHEEO Capacity (m3) 1960
Initial water level (m) 601.290 Final computed Capacity (m3) 2706
Maximum wataer level (m) 605.290 Max. Population 37028

202
 serving
Initial water depth in tank 1 Initial Volume (m3) 541.19
Area of CS 541.19 Fire storage (m3) 67.3
Diameter (m) 26.25 Depth for Fire (m) 0.041
Max. serving Demand (mld) 6.53 Av. Flow (m3/h)= 284.104

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 284.1 825.3 27.2 27.2 798.1 256.88 601.290 20.0 OK
1 0.1 284.1 1109.4 27.2 54.5 1054.9 256.88 601.765 29.5 OK
2 0.1 284.1 1393.5 27.2 81.7 1311.8 256.88 602.239 39.0 OK
3 0.3 284.1 1677.6 81.7 163.4 1514.2 202.42 602.714 48.5 OK
4 1 284.1 1961.7 272.3 435.6 1526.1 11.84 603.088 56.0 OK
5 1.2 284.1 2245.8 326.7 762.3 1483.5 -42.62 603.110 56.4 OK
6 2 284.1 2529.9 544.5 1306.9 1223.0 -260.43 603.031 54.8 OK
7 2 284.1 2814.0 544.5 1851.4 962.6 -260.43 602.550 45.2 OK
8 2 284.1 3098.1 544.5 2395.9 702.2 -260.43 602.069 35.6 OK
9 1.5 284.1 3382.2 408.4 2804.3 577.9 -124.30 601.587 25.9 OK
10 1.2 284.1 3666.3 326.7 3131.1 535.3 -42.62 601.358 21.4 OK
11 1 284.1 3950.4 272.3 3403.3 547.1 11.84 601.279 19.8 OK
12 1 284.1 4234.5 272.3 3675.6 558.9 11.84 601.301 20.2 OK
13 0.6 284.1 4518.7 163.4 3839.0 679.7 120.74 601.323 20.7 OK
14 0.6 284.1 4802.8 163.4 4002.3 800.4 120.74 601.546 25.1 OK
15 0.5 284.1 5086.9 136.1 4138.5 948.4 147.97 601.769 29.6 OK
16 1.2 284.1 5371.0 326.7 4465.2 905.8 -42.62 602.042 35.0 OK
17 1.5 284.1 5655.1 408.4 4873.6 781.5 -124.30 601.964 33.5 OK
18 1.5 284.1 5939.2 408.4 5282.0 657.2 -124.30 601.734 28.9 OK
19 1.5 284.1 6223.3 408.4 5690.4 532.9 -124.30 601.504 24.3 OK
20 1.2 284.1 6507.4 326.7 6017.1 490.3 -42.62 601.275 19.7 OK
21 1 284.1 6791.5 272.3 6289.4 502.1 11.84 601.196 18.1 OK
22 0.6 284.1 7075.6 163.4 6452.7 622.9 120.74 601.218 18.6 OK
23 0.3 0.0 7075.6 81.7 6534.4 541.2 -81.68 601.441 23.0 OK
24 0.1 284.1 7359.7 27.2 6561.6 798.1 256.88 601.290 20.0 OK

Table 16: Khandoba-2

OHT at Khandoba-2
Peak Factor 2 Maximum surplus 1537.6
(m3)
Inflow Hours 23 Minimum surplus (m3) 342.8
Outflow Hours 24 1st Guess Capacity 1880 < 2008
(m3)
Minimum wataer level (m) 602.840 As per CPHEEO Capacity (m3) 2261
Initial water level (m) 603.840 Final computed Capacity (m3) 2008
Maximum wataer level (m) 607.840 Max. Population 42713
serving

203
Initial water depth in tank 1 Initial Volume (m3) 401.51
3
Area of CS 401.51 Fire storage (m ) 77.6
Diameter (m) 22.61 Depth for Fire (m) 0.064
Max. serving Demand (mld) 7.54 Av. Flow (m3/h)= 327.717

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 327.7 729.2 31.4 31.4 697.8 296.31 603.840 20.0 OK
1 0.1 327.7 1056.9 31.4 62.8 994.1 296.31 604.578 34.8 OK
2 0.1 327.7 1384.7 31.4 94.2 1290.4 296.31 605.316 49.5 OK
3 0.3 327.7 1712.4 94.2 188.4 1523.9 233.50 606.054 64.3 OK
4 1 327.7 2040.1 314.1 502.5 1537.6 13.65 606.636 75.9 OK
5 1.2 327.7 2367.8 376.9 879.4 1488.4 -49.16 606.670 76.6 OK
6 2 327.7 2695.5 628.1 1507.5 1188.0 -300.41 606.547 74.1 OK
7 2 327.7 3023.2 628.1 2135.6 887.6 -300.41 605.799 59.2 OK
8 2 327.7 3351.0 628.1 2763.8 587.2 -300.41 605.051 44.2 OK
9 1.5 327.7 3678.7 471.1 3234.8 443.8 -143.38 604.303 29.3 OK
10 1.2 327.7 4006.4 376.9 3611.7 394.7 -49.16 603.945 22.1 OK
11 1 327.7 4334.1 314.1 3925.8 408.3 13.65 603.823 19.7 OK
12 1 327.7 4661.8 314.1 4239.8 422.0 13.65 603.857 20.3 OK
13 0.6 327.7 4989.5 188.4 4428.3 561.3 139.28 603.891 21.0 OK
14 0.6 327.7 5317.3 188.4 4616.7 700.5 139.28 604.238 28.0 OK
15 0.5 327.7 5645.0 157.0 4773.8 871.2 170.69 604.585 34.9 OK
16 1.2 327.7 5972.7 376.9 5150.6 822.1 -49.16 605.010 43.4 OK
17 1.5 327.7 6300.4 471.1 5621.7 678.7 -143.38 604.887 40.9 OK
18 1.5 327.7 6628.1 471.1 6092.8 535.3 -143.38 604.530 33.8 OK
19 1.5 327.7 6955.9 471.1 6563.9 391.9 -143.38 604.173 26.7 OK
20 1.2 327.7 7283.6 376.9 6940.8 342.8 -49.16 603.816 19.5 OK
21 1 327.7 7611.3 314.1 7254.8 356.4 13.65 603.694 17.1 OK
22 0.6 327.7 7939.0 188.4 7443.3 495.7 139.28 603.728 17.8 OK
23 0.3 0.0 7939.0 94.2 7537.5 401.5 -94.22 604.075 24.7 OK
24 0.1 327.7 8266.7 31.4 7568.9 697.8 296.31 603.840 20.0 OK

Table 17: Lakshman Nagar

Since capacity required is more than 20 Lakhs, It is proposed to construct 2 tanks. Each with 15 lakhs
capacity. Each tank shall serve one DMA.

OHT at Lakshman Nagar

Peak Factor 2 Maximum surplus 2483.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 397.4
Outflow Hours 24 1st Guess Capacity 2881 < 2500
(m3)
Minimum wataer level (m) 596.160 As per CPHEEO Capacity (m3) 3948
3
Initial water level (m) 597.160 Final computed Capacity (m ) 2500

204
Maximum wataer level (m) 601.160 Max. Population 74574
serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 135.5
Diameter (m) 25.23 Depth for Fire (m) 0.090
Max. serving Demand (mld) 13.16 Av. Flow (m3/h)= 572.174

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 572.2 1072.1 54.8 54.8 1017.3 517.34 597.160 20.0 OK
1 0.1 572.2 1644.3 54.8 109.7 1534.6 517.34 598.195 40.7 OK
2 0.1 572.2 2216.5 54.8 164.5 2052.0 517.34 599.230 61.4 OK
3 0.3 572.2 2788.6 164.5 329.0 2459.6 407.67 600.264 82.1 OK
4 1 572.2 3360.8 548.3 877.3 2483.5 23.84 601.080 98.4 OK
5 1.2 572.2 3933.0 658.0 1535.3 2397.7 -85.83 601.127 99.3 OK
6 2 572.2 4505.2 1096.7 2632.0 1873.2 -524.49 600.956 95.9 OK
7 2 572.2 5077.3 1096.7 3728.7 1348.7 -524.49 599.907 74.9 OK
8 2 572.2 5649.5 1096.7 4825.3 824.2 -524.49 598.858 54.0 OK
9 1.5 572.2 6221.7 822.5 5647.8 573.9 -250.33 597.809 33.0 OK
10 1.2 572.2 6793.9 658.0 6305.8 488.0 -85.83 597.308 23.0 OK
11 1 572.2 7366.0 548.3 6854.2 511.9 23.84 597.136 19.5 OK
12 1 572.2 7938.2 548.3 7402.5 535.7 23.84 597.184 20.5 OK
13 0.6 572.2 8510.4 329.0 7731.5 778.9 243.17 597.232 21.4 OK
14 0.6 572.2 9082.6 329.0 8060.5 1022.1 243.17 597.718 31.2 OK
15 0.5 572.2 9654.7 274.2 8334.7 1320.1 298.01 598.204 40.9 OK
16 1.2 572.2 10226.9 658.0 8992.7 1234.2 -85.83 598.800 52.8 OK
17 1.5 572.2 10799.1 822.5 9815.2 983.9 -250.33 598.629 49.4 OK
18 1.5 572.2 11371.3 822.5 10637.7 733.6 -250.33 598.128 39.4 OK
19 1.5 572.2 11943.4 822.5 11460.2 483.3 -250.33 597.627 29.3 OK
20 1.2 572.2 12515.6 658.0 12118.2 397.4 -85.83 597.127 19.3 OK
21 1 572.2 13087.8 548.3 12666.5 421.3 23.84 596.955 15.9 OK
22 0.6 572.2 13659.9 329.0 12995.5 664.4 243.17 597.003 16.9 OK
23 0.3 0.0 13659.9 164.5 13160.0 499.9 -164.50 597.489 26.6 OK
24 0.1 572.2 14232.1 54.8 13214.8 1017.3 517.34 597.160 20.0 OK

Table 18: Lakshman Nagar 2

OHT at Lakshman Nagar 2

Peak Factor 2 Maximum surplus 1594.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 339.5
Outflow Hours 24 1st Guess Capacity 1933 < 2006
(m3)
Minimum wataer level (m) 595.600 As per CPHEEO Capacity (m3) 2374
Initial water level (m) 596.600 Final computed Capacity (m3) 2006
Maximum wataer level (m) 600.600 Max. Population 44846
serving
Initial water depth in tank 1 Initial Volume (m3) 401.15

205
Area of CS 401.15 Fire storage (m3) 81.5
Diameter (m) 22.6 Depth for Fire (m) 0.068
Max. serving Demand (mld) 7.91 Av. Flow (m3/h)= 344.083

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 344.1 745.2 33.0 33.0 712.3 311.11 596.600 20.0 OK
1 0.1 344.1 1089.3 33.0 65.9 1023.4 311.11 597.376 35.5 OK
2 0.1 344.1 1433.4 33.0 98.9 1334.5 311.11 598.151 51.0 OK
3 0.3 344.1 1777.5 98.9 197.8 1579.6 245.16 598.927 66.5 OK
4 1 344.1 2121.6 329.7 527.6 1594.0 14.34 599.538 78.8 OK
5 1.2 344.1 2465.6 395.7 923.3 1542.4 -51.61 599.573 79.5 OK
6 2 344.1 2809.7 659.5 1582.8 1226.9 -315.41 599.445 76.9 OK
7 2 344.1 3153.8 659.5 2242.3 911.5 -315.41 598.659 61.2 OK
8 2 344.1 3497.9 659.5 2901.8 596.1 -315.41 597.872 45.4 OK
9 1.5 344.1 3842.0 494.6 3396.4 445.6 -150.54 597.086 29.7 OK
10 1.2 344.1 4186.1 395.7 3792.1 394.0 -51.61 596.711 22.2 OK
11 1 344.1 4530.1 329.7 4121.8 408.3 14.34 596.582 19.6 OK
12 1 344.1 4874.2 329.7 4451.6 422.7 14.34 596.618 20.4 OK
13 0.6 344.1 5218.3 197.8 4649.4 568.9 146.24 596.654 21.1 OK
14 0.6 344.1 5562.4 197.8 4847.3 715.1 146.24 597.018 28.4 OK
15 0.5 344.1 5906.5 164.9 5012.1 894.3 179.21 597.383 35.7 OK
16 1.2 344.1 6250.6 395.7 5407.8 842.7 -51.61 597.829 44.6 OK
17 1.5 344.1 6594.6 494.6 5902.5 692.2 -150.54 597.701 42.0 OK
18 1.5 344.1 6938.7 494.6 6397.1 541.7 -150.54 597.326 34.5 OK
19 1.5 344.1 7282.8 494.6 6891.7 391.1 -150.54 596.950 27.0 OK
20 1.2 344.1 7626.9 395.7 7287.4 339.5 -51.61 596.575 19.5 OK
21 1 344.1 7971.0 329.7 7617.1 353.8 14.34 596.446 16.9 OK
22 0.6 344.1 8315.1 197.8 7815.0 500.1 146.24 596.482 17.6 OK
23 0.3 0.0 8315.1 98.9 7913.9 401.2 -98.92 596.847 24.9 OK
24 0.1 344.1 8659.1 33.0 7946.9 712.3 311.11 596.600 20.0 OK

Table 19: Mahendra

OHT at Mahendra & Mahendra

Peak Factor 2 Maximum surplus 1123.0
3
(m )
Inflow Hours 23 Minimum surplus (m3) 341.7
Outflow Hours 24 1st Guess Capacity 1465 < 1901
(m3)
Minimum wataer level (m) 599.500 As per CPHEEO Capacity (m3) 1479
Initial water level (m) 600.500 Final computed Capacity (m3) 1901
Maximum wataer level (m) 604.500 Max. Population 27929
serving
Initial water depth in tank 1 Initial Volume (m3) 380.13
3
Area of CS 380.13 Fire storage (m ) 50.7

206
Diameter (m) 22 Depth for Fire (m) 0.044
Max. serving Demand (mld) 4.93 Av. Flow (m3/h)= 214.289

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 214.3 594.4 20.5 20.5 573.9 193.75 600.500 20.0 OK
1 0.1 214.3 808.7 20.5 41.1 767.6 193.75 601.010 30.2 OK
2 0.1 214.3 1023.0 20.5 61.6 961.4 193.75 601.519 40.4 OK
3 0.3 214.3 1237.3 61.6 123.2 1114.1 152.68 602.029 50.6 OK
4 1 214.3 1451.6 205.4 328.6 1123.0 8.93 602.431 58.6 OK
5 1.2 214.3 1665.9 246.4 575.0 1090.9 -32.14 602.454 59.1 OK
6 2 214.3 1880.2 410.7 985.7 894.4 -196.43 602.370 57.4 OK
7 2 214.3 2094.4 410.7 1396.5 698.0 -196.43 601.853 47.1 OK
8 2 214.3 2308.7 410.7 1807.2 501.6 -196.43 601.336 36.7 OK
9 1.5 214.3 2523.0 308.0 2115.2 407.8 -93.75 600.819 26.4 OK
10 1.2 214.3 2737.3 246.4 2361.6 375.7 -32.14 600.573 21.5 OK
11 1 214.3 2951.6 205.4 2567.0 384.6 8.93 600.488 19.8 OK
12 1 214.3 3165.9 205.4 2772.4 393.5 8.93 600.512 20.2 OK
13 0.6 214.3 3380.2 123.2 2895.6 484.6 91.07 600.535 20.7 OK
14 0.6 214.3 3594.5 123.2 3018.8 575.7 91.07 600.775 25.5 OK
15 0.5 214.3 3808.8 102.7 3121.5 687.3 111.61 601.014 30.3 OK
16 1.2 214.3 4023.1 246.4 3367.9 655.1 -32.14 601.308 36.2 OK
17 1.5 214.3 4237.3 308.0 3676.0 561.4 -93.75 601.223 34.5 OK
18 1.5 214.3 4451.6 308.0 3984.0 467.6 -93.75 600.977 29.5 OK
19 1.5 214.3 4665.9 308.0 4292.0 373.9 -93.75 600.730 24.6 OK
20 1.2 214.3 4880.2 246.4 4538.5 341.7 -32.14 600.484 19.7 OK
21 1 214.3 5094.5 205.4 4743.8 350.7 8.93 600.399 18.0 OK
22 0.6 214.3 5308.8 123.2 4867.0 441.7 91.07 600.422 18.4 OK
23 0.3 0.0 5308.8 61.6 4928.7 380.1 -61.61 600.662 23.2 OK
24 0.1 214.3 5523.1 20.5 4949.2 573.9 193.75 600.500 20.0 OK

Table 20: New Jadhavwadi1

Earlier there was one one tank proposed. But it had a capacity required is more than 20 Lakhs. It was
directed by PCMC to limit capacity to 20 Lakhs. Hence, it is now proposed to construct 2 tanks. Each
with 20 lakhs capacity. Another tank New Jadhavwadi2 is proposed in Phase3.

OHT at NewJadhavwadi1
Peak Factor 2 Maximum surplus 1201.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 268.3
Outflow Hours 24 1st Guess Capacity 1470 < 1571
(m3)
Minimum wataer level (m) 615.940 As per CPHEEO Capacity (m3) 1767

207
Initial water level (m) 616.940 Final computed Capacity (m3) 1571
Maximum wataer level (m) 620.940 Max. Population 33377
serving
Initial water depth in tank 1 Initial Volume (m3) 314.16
Area of CS 314.16 Fire storage (m3) 60.6
Diameter (m) 20 Depth for Fire (m) 0.064
Max. serving Demand (mld) 5.89 Av. Flow (m3/h)= 256.087

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 256.1 570.2 24.5 24.5 545.7 231.55 616.940 20.0 OK
1 0.1 256.1 826.3 24.5 49.1 777.3 231.55 617.677 34.7 OK
2 0.1 256.1 1082.4 24.5 73.6 1008.8 231.55 618.414 49.5 OK
3 0.3 256.1 1338.5 73.6 147.3 1191.3 182.46 619.151 64.2 OK
4 1 256.1 1594.6 245.4 392.7 1201.9 10.67 619.732 75.8 OK
5 1.2 256.1 1850.7 294.5 687.2 1163.5 -38.41 619.766 76.5 OK
6 2 256.1 2106.8 490.8 1178.0 928.8 -234.75 619.644 74.1 OK
7 2 256.1 2362.9 490.8 1668.8 694.0 -234.75 618.896 59.1 OK
8 2 256.1 2618.9 490.8 2159.7 459.3 -234.75 618.149 44.2 OK
9 1.5 256.1 2875.0 368.1 2527.8 347.2 -112.04 617.402 29.2 OK
10 1.2 256.1 3131.1 294.5 2822.3 308.8 -38.41 617.045 22.1 OK
11 1 256.1 3387.2 245.4 3067.7 319.5 10.67 616.923 19.7 OK
12 1 256.1 3643.3 245.4 3313.1 330.2 10.67 616.957 20.3 OK
13 0.6 256.1 3899.4 147.3 3460.4 439.0 108.84 616.991 21.0 OK
14 0.6 256.1 4155.5 147.3 3607.6 547.8 108.84 617.337 27.9 OK
15 0.5 256.1 4411.6 122.7 3730.3 681.2 133.38 617.684 34.9 OK
16 1.2 256.1 4667.6 294.5 4024.8 642.8 -38.41 618.108 43.4 OK
17 1.5 256.1 4923.7 368.1 4393.0 530.8 -112.04 617.986 40.9 OK
18 1.5 256.1 5179.8 368.1 4761.1 418.7 -112.04 617.629 33.8 OK
19 1.5 256.1 5435.9 368.1 5129.2 306.7 -112.04 617.273 26.7 OK
20 1.2 256.1 5692.0 294.5 5423.7 268.3 -38.41 616.916 19.5 OK
21 1 256.1 5948.1 245.4 5669.1 278.9 10.67 616.794 17.1 OK
22 0.6 256.1 6204.2 147.3 5816.4 387.8 108.84 616.828 17.8 OK
23 0.3 0.0 6204.2 73.6 5890.0 314.2 -73.63 617.174 24.7 OK
24 0.1 256.1 6460.2 24.5 5914.5 545.7 231.55 616.940 20.0 OK

OHT at NewJadhavwadi1
Peak Factor 2 Maximum surplus 1201.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 268.3
Outflow Hours 24 1st Guess Capacity 1470 < 1571
(m3)
Minimum wataer level (m) 615.940 As per CPHEEO Capacity (m3) 1767
3
Initial water level (m) 616.940 Final computed Capacity (m ) 1571
Maximum wataer level (m) 620.940 Max. Population 33377
serving
Initial water depth in tank 1 Initial Volume (m3) 314.16
3
Area of CS 314.16 Fire storage (m ) 60.6
Diameter (m) 20 Depth for Fire (m) 0.064
Max. serving Demand (mld) 5.89 Av. Flow (m3/h)= 256.087

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 256.1 570.2 24.5 24.5 545.7 231.55 616.940 20.0 OK
1 0.1 256.1 826.3 24.5 49.1 777.3 231.55 617.677 34.7 OK
2 0.1 256.1 1082.4 24.5 73.6 1008.8 231.55 618.414 49.5 OK
3 0.3 256.1 1338.5 73.6 147.3 1191.3 182.46 619.151 64.2 OK

208
 4 1 256.1 1594.6 245.4 392.7 1201.9 10.67 619.732 75.8 OK
5 1.2 256.1 1850.7 294.5 687.2 1163.5 -38.41 619.766 76.5 OK
6 2 256.1 2106.8 490.8 1178.0 928.8 -234.75 619.644 74.1 OK
7 2 256.1 2362.9 490.8 1668.8 694.0 -234.75 618.896 59.1 OK
8 2 256.1 2618.9 490.8 2159.7 459.3 -234.75 618.149 44.2 OK
9 1.5 256.1 2875.0 368.1 2527.8 347.2 -112.04 617.402 29.2 OK
10 1.2 256.1 3131.1 294.5 2822.3 308.8 -38.41 617.045 22.1 OK
11 1 256.1 3387.2 245.4 3067.7 319.5 10.67 616.923 19.7 OK
12 1 256.1 3643.3 245.4 3313.1 330.2 10.67 616.957 20.3 OK
13 0.6 256.1 3899.4 147.3 3460.4 439.0 108.84 616.991 21.0 OK
14 0.6 256.1 4155.5 147.3 3607.6 547.8 108.84 617.337 27.9 OK
15 0.5 256.1 4411.6 122.7 3730.3 681.2 133.38 617.684 34.9 OK
16 1.2 256.1 4667.6 294.5 4024.8 642.8 -38.41 618.108 43.4 OK
17 1.5 256.1 4923.7 368.1 4393.0 530.8 -112.04 617.986 40.9 OK
18 1.5 256.1 5179.8 368.1 4761.1 418.7 -112.04 617.629 33.8 OK
19 1.5 256.1 5435.9 368.1 5129.2 306.7 -112.04 617.273 26.7 OK
20 1.2 256.1 5692.0 294.5 5423.7 268.3 -38.41 616.916 19.5 OK
21 1 256.1 5948.1 245.4 5669.1 278.9 10.67 616.794 17.1 OK
22 0.6 256.1 6204.2 147.3 5816.4 387.8 108.84 616.828 17.8 OK
23 0.3 0.0 6204.2 73.6 5890.0 314.2 -73.63 617.174 24.7 OK
24 0.1 256.1 6460.2 24.5 5914.5 545.7 231.55 616.940 20.0 OK

Table 21: Thergaon Gaothan2

OHT at Thergaon Gaothan2

Peak Factor 2 Maximum surplus 1247.4
(m3)
Inflow Hours 23 Minimum surplus (m3) 293.6
Outflow Hours 24 1st Guess Capacity 1541 < 1702
(m3)
Minimum wataer level (m) 584.170 As per CPHEEO Capacity (m3) 1805
Initial water level (m) 585.170 Final computed Capacity (m3) 1702
Maximum wataer level (m) 589.170 Max. Population 34098
serving
Initial water depth in tank 1 Initial Volume (m3) 340.45
Area of CS 340.45 Fire storage (m3) 62.0
Diameter (m) 20.82 Depth for Fire (m) 0.061
Max. serving Demand (mld) 6.02 Av. Flow (m3/h)= 261.622

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 261.6 602.1 25.1 25.1 577.0 236.55 585.170 20.0 OK
1 0.1 261.6 863.7 25.1 50.1 813.5 236.55 585.865 33.9 OK
2 0.1 261.6 1125.3 25.1 75.2 1050.1 236.55 586.560 47.8 OK
3 0.3 261.6 1386.9 75.2 150.4 1236.5 186.41 587.254 61.7 OK
4 1 261.6 1648.6 250.7 401.2 1247.4 10.90 587.802 72.6 OK
5 1.2 261.6 1910.2 300.9 702.0 1208.2 -39.24 587.834 73.3 OK
6 2 261.6 2171.8 501.4 1203.5 968.3 -239.82 587.719 71.0 OK
7 2 261.6 2433.4 501.4 1704.9 728.5 -239.82 587.014 56.9 OK
8 2 261.6 2695.0 501.4 2206.3 488.7 -239.82 586.310 42.8 OK
9 1.5 261.6 2956.7 376.1 2582.4 374.2 -114.46 585.605 28.7 OK

209
 10 1.2 261.6 3218.3 300.9 2883.3 335.0 -39.24 585.269 22.0 OK
11 1 261.6 3479.9 250.7 3134.0 345.9 10.90 585.154 19.7 OK
12 1 261.6 3741.5 250.7 3384.7 356.8 10.90 585.186 20.3 OK
13 0.6 261.6 4003.2 150.4 3535.2 468.0 111.19 585.218 21.0 OK
14 0.6 261.6 4264.8 150.4 3685.6 579.2 111.19 585.545 27.5 OK
15 0.5 261.6 4526.4 125.4 3811.0 715.4 136.26 585.871 34.0 OK
16 1.2 261.6 4788.0 300.9 4111.8 676.2 -39.24 586.271 42.0 OK
17 1.5 261.6 5049.6 376.1 4487.9 561.7 -114.46 586.156 39.7 OK
18 1.5 261.6 5311.3 376.1 4864.0 447.3 -114.46 585.820 33.0 OK
19 1.5 261.6 5572.9 376.1 5240.1 332.8 -114.46 585.484 26.3 OK
20 1.2 261.6 5834.5 300.9 5540.9 293.6 -39.24 585.148 19.6 OK
21 1 261.6 6096.1 250.7 5791.7 304.5 10.90 585.032 17.2 OK
22 0.6 261.6 6357.7 150.4 5942.1 415.7 111.19 585.064 17.9 OK
23 0.3 0.0 6357.7 75.2 6017.3 340.4 -75.22 585.391 24.4 OK
24 0.1 261.6 6619.4 25.1 6042.4 577.0 236.55 585.170 20.0 OK

Table 22: Morewasti Chikhli

OHT at Morewasti Chikhli

Peak Factor 2 Maximum surplus 1796.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 432.9
Outflow Hours 24 1st Guess Capacity 2229 < 2500
(m3)
Minimum wataer level (m) 631.160 As per CPHEEO Capacity (m3) 2581
Initial water level (m) 632.160 Final computed Capacity (m3) 2500
Maximum wataer level (m) 636.160 Max. Population 48745
serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 88.6
Diameter (m) 25.23 Depth for Fire (m) 0.059
Max. serving Demand (mld) 8.60 Av. Flow (m3/h)= 374.000

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 374.0 873.9 35.8 35.8 838.1 338.16 632.160 20.0 OK
1 0.1 374.0 1247.9 35.8 71.7 1176.3 338.16 632.836 33.5 OK
2 0.1 374.0 1621.9 35.8 107.5 1514.4 338.16 633.513 47.1 OK
3 0.3 374.0 1995.9 107.5 215.1 1780.9 266.48 634.189 60.6 OK
4 1 374.0 2369.9 358.4 573.5 1796.5 15.58 634.722 71.2 OK
5 1.2 374.0 2743.9 430.1 1003.6 1740.4 -56.10 634.753 71.9 OK
6 2 374.0 3117.9 716.8 1720.4 1397.5 -342.83 634.641 69.6 OK
7 2 374.0 3491.9 716.8 2437.2 1054.7 -342.83 633.955 55.9 OK
8 2 374.0 3865.9 716.8 3154.1 711.9 -342.83 633.270 42.2 OK
9 1.5 374.0 4239.9 537.6 3691.7 548.3 -163.63 632.584 28.5 OK
10 1.2 374.0 4613.9 430.1 4121.8 492.2 -56.10 632.257 21.9 OK
11 1 374.0 4987.9 358.4 4480.2 507.7 15.58 632.144 19.7 OK
12 1 374.0 5361.9 358.4 4838.6 523.3 15.58 632.176 20.3 OK

210
 13 0.6 374.0 5735.9 215.1 5053.7 682.3 158.95 632.207 20.9 OK
14 0.6 374.0 6109.9 215.1 5268.7 841.2 158.95 632.525 27.3 OK
15 0.5 374.0 6483.9 179.2 5447.9 1036.0 194.79 632.843 33.7 OK
16 1.2 374.0 6857.9 430.1 5878.0 979.9 -56.10 633.232 41.4 OK
17 1.5 374.0 7231.9 537.6 6415.7 816.3 -163.63 633.120 39.2 OK
18 1.5 374.0 7605.9 537.6 6953.3 652.7 -163.63 632.793 32.7 OK
19 1.5 374.0 7979.9 537.6 7490.9 489.0 -163.63 632.465 26.1 OK
20 1.2 374.0 8353.9 430.1 7921.0 432.9 -56.10 632.138 19.6 OK
21 1 374.0 8727.9 358.4 8279.4 448.5 15.58 632.026 17.3 OK
22 0.6 374.0 9101.9 215.1 8494.5 607.5 158.95 632.057 17.9 OK
23 0.3 0.0 9101.9 107.5 8602.0 499.9 -107.53 632.375 24.3 OK
24 0.1 374.0 9475.9 35.8 8637.8 838.1 338.16 632.160 20.0 OK

Table 23: Nav Maha

OHT at Nav
Maha
Peak Factor 2 Maximum surplus 279.8
(m3)
Inflow Hours 23 Minimum surplus (m3) 117.1
Outflow Hours 24 1st Guess Capacity 397 < 625
(m3)
Minimum wataer level (m) 582.440 As per CPHEEO Capacity (m3) 308
Initial water level (m) 583.440 Final computed Capacity (m3) 625
Maximum wataer level (m) 587.440 Max. Population 5817
serving
Initial water depth in tank 1 Initial Volume (m3) 125.09
Area of CS 125.09 Fire storage (m3) 10.6
Diameter (m) 12.62 Depth for Fire (m) 0.028
Max. serving Demand (mld) 1.03 Av. Flow (m3/h)= 44.630

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 44.6 169.7 4.3 4.3 165.4 40.35 583.440 20.0 OK
1 0.1 44.6 214.3 4.3 8.6 205.8 40.35 583.763 26.5 OK
2 0.1 44.6 259.0 4.3 12.8 246.1 40.35 584.085 32.9 OK
3 0.3 44.6 303.6 12.8 25.7 277.9 31.80 584.408 39.4 OK
4 1 44.6 348.2 42.8 68.4 279.8 1.86 584.662 44.4 OK
5 1.2 44.6 392.9 51.3 119.8 273.1 -6.69 584.677 44.7 OK
6 2 44.6 437.5 85.5 205.3 232.2 -40.91 584.623 43.7 OK
7 2 44.6 482.1 85.5 290.8 191.3 -40.91 584.296 37.1 OK
8 2 44.6 526.8 85.5 376.4 150.4 -40.91 583.969 30.6 OK
9 1.5 44.6 571.4 64.2 440.5 130.9 -19.53 583.642 24.0 OK
10 1.2 44.6 616.0 51.3 491.9 124.2 -6.69 583.486 20.9 OK
11 1 44.6 660.7 42.8 534.6 126.0 1.86 583.433 19.9 OK
12 1 44.6 705.3 42.8 577.4 127.9 1.86 583.447 20.1 OK
13 0.6 44.6 749.9 25.7 603.1 146.8 18.97 583.462 20.4 OK

211
 14 0.6 44.6 794.5 25.7 628.7 165.8 18.97 583.614 23.5 OK
15 0.5 44.6 839.2 21.4 650.1 189.1 23.25 583.766 26.5 OK
16 1.2 44.6 883.8 51.3 701.4 182.4 -6.69 583.951 30.2 OK
17 1.5 44.6 928.4 64.2 765.6 162.8 -19.53 583.898 29.2 OK
18 1.5 44.6 973.1 64.2 829.8 143.3 -19.53 583.742 26.0 OK
19 1.5 44.6 1017.7 64.2 893.9 123.8 -19.53 583.586 22.9 OK
20 1.2 44.6 1062.3 51.3 945.2 117.1 -6.69 583.430 19.8 OK
21 1 44.6 1107.0 42.8 988.0 118.9 1.86 583.376 18.7 OK
22 0.6 44.6 1151.6 25.7 1013.7 137.9 18.97 583.391 19.0 OK
23 0.3 0.0 1151.6 12.8 1026.5 125.1 -12.83 583.543 22.1 OK
24 0.1 44.6 1196.2 4.3 1030.8 165.4 40.35 583.440 20.0 OK

Table 24: Naydu

OHT at Naydu
Peak Factor 2 Maximum surplus 1110.8
(m3)
Inflow Hours 23 Minimum surplus (m3) 181.3
Outflow Hours 24 1st Guess Capacity 1292
(m3)
Minimum wataer level (m) 583.140 As per CPHEEO Capacity (m3) 1759
Initial water level (m) 584.140 Final computed Capacity (m3) 1135
Maximum wataer level (m) 588.140 Max. Population 33227
serving
Initial water depth in tank 1 Initial Volume (m3) 226.98
Area of CS 226.98 Fire storage (m3) 60.4
Diameter (m) 17 Depth for Fire (m) 0.089
Max. serving Demand (mld) 5.86 Av. Flow (m3/h)= 254.935

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 254.9 481.9 24.4 24.4 457.5 230.50 584.140 20.0 OK
1 0.1 254.9 736.9 24.4 48.9 688.0 230.50 585.156 40.3 OK
2 0.1 254.9 991.8 24.4 73.3 918.5 230.50 586.171 60.6 OK
3 0.3 254.9 1246.7 73.3 146.6 1100.1 181.64 587.187 80.9 OK
4 1 254.9 1501.7 244.3 390.9 1110.8 10.62 587.987 96.9 OK
5 1.2 254.9 1756.6 293.2 684.1 1072.5 -38.24 588.034 97.9 OK
6 2 254.9 2011.5 488.6 1172.7 838.8 -233.69 587.865 94.5 OK
7 2 254.9 2266.5 488.6 1661.3 605.1 -233.69 586.836 73.9 OK
8 2 254.9 2521.4 488.6 2150.0 371.4 -233.69 585.806 53.3 OK
9 1.5 254.9 2776.3 366.5 2516.4 259.9 -111.53 584.776 32.7 OK
10 1.2 254.9 3031.3 293.2 2809.6 221.7 -38.24 584.285 22.9 OK
11 1 254.9 3286.2 244.3 3053.9 232.3 10.62 584.117 19.5 OK
12 1 254.9 3541.1 244.3 3298.2 242.9 10.62 584.163 20.5 OK
13 0.6 254.9 3796.1 146.6 3444.8 351.3 108.35 584.210 21.4 OK
14 0.6 254.9 4051.0 146.6 3591.4 459.6 108.35 584.688 31.0 OK
15 0.5 254.9 4305.9 122.2 3713.6 592.4 132.78 585.165 40.5 OK

212
 16 1.2 254.9 4560.9 293.2 4006.7 554.1 -38.24 585.750 52.2 OK
17 1.5 254.9 4815.8 366.5 4373.2 442.6 -111.53 585.581 48.8 OK
18 1.5 254.9 5070.7 366.5 4739.7 331.1 -111.53 585.090 39.0 OK
19 1.5 254.9 5325.7 366.5 5106.1 219.5 -111.53 584.599 29.2 OK
20 1.2 254.9 5580.6 293.2 5399.3 181.3 -38.24 584.107 19.3 OK
21 1 254.9 5835.5 244.3 5643.6 191.9 10.62 583.939 16.0 OK
22 0.6 254.9 6090.5 146.6 5790.2 300.3 108.35 583.986 16.9 OK
23 0.3 0.0 6090.5 73.3 5863.5 227.0 -73.29 584.463 26.5 OK
24 0.1 254.9 6345.4 24.4 5887.9 457.5 230.50 584.140 20.0 OK

Table 25: Nehru Nagar1

OHT at Nehru Nagar1

Peak Factor 2 Maximum surplus 833.6
(m3)
Inflow Hours 23 Minimum surplus (m3) 325.0
Outflow Hours 24 1st Guess Capacity 1159 < 1750
(m3)
Minimum wataer level (m) 599.140 As per CPHEEO Capacity (m3) 963
Initial water level (m) 600.140 Final computed Capacity (m3) 1750
Maximum wataer level (m) 604.140 Max. Population 18183
serving
Initial water depth in tank 1 Initial Volume (m3) 350.00
Area of CS 350.00 Fire storage (m3) 33.0
Diameter (m) 21.11 Depth for Fire (m) 0.031
Max. serving Demand (mld) 3.21 Av. Flow (m3/h)= 139.513

Inflow (m3/h) Outflow (m3/h) Surplus

Cumu.
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 139.5 489.5 13.4 13.4 476.1 126.14 600.140 20.0 OK
1 0.1 139.5 629.0 13.4 26.7 602.3 126.14 600.500 27.2 OK
2 0.1 139.5 768.5 13.4 40.1 728.4 126.14 600.861 34.4 OK
3 0.3 139.5 908.1 40.1 80.2 827.8 99.40 601.221 41.6 OK
4 1 139.5 1047.6 133.7 213.9 833.6 5.81 601.505 47.3 OK
5 1.2 139.5 1187.1 160.4 374.4 812.7 -20.93 601.522 47.6 OK
6 2 139.5 1326.6 267.4 641.8 684.8 -127.89 601.462 46.4 OK
7 2 139.5 1466.1 267.4 909.2 556.9 -127.89 601.097 39.1 OK
8 2 139.5 1605.6 267.4 1176.6 429.1 -127.89 600.731 31.8 OK
9 1.5 139.5 1745.1 200.6 1377.1 368.0 -61.04 600.366 24.5 OK
10 1.2 139.5 1884.6 160.4 1537.6 347.1 -20.93 600.191 21.0 OK
11 1 139.5 2024.2 133.7 1671.3 352.9 5.81 600.132 19.8 OK
12 1 139.5 2163.7 133.7 1805.0 358.7 5.81 600.148 20.2 OK
13 0.6 139.5 2303.2 80.2 1885.2 418.0 59.29 600.165 20.5 OK
14 0.6 139.5 2442.7 80.2 1965.4 477.3 59.29 600.334 23.9 OK
15 0.5 139.5 2582.2 66.9 2032.2 550.0 72.66 600.504 27.3 OK
16 1.2 139.5 2721.7 160.4 2192.7 529.0 -20.93 600.711 31.4 OK

213
 17 1.5 139.5 2861.2 200.6 2393.2 468.0 -61.04 600.652 30.2 OK
18 1.5 139.5 3000.7 200.6 2593.8 407.0 -61.04 600.477 26.7 OK
19 1.5 139.5 3140.3 200.6 2794.3 345.9 -61.04 600.303 23.3 OK
20 1.2 139.5 3279.8 160.4 2954.8 325.0 -20.93 600.128 19.8 OK
21 1 139.5 3419.3 133.7 3088.5 330.8 5.81 600.069 18.6 OK
22 0.6 139.5 3558.8 80.2 3168.7 390.1 59.29 600.085 18.9 OK
23 0.3 0.0 3558.8 40.1 3208.8 350.0 -40.11 600.255 22.3 OK
24 0.1 139.5 3698.3 13.4 3222.2 476.1 126.14 600.140 20.0 OK

Table 26: Nehru Nagar2

OHT at Nehru Nagar2

Peak Factor 2 Maximum surplus 764.7
(m3)
Inflow Hours 23 Minimum surplus (m3) 328.6
Outflow Hours 24 1st Guess Capacity 1093 <3
(m3)
Minimum wataer level (m) 599.120 As per CPHEEO Capacity (m3) 825
Initial water level (m) 600.120 Final computed Capacity (m3) 1750
Maximum wataer level (m) 604.120 Max. Population 15590
serving
Initial water depth in tank 1 Initial Volume (m3) 350.00
Area of CS 350 Fire storage (m3) 28.3
Diameter (m) 21.11 Depth for Fire (m) 0.027
Max. serving Demand (mld) 2.75 Av. Flow (m3/h)= 119.617

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 119.6 469.6 11.5 11.5 458.2 108.15 600.120 20.0 OK
1 0.1 119.6 589.2 11.5 22.9 566.3 108.15 600.429 26.2 OK
2 0.1 119.6 708.9 11.5 34.4 674.5 108.15 600.738 32.4 OK
3 0.3 119.6 828.5 34.4 68.8 759.7 85.23 601.047 38.5 OK
4 1 119.6 948.1 114.6 183.4 764.7 4.98 601.291 43.4 OK
5 1.2 119.6 1067.7 137.6 321.0 746.7 -17.94 601.305 43.7 OK
6 2 119.6 1187.3 229.3 550.2 637.1 -109.65 601.254 42.7 OK
7 2 119.6 1306.9 229.3 779.5 527.4 -109.65 600.940 36.4 OK
8 2 119.6 1426.6 229.3 1008.8 417.8 -109.65 600.627 30.1 OK
9 1.5 119.6 1546.2 172.0 1180.7 365.5 -52.33 600.314 23.9 OK
10 1.2 119.6 1665.8 137.6 1318.3 347.5 -17.94 600.164 20.9 OK
11 1 119.6 1785.4 114.6 1432.9 352.5 4.98 600.113 19.9 OK
12 1 119.6 1905.0 114.6 1547.6 357.5 4.98 600.127 20.1 OK
13 0.6 119.6 2024.6 68.8 1616.3 408.3 50.84 600.141 20.4 OK
14 0.6 119.6 2144.3 68.8 1685.1 459.2 50.84 600.287 23.3 OK
15 0.5 119.6 2263.9 57.3 1742.4 521.5 62.30 600.432 26.2 OK
16 1.2 119.6 2383.5 137.6 1880.0 503.5 -17.94 600.610 29.8 OK
17 1.5 119.6 2503.1 172.0 2051.9 451.2 -52.33 600.559 28.8 OK

214
 18 1.5 119.6 2622.7 172.0 2223.9 398.8 -52.33 600.409 25.8 OK
19 1.5 119.6 2742.3 172.0 2395.8 346.5 -52.33 600.260 22.8 OK
20 1.2 119.6 2862.0 137.6 2533.4 328.6 -17.94 600.110 19.8 OK
21 1 119.6 2981.6 114.6 2648.0 333.6 4.98 600.059 18.8 OK
22 0.6 119.6 3101.2 68.8 2716.8 384.4 50.84 600.073 19.1 OK
23 0.3 0.0 3101.2 34.4 2751.2 350.0 -34.39 600.218 22.0 OK
24 0.1 119.6 3220.8 11.5 2762.7 458.2 108.15 600.120 20.0 OK

Table 27: New Panjarpol

OHT at New Panjarpol

Peak Factor 2 Maximum surplus 546.1
(m3)
Inflow Hours 23 Minimum surplus (m3) 392.5
Outflow Hours 24 1st Guess Capacity 939 < 2000
(m3)
Minimum wataer level (m) 616.000 As per CPHEEO Capacity (m3) 291
Initial water level (m) 617.000 Final computed Capacity (m3) 2000
Maximum wataer level (m) 621.000 Max. Population 5491
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 10.0
Diameter (m) 22.57 Depth for Fire (m) 0.008
Max. serving Demand (mld) 0.97 Av. Flow (m3/h)= 42.130

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 42.1 442.2 4.0 4.0 438.2 38.09 617.000 20.0 OK
1 0.1 42.1 484.3 4.0 8.1 476.3 38.09 617.095 21.9 OK
2 0.1 42.1 526.5 4.0 12.1 514.4 38.09 617.190 23.8 OK
3 0.3 42.1 568.6 12.1 24.2 544.4 30.02 617.286 25.7 OK
4 1 42.1 610.7 40.4 64.6 546.1 1.76 617.361 27.2 OK
5 1.2 42.1 652.9 48.5 113.1 539.8 -6.32 617.365 27.3 OK
6 2 42.1 695.0 80.8 193.8 501.2 -38.62 617.349 27.0 OK
7 2 42.1 737.1 80.8 274.6 462.6 -38.62 617.253 25.1 OK
8 2 42.1 779.3 80.8 355.3 424.0 -38.62 617.156 23.1 OK
9 1.5 42.1 821.4 60.6 415.9 405.5 -18.43 617.060 21.2 OK
10 1.2 42.1 863.5 48.5 464.3 399.2 -6.32 617.014 20.3 OK
11 1 42.1 905.7 40.4 504.7 401.0 1.76 616.998 20.0 OK
12 1 42.1 947.8 40.4 545.1 402.7 1.76 617.002 20.0 OK
13 0.6 42.1 989.9 24.2 569.3 420.6 17.91 617.007 20.1 OK
14 0.6 42.1 1032.0 24.2 593.5 438.5 17.91 617.051 21.0 OK
15 0.5 42.1 1074.2 20.2 613.7 460.5 21.94 617.096 21.9 OK
16 1.2 42.1 1116.3 48.5 662.2 454.2 -6.32 617.151 23.0 OK
17 1.5 42.1 1158.4 60.6 722.7 435.7 -18.43 617.135 22.7 OK
18 1.5 42.1 1200.6 60.6 783.3 417.3 -18.43 617.089 21.8 OK
19 1.5 42.1 1242.7 60.6 843.8 398.9 -18.43 617.043 20.9 OK

215
 20 1.2 42.1 1284.8 48.5 892.3 392.5 -6.32 616.997 19.9 OK
21 1 42.1 1327.0 40.4 932.7 394.3 1.76 616.981 19.6 OK
22 0.6 42.1 1369.1 24.2 956.9 412.2 17.91 616.986 19.7 OK
23 0.3 0.0 1369.1 12.1 969.0 400.1 -12.11 617.030 20.6 OK
24 0.1 42.1 1411.2 4.0 973.0 438.2 38.09 617.000 20.0 OK

Table 28: New Pimple Gurav Garden 20 Lakhs

OHT at New Pimple Gurav Garden 20 Lakhs

Peak Factor 2 Maximum surplus 1439.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 325.4
Outflow Hours 24 1st Guess Capacity 1764 < 1901
(m3)
Minimum wataer level (m) 582.500 As per CPHEEO Capacity (m3) 2108
Initial water level (m) 583.500 Final computed Capacity (m3) 1901
Maximum wataer level (m) 587.500 Max. Population 39810
serving
Initial water depth in tank 1 Initial Volume (m3) 380.13
3
Area of CS 380.13 Fire storage (m ) 72.3
Diameter (m) 22 Depth for Fire (m) 0.063
Max. serving Demand (mld) 7.03 Av. Flow (m3/h)= 305.448

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 305.4 685.6 29.3 29.3 656.3 276.18 583.500 20.0 OK
1 0.1 305.4 991.0 29.3 58.5 932.5 276.18 584.227 34.5 OK
2 0.1 305.4 1296.5 29.3 87.8 1208.7 276.18 584.953 49.1 OK
3 0.3 305.4 1601.9 87.8 175.6 1426.3 217.63 585.680 63.6 OK
4 1 305.4 1907.4 292.7 468.4 1439.0 12.73 586.252 75.0 OK
5 1.2 305.4 2212.8 351.3 819.6 1393.2 -45.82 586.286 75.7 OK
6 2 305.4 2518.3 585.4 1405.1 1113.2 -279.99 586.165 73.3 OK
7 2 305.4 2823.7 585.4 1990.5 833.2 -279.99 585.428 58.6 OK
8 2 305.4 3129.2 585.4 2575.9 553.2 -279.99 584.692 43.8 OK
9 1.5 305.4 3434.6 439.1 3015.0 419.6 -133.63 583.955 29.1 OK
10 1.2 305.4 3740.1 351.3 3366.3 373.8 -45.82 583.604 22.1 OK
11 1 305.4 4045.5 292.7 3659.0 386.5 12.73 583.483 19.7 OK
12 1 305.4 4351.0 292.7 3951.7 399.2 12.73 583.517 20.3 OK
13 0.6 305.4 4656.4 175.6 4127.4 529.0 129.82 583.550 21.0 OK
14 0.6 305.4 4961.9 175.6 4303.0 658.9 129.82 583.892 27.8 OK
15 0.5 305.4 5267.3 146.4 4449.4 817.9 159.09 584.233 34.7 OK
16 1.2 305.4 5572.7 351.3 4800.6 772.1 -45.82 584.652 43.0 OK
17 1.5 305.4 5878.2 439.1 5239.7 638.5 -133.63 584.531 40.6 OK

216
 18 1.5 305.4 6183.6 439.1 5678.8 504.9 -133.63 584.180 33.6 OK
19 1.5 305.4 6489.1 439.1 6117.9 371.2 -133.63 583.828 26.6 OK
20 1.2 305.4 6794.5 351.3 6469.1 325.4 -45.82 583.477 19.5 OK
21 1 305.4 7100.0 292.7 6761.9 338.1 12.73 583.356 17.1 OK
22 0.6 305.4 7405.4 175.6 6937.5 467.9 129.82 583.390 17.8 OK
23 0.3 0.0 7405.4 87.8 7025.3 380.1 -87.82 583.731 24.6 OK
24 0.1 305.4 7710.9 29.3 7054.6 656.3 276.18 583.500 20.0 OK

Table 29: New_Punavale

OHT at New_Punavale
Peak Factor 2 Maximum surplus 1495.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 340.9
Outflow Hours 24 1st Guess Capacity 1836 < 1988
(m3)
Minimum wataer level (m) 591.970 As per CPHEEO Capacity (m3) 2185
Initial water level (m) 592.970 Final computed Capacity (m3) 1988
Maximum wataer level (m) 596.970 Max. Population 41277
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 75.0
Diameter (m) 22.5 Depth for Fire (m) 0.063
Max. serving Demand (mld) 7.28 Av. Flow (m3/h)= 316.704

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 316.7 714.3 30.4 30.4 684.0 286.35 592.970 20.0 OK
1 0.1 316.7 1031.0 30.4 60.7 970.3 286.35 593.690 34.4 OK
2 0.1 316.7 1347.7 30.4 91.1 1256.7 286.35 594.410 48.8 OK
3 0.3 316.7 1664.4 91.1 182.1 1482.3 225.65 595.131 63.2 OK
4 1 316.7 1981.1 303.5 485.6 1495.5 13.20 595.698 74.6 OK
5 1.2 316.7 2297.8 364.2 849.8 1448.0 -47.51 595.731 75.2 OK
6 2 316.7 2614.5 607.0 1456.8 1157.7 -290.31 595.612 72.8 OK
7 2 316.7 2931.2 607.0 2063.9 867.4 -290.31 594.882 58.2 OK
8 2 316.7 3247.9 607.0 2670.9 577.1 -290.31 594.152 43.6 OK
9 1.5 316.7 3564.7 455.3 3126.1 438.5 -138.56 593.421 29.0 OK
10 1.2 316.7 3881.4 364.2 3490.3 391.0 -47.51 593.073 22.1 OK
11 1 316.7 4198.1 303.5 3793.9 404.2 13.20 592.953 19.7 OK
12 1 316.7 4514.8 303.5 4097.4 417.4 13.20 592.987 20.3 OK
13 0.6 316.7 4831.5 182.1 4279.5 552.0 134.60 593.020 21.0 OK
14 0.6 316.7 5148.2 182.1 4461.6 686.6 134.60 593.358 27.8 OK
15 0.5 316.7 5464.9 151.8 4613.3 851.6 164.95 593.697 34.5 OK
16 1.2 316.7 5781.6 364.2 4977.5 804.0 -47.51 594.112 42.8 OK
17 1.5 316.7 6098.3 455.3 5432.8 665.5 -138.56 593.992 40.4 OK
18 1.5 316.7 6415.0 455.3 5888.1 526.9 -138.56 593.644 33.5 OK
19 1.5 316.7 6731.7 455.3 6343.3 388.4 -138.56 593.295 26.5 OK
20 1.2 316.7 7048.4 364.2 6707.5 340.9 -47.51 592.947 19.5 OK
21 1 316.7 7365.1 303.5 7011.0 354.1 13.20 592.827 17.1 OK

217
 22 0.6 316.7 7681.8 182.1 7193.1 488.7 134.60 592.860 17.8 OK
23 0.3 0.0 7681.8 91.1 7284.2 397.6 -91.05 593.199 24.6 OK
24 0.1 316.7 7998.5 30.4 7314.6 684.0 286.35 592.970 20.0 OK

Table 30: Panjarpol

OHT at Panjarpo
l
Peak Factor 2 Maximum surplus (m3) 1218.9
Inflow Hours 23 Minimum surplus (m3) 515.3
Outflow Hours 24 1st Guess Capacity (m3) 1734 < 2749
Minimum wataer level (m) 614.900 As per CPHEEO Capacity (m3) 1332
Initial water level (m) 615.900 Final computed Capacity (m3) 2749
Maximum wataer level (m) 619.900 Max. Population 25153
serving
Initial water depth in tank 1 Initial Volume (m3) 549.88
3
Area of CS 549.88 Fire storage (m ) 45.7
Diameter (m) 26.46 Depth for Fire (m) 0.028
Max. serving Demand (mld) 4.44 Av. Flow (m3/h)= 192.991

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 193.0 742.9 18.5 18.5 724.4 174.50 615.900 20.0 OK
1 0.1 193.0 935.9 18.5 37.0 898.9 174.50 616.217 26.3 OK
2 0.1 193.0 1128.9 18.5 55.5 1073.4 174.50 616.535 32.7 OK
3 0.3 193.0 1321.8 55.5 111.0 1210.9 137.51 616.852 39.0 OK
4 1 193.0 1514.8 185.0 295.9 1218.9 8.04 617.102 44.0 OK
5 1.2 193.0 1707.8 221.9 517.9 1190.0 -28.95 617.117 44.3 OK
6 2 193.0 1900.8 369.9 887.8 1013.1 -176.91 617.064 43.3 OK
7 2 193.0 2093.8 369.9 1257.7 836.2 -176.91 616.742 36.8 OK
8 2 193.0 2286.8 369.9 1627.6 659.2 -176.91 616.421 30.4 OK
9 1.5 193.0 2479.8 277.4 1905.0 574.8 -84.43 616.099 24.0 OK
10 1.2 193.0 2672.8 221.9 2126.9 545.9 -28.95 615.945 20.9 OK
11 1 193.0 2865.8 185.0 2311.9 553.9 8.04 615.893 19.9 OK
12 1 193.0 3058.8 185.0 2496.8 561.9 8.04 615.907 20.1 OK
13 0.6 193.0 3251.8 111.0 2607.8 644.0 82.02 615.922 20.4 OK
14 0.6 193.0 3444.8 111.0 2718.8 726.0 82.02 616.071 23.4 OK
15 0.5 193.0 3637.7 92.5 2811.2 826.5 100.52 616.220 26.4 OK
16 1.2 193.0 3830.7 221.9 3033.2 797.6 -28.95 616.403 30.1 OK
17 1.5 193.0 4023.7 277.4 3310.6 713.1 -84.43 616.350 29.0 OK
18 1.5 193.0 4216.7 277.4 3588.0 628.7 -84.43 616.197 25.9 OK
19 1.5 193.0 4409.7 277.4 3865.5 544.3 -84.43 616.043 22.9 OK
20 1.2 193.0 4602.7 221.9 4087.4 515.3 -28.95 615.890 19.8 OK
21 1 193.0 4795.7 185.0 4272.3 523.3 8.04 615.837 18.7 OK

218
 22 0.6 193.0 4988.7 111.0 4383.3 605.4 82.02 615.852 19.0 OK
23 0.3 0.0 4988.7 55.5 4438.8 549.9 -55.49 616.001 22.0 OK
24 0.1 193.0 5181.7 18.5 4457.3 724.4 174.50 615.900 20.0 OK

Table 31: Pimple Gurao1

OHT at Pimple Gurao1

Peak Factor 2 Maximum surplus 816.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 242.0
Outflow Hours 24 1st Guess Capacity 1059 < 1351
(m3)
Minimum wataer level (m) 577.430 As per CPHEEO Capacity (m3) 1088
Initial water level (m) 578.430 Final computed Capacity (m3) 1351
Maximum wataer level (m) 582.430 Max. Population 20553
serving
Initial water depth in tank 1 Initial Volume (m3) 270.26
Area of CS 270.26 Fire storage (m3) 37.3
Diameter (m) 18.55 Depth for Fire (m) 0.046
Max. serving Demand (mld) 3.63 Av. Flow (m3/h)= 157.696

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 157.7 428.0 15.1 15.1 412.8 142.58 578.430 20.0 OK
1 0.1 157.7 585.6 15.1 30.2 555.4 142.58 578.958 30.6 OK
2 0.1 157.7 743.3 15.1 45.3 698.0 142.58 579.485 41.1 OK
3 0.3 157.7 901.0 45.3 90.7 810.4 112.36 580.013 51.7 OK
4 1 157.7 1058.7 151.1 241.8 816.9 6.57 580.428 60.0 OK
5 1.2 157.7 1216.4 181.4 423.2 793.3 -23.65 580.453 60.5 OK
6 2 157.7 1374.1 302.3 725.4 648.7 -144.55 580.365 58.7 OK
7 2 157.7 1531.8 302.3 1027.7 504.2 -144.55 579.830 48.0 OK
8 2 157.7 1689.5 302.3 1329.9 359.6 -144.55 579.296 37.3 OK
9 1.5 157.7 1847.2 226.7 1556.6 290.6 -68.99 578.761 26.6 OK
10 1.2 157.7 2004.9 181.4 1737.9 267.0 -23.65 578.505 21.5 OK
11 1 157.7 2162.6 151.1 1889.1 273.5 6.57 578.418 19.8 OK
12 1 157.7 2320.3 151.1 2040.2 280.1 6.57 578.442 20.2 OK
13 0.6 157.7 2478.0 90.7 2130.9 347.1 67.02 578.466 20.7 OK
14 0.6 157.7 2635.7 90.7 2221.5 414.2 67.02 578.714 25.7 OK
15 0.5 157.7 2793.4 75.6 2297.1 496.3 82.13 578.962 30.6 OK
16 1.2 157.7 2951.1 181.4 2478.5 472.6 -23.65 579.266 36.7 OK
17 1.5 157.7 3108.8 226.7 2705.1 403.6 -68.99 579.179 35.0 OK
18 1.5 157.7 3266.5 226.7 2931.8 334.7 -68.99 578.924 29.9 OK
19 1.5 157.7 3424.2 226.7 3158.5 265.7 -68.99 578.668 24.8 OK
20 1.2 157.7 3581.9 181.4 3339.9 242.0 -23.65 578.413 19.7 OK

219
 21 1 157.7 3739.6 151.1 3491.0 248.6 6.57 578.325 17.9 OK
22 0.6 157.7 3897.3 90.7 3581.7 315.6 67.02 578.350 18.4 OK
23 0.3 0.0 3897.3 45.3 3627.0 270.3 -45.34 578.598 23.4 OK
24 0.1 157.7 4055.0 15.1 3642.1 412.8 142.58 578.430 20.0 OK

Table 32: Pimple Gurao2

OHT at Pimple Gurao2

Peak Factor 2 Maximum surplus 828.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 180.9
Outflow Hours 24 1st Guess Capacity 1010 < 1064
(m3)
Minimum wataer level (m) 577.430 As per CPHEEO Capacity (m3) 1226
Initial water level (m) 578.430 Final computed Capacity (m3) 1064
Maximum wataer level (m) 582.430 Max. Population 23163
serving
Initial water depth in tank 1 Initial Volume (m3) 212.79
Area of CS 212.79 Fire storage (m3) 42.1
Diameter (m) 16.46 Depth for Fire (m) 0.066
Max. serving Demand (mld) 4.09 Av. Flow (m3/h)= 177.720

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 177.7 390.5 17.0 17.0 373.5 160.69 578.430 20.0 OK
1 0.1 177.7 568.2 17.0 34.1 534.2 160.69 579.185 35.1 OK
2 0.1 177.7 746.0 17.0 51.1 694.9 160.69 579.940 50.2 OK
3 0.3 177.7 923.7 51.1 102.2 821.5 126.63 580.695 65.3 OK
4 1 177.7 1101.4 170.3 272.5 828.9 7.41 581.291 77.2 OK
5 1.2 177.7 1279.1 204.4 476.9 802.2 -26.66 581.325 77.9 OK
6 2 177.7 1456.8 340.6 817.5 639.3 -162.91 581.200 75.4 OK
7 2 177.7 1634.6 340.6 1158.1 476.4 -162.91 580.434 60.1 OK
8 2 177.7 1812.3 340.6 1498.8 313.5 -162.91 579.669 44.8 OK
9 1.5 177.7 1990.0 255.5 1754.2 235.7 -77.75 578.903 29.5 OK
10 1.2 177.7 2167.7 204.4 1958.6 209.1 -26.66 578.538 22.2 OK
11 1 177.7 2345.4 170.3 2128.9 216.5 7.41 578.413 19.7 OK
12 1 177.7 2523.2 170.3 2299.3 223.9 7.41 578.447 20.3 OK
13 0.6 177.7 2700.9 102.2 2401.4 299.4 75.53 578.482 21.0 OK
14 0.6 177.7 2878.6 102.2 2503.6 375.0 75.53 578.837 28.1 OK
15 0.5 177.7 3056.3 85.2 2588.8 467.5 92.56 579.192 35.2 OK
16 1.2 177.7 3234.0 204.4 2793.2 440.9 -26.66 579.627 43.9 OK
17 1.5 177.7 3411.8 255.5 3048.6 363.1 -77.75 579.502 41.4 OK
18 1.5 177.7 3589.5 255.5 3304.1 285.4 -77.75 579.136 34.1 OK
19 1.5 177.7 3767.2 255.5 3559.6 207.6 -77.75 578.771 26.8 OK
20 1.2 177.7 3944.9 204.4 3764.0 180.9 -26.66 578.406 19.5 OK
21 1 177.7 4122.6 170.3 3934.3 188.4 7.41 578.280 17.0 OK
22 0.6 177.7 4300.4 102.2 4036.5 263.9 75.53 578.315 17.7 OK

220
 23 0.3 0.0 4300.4 51.1 4087.6 212.8 -51.09 578.670 24.8 OK
24 0.1 177.7 4478.1 17.0 4104.6 373.5 160.69 578.430 20.0 OK

Table 33: Pimple Gurao3

OHT at Pimple Gurao3

Peak Factor 2 Maximum surplus 867.4
(m3)
Inflow Hours 23 Minimum surplus (m3) 165.6
Outflow Hours 24 1st Guess Capacity 1033 < 1000
(m3)
Minimum wataer level (m) 577.630 As per CPHEEO Capacity (m3) 1328
Initial water level (m) 578.630 Final computed Capacity (m3) 1000
Maximum wataer level (m) 582.630 Max. Population 25088
serving
Initial water depth in tank 1 Initial Volume (m3) 200.06
3
Area of CS 200.06 Fire storage (m ) 45.6
Diameter (m) 15.96 Depth for Fire (m) 0.076
Max. serving Demand (mld) 4.43 Av. Flow (m3/h)= 192.494

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 192.5 392.6 18.4 18.4 374.1 174.05 578.630 20.0 OK
1 0.1 192.5 585.0 18.4 36.9 548.2 174.05 579.500 37.4 OK
2 0.1 192.5 777.5 18.4 55.3 722.2 174.05 580.370 54.8 OK
3 0.3 192.5 970.0 55.3 110.7 859.4 137.15 581.240 72.2 OK
4 1 192.5 1162.5 184.5 295.2 867.4 8.02 581.925 85.9 OK
5 1.2 192.5 1355.0 221.4 516.5 838.5 -28.87 581.966 86.7 OK
6 2 192.5 1547.5 368.9 885.5 662.0 -176.45 581.821 83.8 OK
7 2 192.5 1740.0 368.9 1254.4 485.6 -176.45 580.939 66.2 OK
8 2 192.5 1932.5 368.9 1623.4 309.1 -176.45 580.057 48.5 OK
9 1.5 192.5 2125.0 276.7 1900.1 224.9 -84.22 579.175 30.9 OK
10 1.2 192.5 2317.5 221.4 2121.4 196.0 -28.87 578.754 22.5 OK
11 1 192.5 2510.0 184.5 2305.9 204.1 8.02 578.610 19.6 OK
12 1 192.5 2702.5 184.5 2490.4 212.1 8.02 578.650 20.4 OK
13 0.6 192.5 2895.0 110.7 2601.1 293.9 81.81 578.690 21.2 OK
14 0.6 192.5 3087.5 110.7 2711.8 375.7 81.81 579.099 29.4 OK
15 0.5 192.5 3280.0 92.2 2804.0 476.0 100.26 579.508 37.6 OK
16 1.2 192.5 3472.5 221.4 3025.4 447.1 -28.87 580.009 47.6 OK
17 1.5 192.5 3664.9 276.7 3302.1 362.9 -84.22 579.865 44.7 OK
18 1.5 192.5 3857.4 276.7 3578.8 278.7 -84.22 579.444 36.3 OK
19 1.5 192.5 4049.9 276.7 3855.5 194.4 -84.22 579.023 27.9 OK
20 1.2 192.5 4242.4 221.4 4076.9 165.6 -28.87 578.602 19.4 OK

221
 21 1 192.5 4434.9 184.5 4261.3 173.6 8.02 578.458 16.6 OK
22 0.6 192.5 4627.4 110.7 4372.0 255.4 81.81 578.498 17.4 OK
23 0.3 0.0 4627.4 55.3 4427.4 200.1 -55.34 578.907 25.5 OK
24 0.1 192.5 4819.9 18.4 4445.8 374.1 174.05 578.630 20.0 OK

Table 34: Pimple Gurav Garden

OHT at Pimple Gurav

Garden
Peak Factor 2 Maximum surplus 737.1
3
(m )
Inflow Hours 23 Minimum surplus (m3) 277.3
Outflow Hours 24 1st Guess Capacity 1014 < 1499
(m3)
Minimum wataer level (m) 576.850 As per CPHEEO Capacity (m3) 870
3
Initial water level (m) 577.850 Final computed Capacity (m ) 1499
Maximum wataer level (m) 581.850 Max. Population 16438
serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
3
Area of CS 299.87 Fire storage (m ) 29.9
Diameter (m) 19.54 Depth for Fire (m) 0.033
Max. serving Demand (mld) 2.90 Av. Flow (m3/h)= 126.125

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 126.1 426.0 12.1 12.1 413.9 114.04 577.850 20.0 OK
1 0.1 126.1 552.1 12.1 24.2 528.0 114.04 578.230 27.6 OK
2 0.1 126.1 678.2 12.1 36.3 642.0 114.04 578.611 35.2 OK
3 0.3 126.1 804.4 36.3 72.5 731.9 89.86 578.991 42.8 OK
4 1 126.1 930.5 120.9 193.4 737.1 5.26 579.291 48.8 OK
5 1.2 126.1 1056.6 145.0 338.4 718.2 -18.92 579.308 49.2 OK
6 2 126.1 1182.7 241.7 580.2 602.6 -115.61 579.245 47.9 OK
7 2 126.1 1308.9 241.7 821.9 487.0 -115.61 578.859 40.2 OK
8 2 126.1 1435.0 241.7 1063.7 371.3 -115.61 578.474 32.5 OK
9 1.5 126.1 1561.1 181.3 1245.0 316.2 -55.18 578.088 24.8 OK
10 1.2 126.1 1687.2 145.0 1390.0 297.2 -18.92 577.904 21.1 OK
11 1 126.1 1813.4 120.9 1510.9 302.5 5.26 577.841 19.8 OK
12 1 126.1 1939.5 120.9 1631.7 307.8 5.26 577.859 20.2 OK
13 0.6 126.1 2065.6 72.5 1704.3 361.4 53.60 577.876 20.5 OK
14 0.6 126.1 2191.7 72.5 1776.8 415.0 53.60 578.055 24.1 OK
15 0.5 126.1 2317.9 60.4 1837.2 480.7 65.69 578.234 27.7 OK
16 1.2 126.1 2444.0 145.0 1982.3 461.7 -18.92 578.453 32.1 OK
17 1.5 126.1 2570.1 181.3 2163.6 406.6 -55.18 578.390 30.8 OK
18 1.5 126.1 2696.2 181.3 2344.9 351.4 -55.18 578.206 27.1 OK
19 1.5 126.1 2822.4 181.3 2526.2 296.2 -55.18 578.022 23.4 OK
20 1.2 126.1 2948.5 145.0 2671.2 277.3 -18.92 577.838 19.8 OK
21 1 126.1 3074.6 120.9 2792.1 282.5 5.26 577.775 18.5 OK

222
 22 0.6 126.1 3200.7 72.5 2864.6 336.1 53.60 577.792 18.8 OK
23 0.3 0.0 3200.7 36.3 2900.9 299.9 -36.26 577.971 22.4 OK
24 0.1 126.1 3326.9 12.1 2913.0 413.9 114.04 577.850 20.0 OK

Table 35: Pimple Nilakh

OHT at Pimple Nilakh

Peak Factor 2 Maximum surplus 1968.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 335.2
Outflow Hours 24 1st Guess Capacity 2304
(m3)
Minimum wataer level (m) 575.250 As per CPHEEO Capacity (m3) 3091
Initial water level (m) 576.250 Final computed Capacity (m3) 2077
Maximum wataer level (m) 580.250 Max. Population 58388
serving
Initial water depth in tank 1 Initial Volume (m3) 415.48
Area of CS 415.48 Fire storage (m3) 106.1
Diameter (m) 23 Depth for Fire (m) 0.085
Max. serving Demand (mld) 10.30 Av. Flow (m3/h)= 447.990

Inflow (m3/h) Outflow (m3/h) Surplus

Cumu.
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 448.0 863.5 42.9 42.9 820.5 405.06 576.250 20.0 OK
1 0.1 448.0 1311.5 42.9 85.9 1225.6 405.06 577.225 39.5 OK
2 0.1 448.0 1759.4 42.9 128.8 1630.6 405.06 578.200 59.0 OK
3 0.3 448.0 2207.4 128.8 257.6 1949.8 319.19 579.175 78.5 OK
4 1 448.0 2655.4 429.3 686.9 1968.5 18.67 579.943 93.9 OK
5 1.2 448.0 3103.4 515.2 1202.1 1901.3 -67.20 579.988 94.8 OK
6 2 448.0 3551.4 858.6 2060.8 1490.7 -410.66 579.826 91.5 OK
7 2 448.0 3999.4 858.6 2919.4 1080.0 -410.66 578.838 71.8 OK
8 2 448.0 4447.4 858.6 3778.0 669.3 -410.66 577.849 52.0 OK
9 1.5 448.0 4895.4 644.0 4422.0 473.3 -196.00 576.861 32.2 OK
10 1.2 448.0 5343.4 515.2 4937.2 406.1 -67.20 576.389 22.8 OK
11 1 448.0 5791.4 429.3 5366.5 424.8 18.67 576.228 19.6 OK
12 1 448.0 6239.3 429.3 5795.9 443.5 18.67 576.272 20.4 OK
13 0.6 448.0 6687.3 257.6 6053.5 633.9 190.40 576.317 21.3 OK
14 0.6 448.0 7135.3 257.6 6311.1 824.3 190.40 576.776 30.5 OK
15 0.5 448.0 7583.3 214.7 6525.7 1057.6 233.33 577.234 39.7 OK
16 1.2 448.0 8031.3 515.2 7040.9 990.4 -67.20 577.795 50.9 OK
17 1.5 448.0 8479.3 644.0 7684.9 794.4 -196.00 577.634 47.7 OK
18 1.5 448.0 8927.3 644.0 8328.9 598.4 -196.00 577.162 38.2 OK
19 1.5 448.0 9375.3 644.0 8972.9 402.4 -196.00 576.690 28.8 OK
20 1.2 448.0 9823.3 515.2 9488.1 335.2 -67.20 576.219 19.4 OK
21 1 448.0 10271.3 429.3 9917.4 353.9 18.67 576.057 16.1 OK
22 0.6 448.0 10719.2 257.6 10175.0 544.3 190.40 576.102 17.0 OK

223
 23 0.3 0.0 10719.2 128.8 10303.8 415.5 -128.80 576.560 26.2 OK
24 0.1 448.0 11167.2 42.9 10346.7 820.5 405.06 576.250 20.0 OK

OHT at Pimple Nilakh

Peak Factor 2 Maximum surplus 1968.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 335.2
Outflow Hours 24 1st Guess Capacity 2304
(m3)
Minimum wataer level (m) 575.250 As per CPHEEO Capacity (m3) 3091
3
Initial water level (m) 576.250 Final computed Capacity (m ) 2077
Maximum wataer level (m) 580.250 Max. Population 58388
serving
Initial water depth in tank 1 Initial Volume (m3) 415.48
3
Area of CS 415.48 Fire storage (m ) 106.1
Diameter (m) 23 Depth for Fire (m) 0.085
Max. serving Demand (mld) 10.30 Av. Flow (m3/h)= 447.990

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 448.0 863.5 42.9 42.9 820.5 405.06 576.250 20.0 OK
1 0.1 448.0 1311.5 42.9 85.9 1225.6 405.06 577.225 39.5 OK
2 0.1 448.0 1759.4 42.9 128.8 1630.6 405.06 578.200 59.0 OK
3 0.3 448.0 2207.4 128.8 257.6 1949.8 319.19 579.175 78.5 OK
4 1 448.0 2655.4 429.3 686.9 1968.5 18.67 579.943 93.9 OK
5 1.2 448.0 3103.4 515.2 1202.1 1901.3 -67.20 579.988 94.8 OK
6 2 448.0 3551.4 858.6 2060.8 1490.7 -410.66 579.826 91.5 OK
7 2 448.0 3999.4 858.6 2919.4 1080.0 -410.66 578.838 71.8 OK
8 2 448.0 4447.4 858.6 3778.0 669.3 -410.66 577.849 52.0 OK
9 1.5 448.0 4895.4 644.0 4422.0 473.3 -196.00 576.861 32.2 OK
10 1.2 448.0 5343.4 515.2 4937.2 406.1 -67.20 576.389 22.8 OK
11 1 448.0 5791.4 429.3 5366.5 424.8 18.67 576.228 19.6 OK
12 1 448.0 6239.3 429.3 5795.9 443.5 18.67 576.272 20.4 OK
13 0.6 448.0 6687.3 257.6 6053.5 633.9 190.40 576.317 21.3 OK
14 0.6 448.0 7135.3 257.6 6311.1 824.3 190.40 576.776 30.5 OK
15 0.5 448.0 7583.3 214.7 6525.7 1057.6 233.33 577.234 39.7 OK
16 1.2 448.0 8031.3 515.2 7040.9 990.4 -67.20 577.795 50.9 OK
17 1.5 448.0 8479.3 644.0 7684.9 794.4 -196.00 577.634 47.7 OK
18 1.5 448.0 8927.3 644.0 8328.9 598.4 -196.00 577.162 38.2 OK
19 1.5 448.0 9375.3 644.0 8972.9 402.4 -196.00 576.690 28.8 OK
20 1.2 448.0 9823.3 515.2 9488.1 335.2 -67.20 576.219 19.4 OK
21 1 448.0 10271.3 429.3 9917.4 353.9 18.67 576.057 16.1 OK
22 0.6 448.0 10719.2 257.6 10175.0 544.3 190.40 576.102 17.0 OK
23 0.3 0.0 10719.2 128.8 10303.8 415.5 -128.80 576.560 26.2 OK
24 0.1 448.0 11167.2 42.9 10346.7 820.5 405.06 576.250 20.0 OK

Table 36: Pimple Saudagar a

224
 OHT at Pimple Saudagar a
Peak Factor 2 Maximum surplus 949.8
(m3)
Inflow Hours 23 Minimum surplus (m3) 266.3
Outflow Hours 24 1st Guess Capacity 1216 < 1499
(m3)
Minimum wataer level (m) 572.000 As per CPHEEO Capacity (m3) 1294
Initial water level (m) 573.000 Final computed Capacity (m3) 1499
Maximum wataer level (m) 577.000 Max. Population 24435
serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
Area of CS 299.87 Fire storage (m3) 44.4
Diameter (m) 19.54 Depth for Fire (m) 0.049
Max. serving Demand (mld) 4.31 Av. Flow (m3/h)= 187.483

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 187.5 487.4 18.0 18.0 469.4 169.52 573.000 20.0 OK
1 0.1 187.5 674.8 18.0 35.9 638.9 169.52 573.565 31.3 OK
2 0.1 187.5 862.3 18.0 53.9 808.4 169.52 574.131 42.6 OK
3 0.3 187.5 1049.8 53.9 107.8 942.0 133.58 574.696 53.9 OK
4 1 187.5 1237.3 179.7 287.5 949.8 7.81 575.141 62.8 OK
5 1.2 187.5 1424.8 215.6 503.1 921.7 -28.12 575.167 63.3 OK
6 2 187.5 1612.3 359.3 862.4 749.8 -171.86 575.074 61.5 OK
7 2 187.5 1799.7 359.3 1221.8 578.0 -171.86 574.500 50.0 OK
8 2 187.5 1987.2 359.3 1581.1 406.1 -171.86 573.927 38.5 OK
9 1.5 187.5 2174.7 269.5 1850.6 324.1 -82.02 573.354 27.1 OK
10 1.2 187.5 2362.2 215.6 2066.2 296.0 -28.12 573.081 21.6 OK
11 1 187.5 2549.7 179.7 2245.9 303.8 7.81 572.987 19.7 OK
12 1 187.5 2737.1 179.7 2425.6 311.6 7.81 573.013 20.3 OK
13 0.6 187.5 2924.6 107.8 2533.4 391.3 79.68 573.039 20.8 OK
14 0.6 187.5 3112.1 107.8 2641.2 471.0 79.68 573.305 26.1 OK
15 0.5 187.5 3299.6 89.8 2731.0 568.6 97.65 573.570 31.4 OK
16 1.2 187.5 3487.1 215.6 2946.6 540.5 -28.12 573.896 37.9 OK
17 1.5 187.5 3674.6 269.5 3216.1 458.5 -82.02 573.802 36.0 OK
18 1.5 187.5 3862.0 269.5 3485.6 376.4 -82.02 573.529 30.6 OK
19 1.5 187.5 4049.5 269.5 3755.1 294.4 -82.02 573.255 25.1 OK
20 1.2 187.5 4237.0 215.6 3970.7 266.3 -28.12 572.982 19.6 OK
21 1 187.5 4424.5 179.7 4150.4 274.1 7.81 572.888 17.8 OK
22 0.6 187.5 4612.0 107.8 4258.2 353.8 79.68 572.914 18.3 OK
23 0.3 0.0 4612.0 53.9 4312.1 299.9 -53.90 573.180 23.6 OK
24 0.1 187.5 4799.5 18.0 4330.1 469.4 169.52 573.000 20.0 OK

Table 37: Pimple Saudagar b New

OHT at Pimple Saudagar b New

225
Peak Factor 2 Maximum surplus 1849.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 322.6
Outflow Hours 24 1st Guess Capacity 2172 < 1988
(m3)
Minimum wataer level (m) 580.000 As per CPHEEO Capacity (m3) 2890
Initial water level (m) 581.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 585.000 Max. Population 54587
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 99.2
Diameter (m) 22.5 Depth for Fire (m) 0.083
Max. serving Demand (mld) 9.63 Av. Flow (m3/h)= 418.823

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 418.8 816.4 40.1 40.1 776.3 378.69 581.000 20.0 OK
1 0.1 418.8 1235.3 40.1 80.3 1155.0 378.69 581.952 39.0 OK
2 0.1 418.8 1654.1 40.1 120.4 1533.7 378.69 582.905 58.1 OK
3 0.3 418.8 2072.9 120.4 240.8 1832.1 298.41 583.857 77.1 OK
4 1 418.8 2491.7 401.4 642.2 1849.5 17.45 584.608 92.2 OK
5 1.2 418.8 2910.5 481.6 1123.8 1786.7 -62.82 584.652 93.0 OK
6 2 418.8 3329.4 802.7 1926.6 1402.8 -383.92 584.494 89.9 OK
7 2 418.8 3748.2 802.7 2729.3 1018.9 -383.92 583.528 70.6 OK
8 2 418.8 4167.0 802.7 3532.1 634.9 -383.92 582.562 51.2 OK
9 1.5 418.8 4585.8 602.1 4134.1 451.7 -183.23 581.597 31.9 OK
10 1.2 418.8 5004.7 481.6 4615.8 388.9 -62.82 581.136 22.7 OK
11 1 418.8 5423.5 401.4 5017.1 406.3 17.45 580.978 19.6 OK
12 1 418.8 5842.3 401.4 5418.5 423.8 17.45 581.022 20.4 OK
13 0.6 418.8 6261.1 240.8 5659.3 601.8 178.00 581.066 21.3 OK
14 0.6 418.8 6680.0 240.8 5900.2 779.8 178.00 581.514 30.3 OK
15 0.5 418.8 7098.8 200.7 6100.9 997.9 218.14 581.961 39.2 OK
16 1.2 418.8 7517.6 481.6 6582.5 935.1 -62.82 582.510 50.2 OK
17 1.5 418.8 7936.4 602.1 7184.6 751.9 -183.23 582.352 47.0 OK
18 1.5 418.8 8355.2 602.1 7786.6 568.6 -183.23 581.891 37.8 OK
19 1.5 418.8 8774.1 602.1 8388.7 385.4 -183.23 581.430 28.6 OK
20 1.2 418.8 9192.9 481.6 8870.3 322.6 -62.82 580.969 19.4 OK
21 1 418.8 9611.7 401.4 9271.7 340.0 17.45 580.811 16.2 OK
22 0.6 418.8 10030.5 240.8 9512.5 518.0 178.00 580.855 17.1 OK
23 0.3 0.0 10030.5 120.4 9632.9 397.6 -120.41 581.303 26.1 OK
24 0.1 418.8 10449.4 40.1 9673.1 776.3 378.69 581.000 20.0 OK

Table 38: Pimpri Delux a

226
 OHT at Pimpri Delux a
Peak Factor 2 Maximum surplus 1323.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 352.4
Outflow Hours 24 1st Guess Capacity 1675 < 2000
(m3)
Minimum wataer level (m) 582.720 As per CPHEEO Capacity (m3) 1837
Initial water level (m) 583.720 Final computed Capacity (m3) 2000
Maximum wataer level (m) 587.720 Max. Population 34698
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 63.0
Diameter (m) 22.57 Depth for Fire (m) 0.053
Max. serving Demand (mld) 6.12 Av. Flow (m3/h)= 266.227

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 266.2 666.3 25.5 25.5 640.8 240.71 583.720 20.0 OK
1 0.1 266.2 932.5 25.5 51.0 881.5 240.71 584.322 32.0 OK
2 0.1 266.2 1198.8 25.5 76.5 1122.2 240.71 584.923 44.1 OK
3 0.3 266.2 1465.0 76.5 153.1 1311.9 189.69 585.525 56.1 OK
4 1 266.2 1731.2 255.1 408.2 1323.0 11.09 585.999 65.6 OK
5 1.2 266.2 1997.5 306.2 714.4 1283.1 -39.93 586.027 66.1 OK
6 2 266.2 2263.7 510.3 1224.6 1039.0 -244.04 585.927 64.1 OK
7 2 266.2 2529.9 510.3 1734.9 795.0 -244.04 585.317 51.9 OK
8 2 266.2 2796.1 510.3 2245.2 550.9 -244.04 584.707 39.7 OK
9 1.5 266.2 3062.4 382.7 2627.9 434.5 -116.47 584.097 27.5 OK
10 1.2 266.2 3328.6 306.2 2934.0 394.5 -39.93 583.806 21.7 OK
11 1 266.2 3594.8 255.1 3189.2 405.6 11.09 583.706 19.7 OK
12 1 266.2 3861.0 255.1 3444.3 416.7 11.09 583.734 20.3 OK
13 0.6 266.2 4127.3 153.1 3597.4 529.9 113.15 583.762 20.8 OK
14 0.6 266.2 4393.5 153.1 3750.5 643.0 113.15 584.044 26.5 OK
15 0.5 266.2 4659.7 127.6 3878.0 781.7 138.66 584.327 32.1 OK
16 1.2 266.2 4926.0 306.2 4184.2 741.7 -39.93 584.674 39.1 OK
17 1.5 266.2 5192.2 382.7 4566.9 625.3 -116.47 584.574 37.1 OK
18 1.5 266.2 5458.4 382.7 4949.6 508.8 -116.47 584.283 31.3 OK
19 1.5 266.2 5724.6 382.7 5332.3 392.3 -116.47 583.992 25.4 OK
20 1.2 266.2 5990.9 306.2 5638.5 352.4 -39.93 583.701 19.6 OK
21 1 266.2 6257.1 255.1 5893.6 363.5 11.09 583.601 17.6 OK
22 0.6 266.2 6523.3 153.1 6046.7 476.6 113.15 583.629 18.2 OK
23 0.3 0.0 6523.3 76.5 6123.2 400.1 -76.54 583.911 23.8 OK
24 0.1 266.2 6789.5 25.5 6148.7 640.8 240.71 583.720 20.0 OK

Table 39: Pimpri Delux b

OHT at Pimpri Delux b

Peak Factor 2 Maximum surplus 1000.6

227
 (m3)
Inflow Hours 23 Minimum surplus (m3) 369.1
Outflow Hours 24 1st Guess Capacity 1370 < 2000
(m3)
Minimum wataer level (m) 582.810 As per CPHEEO Capacity (m3) 1195
Initial water level (m) 583.810 Final computed Capacity (m3) 2000
Maximum wataer level (m) 587.810 Max. Population 22577
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 41.0
Diameter (m) 22.57 Depth for Fire (m) 0.034
Max. serving Demand (mld) 3.98 Av. Flow (m3/h)= 173.226

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 173.2 573.3 16.6 16.6 556.7 156.63 583.810 20.0 OK
1 0.1 173.2 746.5 16.6 33.2 713.3 156.63 584.201 27.8 OK
2 0.1 173.2 919.8 16.6 49.8 870.0 156.63 584.593 35.7 OK
3 0.3 173.2 1093.0 49.8 99.6 993.4 123.42 584.984 43.5 OK
4 1 173.2 1266.2 166.0 265.6 1000.6 7.22 585.293 49.7 OK
5 1.2 173.2 1439.4 199.2 464.8 974.6 -25.98 585.311 50.0 OK
6 2 173.2 1612.7 332.0 796.8 815.8 -158.79 585.246 48.7 OK
7 2 173.2 1785.9 332.0 1128.9 657.0 -158.79 584.849 40.8 OK
8 2 173.2 1959.1 332.0 1460.9 498.2 -158.79 584.452 32.8 OK
9 1.5 173.2 2132.3 249.0 1709.9 422.5 -75.79 584.055 24.9 OK
10 1.2 173.2 2305.6 199.2 1909.1 396.5 -25.98 583.866 21.1 OK
11 1 173.2 2478.8 166.0 2075.1 403.7 7.22 583.801 19.8 OK
12 1 173.2 2652.0 166.0 2241.1 410.9 7.22 583.819 20.2 OK
13 0.6 173.2 2825.3 99.6 2340.7 484.5 73.62 583.837 20.5 OK
14 0.6 173.2 2998.5 99.6 2440.3 558.2 73.62 584.021 24.2 OK
15 0.5 173.2 3171.7 83.0 2523.3 648.4 90.22 584.205 27.9 OK
16 1.2 173.2 3344.9 199.2 2722.5 622.4 -25.98 584.431 32.4 OK
17 1.5 173.2 3518.2 249.0 2971.5 546.6 -75.79 584.366 31.1 OK
18 1.5 173.2 3691.4 249.0 3220.6 470.8 -75.79 584.176 27.3 OK
19 1.5 173.2 3864.6 249.0 3469.6 395.0 -75.79 583.987 23.5 OK
20 1.2 173.2 4037.8 199.2 3668.8 369.1 -25.98 583.797 19.7 OK
21 1 173.2 4211.1 166.0 3834.8 376.3 7.22 583.732 18.4 OK
22 0.6 173.2 4384.3 99.6 3934.4 449.9 73.62 583.750 18.8 OK
23 0.3 0.0 4384.3 49.8 3984.2 400.1 -49.80 583.934 22.5 OK
24 0.1 173.2 4557.5 16.6 4000.8 556.7 156.63 583.810 20.0 OK

Table 40: Proposed Naydu

228
 OHT at Proposed Naydu
Peak Factor 2 Maximum surplus 920.7
(m3)
Inflow Hours 23 Minimum surplus (m3) 370.6
Outflow Hours 24 1st Guess Capacity 1291 < 1988
(m3)
Minimum wataer level (m) 583.600 As per CPHEEO Capacity (m3) 1041
Initial water level (m) 584.600 Final computed Capacity (m3) 1988
Maximum wataer level (m) 588.600 Max. Population 19668
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 35.7
Diameter (m) 22.5 Depth for Fire (m) 0.030
Max. serving Demand (mld) 3.47 Av. Flow (m3/h)= 150.904

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 150.9 548.5 14.5 14.5 534.1 136.44 584.600 20.0 OK
1 0.1 150.9 699.4 14.5 28.9 670.5 136.44 584.943 26.9 OK
2 0.1 150.9 850.3 14.5 43.4 806.9 136.44 585.286 33.7 OK
3 0.3 150.9 1001.2 43.4 86.8 914.5 107.52 585.629 40.6 OK
4 1 150.9 1152.1 144.6 231.4 920.7 6.29 585.900 46.0 OK
5 1.2 150.9 1303.0 173.5 404.9 898.1 -22.64 585.916 46.3 OK
6 2 150.9 1453.9 289.2 694.2 759.8 -138.33 585.859 45.2 OK
7 2 150.9 1604.8 289.2 983.4 621.5 -138.33 585.511 38.2 OK
8 2 150.9 1755.7 289.2 1272.6 483.1 -138.33 585.163 31.3 OK
9 1.5 150.9 1906.7 216.9 1489.6 417.1 -66.02 584.815 24.3 OK
10 1.2 150.9 2057.6 173.5 1663.1 394.5 -22.64 584.649 21.0 OK
11 1 150.9 2208.5 144.6 1807.7 400.8 6.29 584.592 19.8 OK
12 1 150.9 2359.4 144.6 1952.3 407.0 6.29 584.608 20.2 OK
13 0.6 150.9 2510.3 86.8 2039.1 471.2 64.13 584.624 20.5 OK
14 0.6 150.9 2661.2 86.8 2125.9 535.3 64.13 584.785 23.7 OK
15 0.5 150.9 2812.1 72.3 2198.2 613.9 78.60 584.946 26.9 OK
16 1.2 150.9 2963.0 173.5 2371.7 591.3 -22.64 585.144 30.9 OK
17 1.5 150.9 3113.9 216.9 2588.6 525.2 -66.02 585.087 29.7 OK
18 1.5 150.9 3264.8 216.9 2805.6 459.2 -66.02 584.921 26.4 OK
19 1.5 150.9 3415.7 216.9 3022.5 393.2 -66.02 584.755 23.1 OK
20 1.2 150.9 3566.6 173.5 3196.0 370.6 -22.64 584.589 19.8 OK
21 1 150.9 3717.5 144.6 3340.6 376.9 6.29 584.532 18.6 OK
22 0.6 150.9 3868.4 86.8 3427.4 441.0 64.13 584.548 19.0 OK
23 0.3 0.0 3868.4 43.4 3470.8 397.6 -43.39 584.709 22.2 OK
24 0.1 150.9 4019.3 14.5 3485.3 534.1 136.44 584.600 20.0 OK

Table 41: Punavale

OHT at Punaval
e

229
Peak Factor 2 Maximum surplus (m3) 1122.9
Inflow Hours 23 Minimum surplus (m3) 257.3
3
Outflow Hours 24 1st Guess Capacity (m ) 1380 < 1499
Minimum wataer level (m) 597.000 As per CPHEEO Capacity (m3) 1638
Initial water level (m) 598.000 Final computed Capacity (m3) 1499
Maximum wataer level (m) 602.000 Max. Population 30942
serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
Area of CS 299.87 Fire storage (m3) 56.2
Diameter (m) 19.54 Depth for Fire (m) 0.062
Max. serving Demand (mld) 5.46 Av. Flow (m3/h)= 237.404

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 237.4 537.3 22.8 22.8 514.5 214.65 598.000 20.0 OK
1 0.1 237.4 774.7 22.8 45.5 729.2 214.65 598.716 34.3 OK
2 0.1 237.4 1012.1 22.8 68.3 943.8 214.65 599.432 48.6 OK
3 0.3 237.4 1249.5 68.3 136.5 1113.0 169.15 600.147 62.9 OK
4 1 237.4 1486.9 227.5 364.0 1122.9 9.89 600.711 74.2 OK
5 1.2 237.4 1724.3 273.0 637.0 1087.3 -35.61 600.744 74.9 OK
6 2 237.4 1961.7 455.0 1092.1 869.6 -217.62 600.626 72.5 OK
7 2 237.4 2199.1 455.0 1547.1 652.0 -217.62 599.900 58.0 OK
8 2 237.4 2436.5 455.0 2002.1 434.4 -217.62 599.174 43.5 OK
9 1.5 237.4 2673.9 341.3 2343.4 330.5 -103.86 598.449 29.0 OK
10 1.2 237.4 2911.3 273.0 2616.4 294.9 -35.61 598.102 22.0 OK
11 1 237.4 3148.7 227.5 2843.9 304.8 9.89 597.984 19.7 OK
12 1 237.4 3386.1 227.5 3071.4 314.7 9.89 598.016 20.3 OK
13 0.6 237.4 3623.5 136.5 3207.9 415.6 100.90 598.049 21.0 OK
14 0.6 237.4 3860.9 136.5 3344.4 516.5 100.90 598.386 27.7 OK
15 0.5 237.4 4098.3 113.8 3458.2 640.2 123.65 598.722 34.4 OK
16 1.2 237.4 4335.7 273.0 3731.2 604.5 -35.61 599.135 42.7 OK
17 1.5 237.4 4573.2 341.3 4072.5 500.7 -103.86 599.016 40.3 OK
18 1.5 237.4 4810.6 341.3 4413.7 396.8 -103.86 598.670 33.4 OK
19 1.5 237.4 5048.0 341.3 4755.0 293.0 -103.86 598.323 26.5 OK
20 1.2 237.4 5285.4 273.0 5028.0 257.3 -35.61 597.977 19.5 OK
21 1 237.4 5522.8 227.5 5255.5 267.2 9.89 597.858 17.2 OK
22 0.6 237.4 5760.2 136.5 5392.0 368.1 100.90 597.891 17.8 OK
23 0.3 0.0 5760.2 68.3 5460.3 299.9 -68.25 598.228 24.6 OK
24 0.1 237.4 5997.6 22.8 5483.1 514.5 214.65 598.000 20.0 OK

Table 42: Rahatni1

Peak Factor 2 Maximum surplus 1435.4

(m3)
Inflow Hours 23 Minimum surplus (m3) 346.6

230
Outflow Hours 24 1st Guess Capacity 1782 < 2000
(m3)
Minimum wataer level (m) 586.980 As per CPHEEO Capacity (m3) 2061
Initial water level (m) 587.980 Final computed Capacity (m3) 2000
Maximum wataer level (m) 591.980 Max. Population 38924
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 70.7
Diameter (m) 22.57 Depth for Fire (m) 0.059
Max. serving Demand (mld) 6.87 Av. Flow (m3/h)= 298.648

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulative Deficit Level %Tank
Inflow Outflow Cumu. Tank Status
Start Factor Inflow Outflow (Inflow- (m) Full
(m3) (m3) Outflow
(hours) Outflow)
(m3) (m3) (m3)
(m3)
0 0.1 298.6 698.7 28.6 28.6 670.1 270.03 587.980 20.0 OK
1 0.1 298.6 997.4 28.6 57.2 940.1 270.03 588.655 33.5 OK
2 0.1 298.6 1296.0 28.6 85.9 1210.2 270.03 589.330 47.0 OK
3 0.3 298.6 1594.7 85.9 171.7 1423.0 212.79 590.005 60.5 OK
4 1 298.6 1893.3 286.2 457.9 1435.4 12.44 590.537 71.1 OK
5 1.2 298.6 2192.0 343.4 801.4 1390.6 -44.80 590.568 71.8 OK
6 2 298.6 2490.6 572.4 1373.8 1116.8 -273.76 590.456 69.5 OK
7 2 298.6 2789.3 572.4 1946.2 843.1 -273.76 589.771 55.8 OK
8 2 298.6 3087.9 572.4 2518.6 569.3 -273.76 589.087 42.1 OK
9 1.5 298.6 3386.6 429.3 2947.9 438.7 -130.66 588.403 28.5 OK
10 1.2 298.6 3685.2 343.4 3291.3 393.9 -44.80 588.076 21.9 OK
11 1 298.6 3983.9 286.2 3577.6 406.3 12.44 587.964 19.7 OK
12 1 298.6 4282.5 286.2 3863.8 418.8 12.44 587.996 20.3 OK
13 0.6 298.6 4581.2 171.7 4035.5 545.7 126.93 588.027 20.9 OK
14 0.6 298.6 4879.8 171.7 4207.2 672.6 126.93 588.344 27.3 OK
15 0.5 298.6 5178.5 143.1 4350.3 828.1 155.55 588.661 33.6 OK
16 1.2 298.6 5477.1 343.4 4693.7 783.4 -44.80 589.050 41.4 OK
17 1.5 298.6 5775.7 429.3 5123.1 652.7 -130.66 588.938 39.2 OK
18 1.5 298.6 6074.4 429.3 5552.4 522.0 -130.66 588.611 32.6 OK
19 1.5 298.6 6373.0 429.3 5981.7 391.4 -130.66 588.285 26.1 OK
20 1.2 298.6 6671.7 343.4 6325.1 346.6 -44.80 587.958 19.6 OK
21 1 298.6 6970.3 286.2 6611.3 359.0 12.44 587.846 17.3 OK
22 0.6 298.6 7269.0 171.7 6783.0 485.9 126.93 587.877 17.9 OK
23 0.3 0.0 7269.0 85.9 6868.9 400.1 -85.86 588.195 24.3 OK
24 0.1 298.6 7567.6 28.6 6897.5 670.1 270.03 587.980 20.0 OK

Table 43: Rahatni2

OHT at Rahatni
2
Peak Factor 2 Maximum surplus (m3) 1857.4
Inflow Hours 23 Minimum surplus (m3) 561.3

231
Outflow Hours 24 1st Guess Capacity 2419 < 3125
(m3)
Minimum wataer level (m) 588.610 As per CPHEEO Capacity (m3) 2453
Initial water level (m) 589.610 Final computed Capacity (m3) 3125
Maximum wataer level (m) 593.610 Max. Population 46334
serving
Initial water depth in tank 1 Initial Volume (m3) 625.02
Area of CS 625.02 Fire storage (m3) 84.2
Diameter (m) 28.21 Depth for Fire (m) 0.045
Max. serving Demand (mld) 8.18 Av. Flow (m3/h)= 355.500

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 355.5 980.5 34.1 34.1 946.5 321.43 589.610 20.0 OK
1 0.1 355.5 1336.0 34.1 68.1 1267.9 321.43 590.124 30.3 OK
2 0.1 355.5 1691.5 34.1 102.2 1589.3 321.43 590.639 40.6 OK
3 0.3 355.5 2047.0 102.2 204.4 1842.6 253.29 591.153 50.9 OK
4 1 355.5 2402.5 340.7 545.1 1857.4 14.81 591.558 59.0 OK
5 1.2 355.5 2758.0 408.8 953.9 1804.1 -53.32 591.582 59.4 OK
6 2 355.5 3113.5 681.4 1635.3 1478.2 -325.88 591.496 57.7 OK
7 2 355.5 3469.0 681.4 2316.7 1152.3 -325.88 590.975 47.3 OK
8 2 355.5 3824.5 681.4 2998.1 826.5 -325.88 590.454 36.9 OK
9 1.5 355.5 4180.0 511.0 3509.1 670.9 -155.53 589.932 26.4 OK
10 1.2 355.5 4535.5 408.8 3917.9 617.6 -53.32 589.683 21.5 OK
11 1 355.5 4891.0 340.7 4258.6 632.4 14.81 589.598 19.8 OK
12 1 355.5 5246.5 340.7 4599.3 647.2 14.81 589.622 20.2 OK
13 0.6 355.5 5602.0 204.4 4803.7 798.3 151.09 589.646 20.7 OK
14 0.6 355.5 5957.5 204.4 5008.1 949.4 151.09 589.887 25.5 OK
15 0.5 355.5 6313.0 170.3 5178.5 1134.6 185.16 590.129 30.4 OK
16 1.2 355.5 6668.5 408.8 5587.3 1081.2 -53.32 590.425 36.3 OK
17 1.5 355.5 7024.0 511.0 6098.3 925.7 -155.53 590.340 34.6 OK
18 1.5 355.5 7379.5 511.0 6609.3 770.2 -155.53 590.091 29.6 OK
19 1.5 355.5 7735.0 511.0 7120.4 614.7 -155.53 589.842 24.6 OK
20 1.2 355.5 8090.5 408.8 7529.2 561.3 -53.32 589.593 19.7 OK
21 1 355.5 8446.0 340.7 7869.9 576.1 14.81 589.508 18.0 OK
22 0.6 355.5 8801.5 204.4 8074.3 727.2 151.09 589.532 18.4 OK
23 0.3 0.0 8801.5 102.2 8176.5 625.0 -102.21 589.774 23.3 OK
24 0.1 355.5 9157.0 34.1 8210.6 946.5 321.43 589.610 20.0 OK

Table 44: Rahatni3

OHT at Rahatni
3
Peak Factor 2 Maximum surplus (m3) 1420.7

232
Inflow Hours 23 Minimum surplus (m3) 452.4
Outflow Hours 24 1st Guess Capacity 1873 < 2500
(m3)
Minimum wataer level (m) 590.000 As per CPHEEO Capacity (m3) 1833
Initial water level (m) 591.000 Final computed Capacity (m3) 2500
Maximum wataer level (m) 595.000 Max. Population 34618
serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 62.9
Diameter (m) 25.23 Depth for Fire (m) 0.042
Max. serving Demand (mld) 6.11 Av. Flow (m3/h)= 265.609

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 265.6 765.6 25.5 25.5 740.1 240.15 591.000 20.0 OK
1 0.1 265.6 1031.2 25.5 50.9 980.3 240.15 591.480 29.6 OK
2 0.1 265.6 1296.8 25.5 76.4 1220.4 240.15 591.961 39.2 OK
3 0.3 265.6 1562.4 76.4 152.7 1409.7 189.25 592.441 48.8 OK
4 1 265.6 1828.0 254.5 407.3 1420.7 11.07 592.820 56.4 OK
5 1.2 265.6 2093.6 305.5 712.7 1380.9 -39.84 592.842 56.8 OK
6 2 265.6 2359.2 509.1 1221.8 1137.4 -243.47 592.762 55.2 OK
7 2 265.6 2624.8 509.1 1730.9 893.9 -243.47 592.275 45.5 OK
8 2 265.6 2890.4 509.1 2240.0 650.5 -243.47 591.788 35.8 OK
9 1.5 265.6 3156.0 381.8 2621.8 534.3 -116.20 591.301 26.0 OK
10 1.2 265.6 3421.6 305.5 2927.2 494.4 -39.84 591.069 21.4 OK
11 1 265.6 3687.3 254.5 3181.8 505.5 11.07 590.989 19.8 OK
12 1 265.6 3952.9 254.5 3436.3 516.5 11.07 591.011 20.2 OK
13 0.6 265.6 4218.5 152.7 3589.0 629.4 112.88 591.033 20.7 OK
14 0.6 265.6 4484.1 152.7 3741.8 742.3 112.88 591.259 25.2 OK
15 0.5 265.6 4749.7 127.3 3869.0 880.7 138.34 591.485 29.7 OK
16 1.2 265.6 5015.3 305.5 4174.5 840.8 -39.84 591.761 35.2 OK
17 1.5 265.6 5280.9 381.8 4556.3 724.6 -116.20 591.682 33.6 OK
18 1.5 265.6 5546.5 381.8 4938.1 608.4 -116.20 591.449 29.0 OK
19 1.5 265.6 5812.1 381.8 5319.9 492.2 -116.20 591.217 24.3 OK
20 1.2 265.6 6077.7 305.5 5625.4 452.4 -39.84 590.985 19.7 OK
21 1 265.6 6343.3 254.5 5879.9 463.4 11.07 590.905 18.1 OK
22 0.6 265.6 6608.9 152.7 6032.6 576.3 112.88 590.927 18.5 OK
23 0.3 0.0 6608.9 76.4 6109.0 499.9 -76.36 591.153 23.1 OK
24 0.1 265.6 6874.6 25.5 6134.5 740.1 240.15 591.000 20.0 OK

Table 45: Rupi Nagar

OHT at Rupi Nagar

Peak Factor 2 Maximum surplus 2065.4
(m3)

233
Inflow Hours 23 Minimum surplus (m3) 419.0
Outflow Hours 24 1st Guess Capacity 2484
(m3)
Minimum wataer level (m) 630.990 As per CPHEEO Capacity (m3) 3116
Initial water level (m) 631.990 Final computed Capacity (m3) 2500
Maximum wataer level (m) 635.990 Max. Population 58854
serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 106.9
Diameter (m) 25.23 Depth for Fire (m) 0.071
Max. serving Demand (mld) 10.39 Av. Flow (m3/h)= 451.561

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 451.6 951.5 43.3 43.3 908.2 408.29 631.990 20.0 OK
1 0.1 451.6 1403.1 43.3 86.5 1316.5 408.29 632.807 36.3 OK
2 0.1 451.6 1854.6 43.3 129.8 1724.8 408.29 633.623 52.7 OK
3 0.3 451.6 2306.2 129.8 259.6 2046.5 321.74 634.440 69.0 OK
4 1 451.6 2757.8 432.7 692.4 2065.4 18.82 635.084 81.9 OK
5 1.2 451.6 3209.3 519.3 1211.7 1997.6 -67.73 635.121 82.6 OK
6 2 451.6 3660.9 865.5 2077.2 1583.7 -413.93 634.986 79.9 OK
7 2 451.6 4112.4 865.5 2942.7 1169.8 -413.93 634.158 63.4 OK
8 2 451.6 4564.0 865.5 3808.2 755.8 -413.93 633.330 46.8 OK
9 1.5 451.6 5015.6 649.1 4457.3 558.3 -197.56 632.502 30.2 OK
10 1.2 451.6 5467.1 519.3 4976.6 490.5 -67.73 632.107 22.3 OK
11 1 451.6 5918.7 432.7 5409.3 509.4 18.82 631.971 19.6 OK
12 1 451.6 6370.2 432.7 5842.1 528.2 18.82 632.009 20.4 OK
13 0.6 451.6 6821.8 259.6 6101.7 720.1 191.91 632.046 21.1 OK
14 0.6 451.6 7273.4 259.6 6361.4 912.0 191.91 632.430 28.8 OK
15 0.5 451.6 7724.9 216.4 6577.7 1147.2 235.19 632.814 36.5 OK
16 1.2 451.6 8176.5 519.3 7097.0 1079.5 -67.73 633.285 45.9 OK
17 1.5 451.6 8628.0 649.1 7746.2 881.9 -197.56 633.149 43.2 OK
18 1.5 451.6 9079.6 649.1 8395.3 684.3 -197.56 632.754 35.3 OK
19 1.5 451.6 9531.2 649.1 9044.4 486.8 -197.56 632.359 27.4 OK
20 1.2 451.6 9982.7 519.3 9563.7 419.0 -67.73 631.964 19.5 OK
21 1 451.6 10434.3 432.7 9996.4 437.9 18.82 631.828 16.8 OK
22 0.6 451.6 10885.8 259.6 10256.1 629.8 191.91 631.866 17.5 OK
23 0.3 0.0 10885.8 129.8 10385.9 499.9 -129.82 632.250 25.2 OK
24 0.1 451.6 11337.4 43.3 10429.2 908.2 408.29 631.990 20.0 OK

Table 46: Sachin1

OHT at Sachin1
Peak Factor 2 Maximum surplus 792.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 251.9
Outflow Hours 24 1st Guess Capacity 1045 < 1392

234
 (m3)
Minimum wataer level (m) 627.860 As per CPHEEO Capacity (m3) 1024
3
Initial water level (m) 628.860 Final computed Capacity (m ) 1392
Maximum wataer level (m) 632.860 Max. Population 19341
serving
Initial water depth in tank 1 Initial Volume (m3) 278.48
3
Area of CS 278.48 Fire storage (m ) 35.1
Diameter (m) 18.83 Depth for Fire (m) 0.042
Max. serving Demand (mld) 3.41 Av. Flow (m3/h)= 148.394

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 148.4 426.9 14.2 14.2 412.7 134.17 628.860 20.0 OK
1 0.1 148.4 575.3 14.2 28.4 546.8 134.17 629.342 29.6 OK
2 0.1 148.4 723.7 14.2 42.7 681.0 134.17 629.824 39.3 OK
3 0.3 148.4 872.1 42.7 85.3 786.7 105.73 630.305 48.9 OK
4 1 148.4 1020.4 142.2 227.5 792.9 6.18 630.685 56.5 OK
5 1.2 148.4 1168.8 170.7 398.2 770.7 -22.26 630.707 56.9 OK
6 2 148.4 1317.2 284.4 682.6 634.6 -136.03 630.627 55.3 OK
7 2 148.4 1465.6 284.4 967.0 498.6 -136.03 630.139 45.6 OK
8 2 148.4 1614.0 284.4 1251.5 362.6 -136.03 629.650 35.8 OK
9 1.5 148.4 1762.4 213.3 1464.8 297.6 -64.92 629.162 26.0 OK
10 1.2 148.4 1910.8 170.7 1635.4 275.4 -22.26 628.929 21.4 OK
11 1 148.4 2059.2 142.2 1777.6 281.6 6.18 628.849 19.8 OK
12 1 148.4 2207.6 142.2 1919.8 287.8 6.18 628.871 20.2 OK
13 0.6 148.4 2356.0 85.3 2005.2 350.8 63.07 628.893 20.7 OK
14 0.6 148.4 2504.4 85.3 2090.5 413.9 63.07 629.120 25.2 OK
15 0.5 148.4 2652.8 71.1 2161.6 491.2 77.29 629.346 29.7 OK
16 1.2 148.4 2801.2 170.7 2332.3 468.9 -22.26 629.624 35.3 OK
17 1.5 148.4 2949.6 213.3 2545.6 404.0 -64.92 629.544 33.7 OK
18 1.5 148.4 3098.0 213.3 2758.9 339.1 -64.92 629.311 29.0 OK
19 1.5 148.4 3246.4 213.3 2972.2 274.2 -64.92 629.078 24.4 OK
20 1.2 148.4 3394.8 170.7 3142.9 251.9 -22.26 628.844 19.7 OK
21 1 148.4 3543.1 142.2 3285.1 258.1 6.18 628.765 18.1 OK
22 0.6 148.4 3691.5 85.3 3370.4 321.1 63.07 628.787 18.5 OK
23 0.3 0.0 3691.5 42.7 3413.1 278.5 -42.66 629.013 23.1 OK
24 0.1 148.4 3839.9 14.2 3427.3 412.7 134.17 628.860 20.0 OK

Table 47: Sachin2

OHT at Sachin2
Peak Factor 2 Maximum surplus 916.7
(m3)
Inflow Hours 23 Minimum surplus (m3) 245.5

235
Outflow Hours 24 1st Guess Capacity 1162 < 1392
(m3)
Minimum wataer level (m) 628.050 As per CPHEEO Capacity (m3) 1270
Initial water level (m) 629.050 Final computed Capacity (m3) 1392
Maximum wataer level (m) 633.050 Max. Population 23996
serving
Initial water depth in tank 1 Initial Volume (m3) 278.48
Area of CS 278.48 Fire storage (m3) 43.6
Diameter (m) 18.83 Depth for Fire (m) 0.052
Max. serving Demand (mld) 4.23 Av. Flow (m3/h)= 184.114

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 184.1 462.6 17.6 17.6 444.9 166.47 629.050 20.0 OK
1 0.1 184.1 646.7 17.6 35.3 611.4 166.47 629.648 32.0 OK
2 0.1 184.1 830.8 17.6 52.9 777.9 166.47 630.246 43.9 OK
3 0.3 184.1 1014.9 52.9 105.9 909.1 131.18 630.843 55.9 OK
4 1 184.1 1199.1 176.4 282.3 916.7 7.67 631.314 65.3 OK
5 1.2 184.1 1383.2 211.7 494.0 889.1 -27.62 631.342 65.8 OK
6 2 184.1 1567.3 352.9 846.9 720.4 -168.77 631.243 63.9 OK
7 2 184.1 1751.4 352.9 1199.8 551.6 -168.77 630.637 51.7 OK
8 2 184.1 1935.5 352.9 1552.7 382.8 -168.77 630.031 39.6 OK
9 1.5 184.1 2119.6 264.7 1817.4 302.3 -80.55 629.425 27.5 OK
10 1.2 184.1 2303.7 211.7 2029.1 274.6 -27.62 629.135 21.7 OK
11 1 184.1 2487.9 176.4 2205.5 282.3 7.67 629.036 19.7 OK
12 1 184.1 2672.0 176.4 2382.0 290.0 7.67 629.064 20.3 OK
13 0.6 184.1 2856.1 105.9 2487.8 368.2 78.25 629.091 20.8 OK
14 0.6 184.1 3040.2 105.9 2593.7 446.5 78.25 629.372 26.4 OK
15 0.5 184.1 3224.3 88.2 2681.9 542.4 95.89 629.653 32.1 OK
16 1.2 184.1 3408.4 211.7 2893.7 514.8 -27.62 629.998 39.0 OK
17 1.5 184.1 3592.5 264.7 3158.3 434.2 -80.55 629.898 37.0 OK
18 1.5 184.1 3776.7 264.7 3423.0 353.7 -80.55 629.609 31.2 OK
19 1.5 184.1 3960.8 264.7 3687.7 273.1 -80.55 629.320 25.4 OK
20 1.2 184.1 4144.9 211.7 3899.4 245.5 -27.62 629.031 19.6 OK
21 1 184.1 4329.0 176.4 4075.8 253.2 7.67 628.932 17.6 OK
22 0.6 184.1 4513.1 105.9 4181.7 331.4 78.25 628.959 18.2 OK
23 0.3 0.0 4513.1 52.9 4234.6 278.5 -52.93 629.240 23.8 OK
24 0.1 184.1 4697.2 17.6 4252.3 444.9 166.47 629.050 20.0 OK

Table 48: Sector 28 New ESR

OHT at Sector 28 New ESR

Peak Factor 2 Maximum surplus 877.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 375.3
Outflow Hours 24 1st Guess Capacity 1252 < 2000

236
 (m3)
Minimum wataer level (m) 604.800 As per CPHEEO Capacity (m3) 949
3
Initial water level (m) 605.800 Final computed Capacity (m ) 2000
Maximum wataer level (m) 609.800 Max. Population 17933
serving
Initial water depth in tank 1 Initial Volume (m3) 400.00
3
Area of CS 400.00 Fire storage (m ) 32.6
Diameter (m) 22.567593 Depth for Fire (m) 0.027
Max. serving Demand (mld) 3.16 Av. Flow (m3/h)= 137.593

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 137.6 537.6 13.2 13.2 524.4 124.41 605.800 20.0 OK
1 0.1 137.6 675.2 13.2 26.4 648.8 124.41 606.111 26.2 OK
2 0.1 137.6 812.8 13.2 39.6 773.2 124.41 606.422 32.4 OK
3 0.3 137.6 950.4 39.6 79.1 871.3 98.03 606.733 38.7 OK
4 1 137.6 1088.0 131.9 211.0 877.0 5.73 606.978 43.6 OK
5 1.2 137.6 1225.6 158.2 369.2 856.3 -20.64 606.992 43.8 OK
6 2 137.6 1363.1 263.7 632.9 730.2 -126.13 606.941 42.8 OK
7 2 137.6 1500.7 263.7 896.6 604.1 -126.13 606.626 36.5 OK
8 2 137.6 1638.3 263.7 1160.4 478.0 -126.13 606.310 30.2 OK
9 1.5 137.6 1775.9 197.8 1358.2 417.8 -60.20 605.995 23.9 OK
10 1.2 137.6 1913.5 158.2 1516.4 397.1 -20.64 605.844 20.9 OK
11 1 137.6 2051.1 131.9 1648.2 402.9 5.73 605.793 19.9 OK
12 1 137.6 2188.7 131.9 1780.1 408.6 5.73 605.807 20.1 OK
13 0.6 137.6 2326.3 79.1 1859.2 467.1 58.48 605.821 20.4 OK
14 0.6 137.6 2463.9 79.1 1938.3 525.6 58.48 605.968 23.4 OK
15 0.5 137.6 2601.5 65.9 2004.3 597.2 71.66 606.114 26.3 OK
16 1.2 137.6 2739.1 158.2 2162.5 576.6 -20.64 606.293 29.9 OK
17 1.5 137.6 2876.7 197.8 2360.3 516.4 -60.20 606.241 28.8 OK
18 1.5 137.6 3014.3 197.8 2558.1 456.2 -60.20 606.091 25.8 OK
19 1.5 137.6 3151.9 197.8 2755.9 396.0 -60.20 605.940 22.8 OK
20 1.2 137.6 3289.4 158.2 2914.1 375.3 -20.64 605.790 19.8 OK
21 1 137.6 3427.0 131.9 3046.0 381.1 5.73 605.738 18.8 OK
22 0.6 137.6 3564.6 79.1 3125.1 439.6 58.48 605.753 19.1 OK
23 0.3 0.0 3564.6 39.6 3164.6 400.0 -39.56 605.899 22.0 OK
24 0.1 137.6 3702.2 13.2 3177.8 524.4 124.41 605.800 20.0 OK

Table 49: Sector 96

OHT at Sector
96
Peak Factor 2 Maximum surplus 1272.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 254.8

237
Outflow Hours 24 1st Guess Capacity 1528 < 1524
(m3)
Minimum wataer level (m) 610.170 As per CPHEEO Capacity (m3) 1927
Initial water level (m) 611.170 Final computed Capacity (m3) 1524
Maximum wataer level (m) 615.170 Max. Population 36395
serving
Initial water depth in tank 1 Initial Volume (m3) 304.81
Area of CS 304.81 Fire storage (m3) 66.1
Diameter (m) 19.7 Depth for Fire (m) 0.072
Max. serving Demand (mld) 6.42 Av. Flow (m3/h)= 279.248

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 279.2 584.1 26.8 26.8 557.3 252.49 611.170 20.0 OK
1 0.1 279.2 863.3 26.8 53.5 809.8 252.49 611.998 36.6 OK
2 0.1 279.2 1142.5 26.8 80.3 1062.3 252.49 612.827 53.1 OK
3 0.3 279.2 1421.8 80.3 160.6 1261.2 198.96 613.655 69.7 OK
4 1 279.2 1701.0 267.6 428.2 1272.9 11.64 614.308 82.8 OK
5 1.2 279.2 1980.3 321.1 749.3 1231.0 -41.89 614.346 83.5 OK
6 2 279.2 2259.5 535.2 1284.5 975.0 -255.98 614.209 80.8 OK
7 2 279.2 2538.8 535.2 1819.8 719.0 -255.98 613.369 64.0 OK
8 2 279.2 2818.0 535.2 2355.0 463.0 -255.98 612.529 47.2 OK
9 1.5 279.2 3097.3 401.4 2756.4 340.9 -122.17 611.689 30.4 OK
10 1.2 279.2 3376.5 321.1 3077.5 299.0 -41.89 611.288 22.4 OK
11 1 279.2 3655.8 267.6 3345.2 310.6 11.64 611.151 19.6 OK
12 1 279.2 3935.0 267.6 3612.8 322.3 11.64 611.189 20.4 OK
13 0.6 279.2 4214.3 160.6 3773.3 440.9 118.68 611.227 21.1 OK
14 0.6 279.2 4493.5 160.6 3933.9 559.6 118.68 611.617 28.9 OK
15 0.5 279.2 4772.8 133.8 4067.7 705.1 145.44 612.006 36.7 OK
16 1.2 279.2 5052.0 321.1 4388.8 663.2 -41.89 612.483 46.3 OK
17 1.5 279.2 5331.3 401.4 4790.3 541.0 -122.17 612.346 43.5 OK
18 1.5 279.2 5610.5 401.4 5191.7 418.8 -122.17 611.945 35.5 OK
19 1.5 279.2 5889.8 401.4 5593.1 296.7 -122.17 611.544 27.5 OK
20 1.2 279.2 6169.0 321.1 5914.2 254.8 -41.89 611.143 19.5 OK
21 1 279.2 6448.3 267.6 6181.8 266.4 11.64 611.006 16.7 OK
22 0.6 279.2 6727.5 160.6 6342.4 385.1 118.68 611.044 17.5 OK
23 0.3 0.0 6727.5 80.3 6422.7 304.8 -80.28 611.433 25.3 OK
24 0.1 279.2 7006.8 26.8 6449.5 557.3 252.49 611.170 20.0 OK

Table 50: Sector 96 New Esr

OHT at Sector 96 New Esr

Peak Factor 2 Maximum surplus 1982.2
(m3)
Inflow Hours 23 Minimum surplus (m3) 315.7
Outflow Hours 24 1st Guess Capacity 2298
(m3)

238
Minimum wataer level (m) 611.550 As per CPHEEO Capacity (m3) 3154
Initial water level (m) 612.550 Final computed Capacity (m3) 1988
Maximum wataer level (m) 616.550 Max. Population 59575
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
3
Area of CS 397.61 Fire storage (m ) 108.2
Diameter (m) 22.5 Depth for Fire (m) 0.091
Max. serving Demand (mld) 10.51 Av. Flow (m3/h)= 457.092

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 457.1 854.7 43.8 43.8 810.9 413.29 612.550 20.0 OK
1 0.1 457.1 1311.8 43.8 87.6 1224.2 413.29 613.589 40.8 OK
2 0.1 457.1 1768.9 43.8 131.4 1637.5 413.29 614.629 61.6 OK
3 0.3 457.1 2226.0 131.4 262.8 1963.1 325.68 615.668 82.4 OK
4 1 457.1 2683.1 438.0 700.9 1982.2 19.05 616.487 98.7 OK
5 1.2 457.1 3140.2 525.7 1226.5 1913.6 -68.56 616.535 99.7 OK
6 2 457.1 3597.3 876.1 2102.6 1494.6 -419.00 616.363 96.3 OK
7 2 457.1 4054.3 876.1 2978.7 1075.6 -419.00 615.309 75.2 OK
8 2 457.1 4511.4 876.1 3854.8 656.6 -419.00 614.255 54.1 OK
9 1.5 457.1 4968.5 657.1 4511.9 456.6 -199.98 613.201 33.0 OK
10 1.2 457.1 5425.6 525.7 5037.5 388.1 -68.56 612.698 23.0 OK
11 1 457.1 5882.7 438.0 5475.6 407.1 19.05 612.526 19.5 OK
12 1 457.1 6339.8 438.0 5913.6 426.2 19.05 612.574 20.5 OK
13 0.6 457.1 6796.9 262.8 6176.5 620.4 194.26 612.622 21.4 OK
14 0.6 457.1 7254.0 262.8 6439.3 814.7 194.26 613.110 31.2 OK
15 0.5 457.1 7711.1 219.0 6658.3 1052.8 238.07 613.599 41.0 OK
16 1.2 457.1 8168.2 525.7 7184.0 984.2 -68.56 614.198 53.0 OK
17 1.5 457.1 8625.3 657.1 7841.0 784.2 -199.98 614.025 49.5 OK
18 1.5 457.1 9082.4 657.1 8498.1 584.3 -199.98 613.522 39.4 OK
19 1.5 457.1 9539.5 657.1 9155.2 384.3 -199.98 613.019 29.4 OK
20 1.2 457.1 9996.5 525.7 9680.8 315.7 -68.56 612.516 19.3 OK
21 1 457.1 10453.6 438.0 10118.9 334.8 19.05 612.344 15.9 OK
22 0.6 457.1 10910.7 262.8 10381.7 529.0 194.26 612.392 16.8 OK
23 0.3 0.0 10910.7 131.4 10513.1 397.6 -131.41 612.881 26.6 OK
24 0.1 457.1 11367.8 43.8 10556.9 810.9 413.29 612.550 20.0 OK

Table 51: Sector 96 Part 2

OHT at Sector 96 Part 2

Peak Factor 2 Maximum surplus 1355.1
(m3)
Inflow Hours 23 Minimum surplus (m3) 250.5
Outflow Hours 24 1st Guess Capacity 1606 < 1524
(m3)
Minimum wataer level (m) 609.970 As per CPHEEO Capacity (m3) 2091
Initial water level (m) 610.970 Final computed Capacity (m3) 1524

239
Maximum wataer level (m) 614.970 Max. Population 39489
serving
Initial water depth in tank 1 Initial Volume (m3) 304.81
Area of CS 304.81 Fire storage (m3) 71.7
Diameter (m) 19.7 Depth for Fire (m) 0.078
Max. serving Demand (mld) 6.97 Av. Flow (m3/h)= 302.983

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 303.0 607.8 29.0 29.0 578.8 273.95 610.970 20.0 OK
1 0.1 303.0 910.8 29.0 58.1 852.7 273.95 611.869 38.0 OK
2 0.1 303.0 1213.8 29.0 87.1 1126.6 273.95 612.768 56.0 OK
3 0.3 303.0 1516.7 87.1 174.2 1342.5 215.88 613.666 73.9 OK
4 1 303.0 1819.7 290.4 464.6 1355.1 12.62 614.375 88.1 OK
5 1.2 303.0 2122.7 348.4 813.0 1309.7 -45.45 614.416 88.9 OK
6 2 303.0 2425.7 580.7 1393.7 1032.0 -277.73 614.267 85.9 OK
7 2 303.0 2728.7 580.7 1974.4 754.2 -277.73 613.356 67.7 OK
8 2 303.0 3031.6 580.7 2555.2 476.5 -277.73 612.444 49.5 OK
9 1.5 303.0 3334.6 435.5 2990.7 343.9 -132.55 611.533 31.3 OK
10 1.2 303.0 3637.6 348.4 3339.1 298.5 -45.45 611.098 22.6 OK
11 1 303.0 3940.6 290.4 3629.5 311.1 12.62 610.949 19.6 OK
12 1 303.0 4243.6 290.4 3919.8 323.7 12.62 610.991 20.4 OK
13 0.6 303.0 4546.6 174.2 4094.1 452.5 128.77 611.032 21.2 OK
14 0.6 303.0 4849.5 174.2 4268.3 581.3 128.77 611.455 29.7 OK
15 0.5 303.0 5152.5 145.2 4413.4 739.1 157.80 611.877 38.1 OK
16 1.2 303.0 5455.5 348.4 4761.9 693.6 -45.45 612.395 48.5 OK
17 1.5 303.0 5758.5 435.5 5197.4 561.1 -132.55 612.246 45.5 OK
18 1.5 303.0 6061.5 435.5 5633.0 428.5 -132.55 611.811 36.8 OK
19 1.5 303.0 6364.5 435.5 6068.5 296.0 -132.55 611.376 28.1 OK
20 1.2 303.0 6667.4 348.4 6416.9 250.5 -45.45 610.941 19.4 OK
21 1 303.0 6970.4 290.4 6707.3 263.1 12.62 610.792 16.4 OK
22 0.6 303.0 7273.4 174.2 6881.5 391.9 128.77 610.833 17.3 OK
23 0.3 0.0 7273.4 87.1 6968.6 304.8 -87.11 611.256 25.7 OK
24 0.1 303.0 7576.4 29.0 6997.6 578.8 273.95 610.970 20.0 OK

Table 52: Shahu Nagar

OHT at Shahu Nagar

Peak Factor 2 Maximum surplus 1537.7
3
(m )
Inflow Hours 23 Minimum surplus (m3) 446.3
Outflow Hours 24 1st Guess Capacity 1984 < 2500
(m3)
Minimum wataer level (m) 631.500 As per CPHEEO Capacity (m3) 2065
Initial water level (m) 632.500 Final computed Capacity (m3) 2500
Maximum wataer level (m) 636.500 Max. Population 39014

240
 serving
Initial water depth in tank 1 Initial Volume (m3) 499.95
Area of CS 499.95 Fire storage (m3) 70.9
Diameter (m) 25.23 Depth for Fire (m) 0.047
Max. serving Demand (mld) 6.88 Av. Flow (m3/h)= 299.339

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 299.3 799.3 28.7 28.7 770.6 270.65 632.500 20.0 OK
1 0.1 299.3 1098.6 28.7 57.4 1041.3 270.65 633.041 30.8 OK
2 0.1 299.3 1398.0 28.7 86.1 1311.9 270.65 633.583 41.7 OK
3 0.3 299.3 1697.3 86.1 172.1 1525.2 213.28 634.124 52.5 OK
4 1 299.3 1996.6 286.9 459.0 1537.7 12.47 634.551 61.0 OK
5 1.2 299.3 2296.0 344.2 803.2 1492.8 -44.90 634.576 61.5 OK
6 2 299.3 2595.3 573.7 1377.0 1218.4 -274.39 634.486 59.7 OK
7 2 299.3 2894.7 573.7 1950.7 944.0 -274.39 633.937 48.7 OK
8 2 299.3 3194.0 573.7 2524.4 669.6 -274.39 633.388 37.8 OK
9 1.5 299.3 3493.3 430.3 2954.7 538.6 -130.96 632.839 26.8 OK
10 1.2 299.3 3792.7 344.2 3299.0 493.7 -44.90 632.577 21.5 OK
11 1 299.3 4092.0 286.9 3585.8 506.2 12.47 632.488 19.8 OK
12 1 299.3 4391.4 286.9 3872.7 518.7 12.47 632.512 20.2 OK
13 0.6 299.3 4690.7 172.1 4044.8 645.9 127.22 632.537 20.7 OK
14 0.6 299.3 4990.0 172.1 4216.9 773.1 127.22 632.792 25.8 OK
15 0.5 299.3 5289.4 143.4 4360.4 929.0 155.91 633.046 30.9 OK
16 1.2 299.3 5588.7 344.2 4704.6 884.1 -44.90 633.358 37.2 OK
17 1.5 299.3 5888.1 430.3 5134.9 753.1 -130.96 633.268 35.4 OK
18 1.5 299.3 6187.4 430.3 5565.2 622.2 -130.96 633.006 30.1 OK
19 1.5 299.3 6486.7 430.3 5995.5 491.2 -130.96 632.744 24.9 OK
20 1.2 299.3 6786.1 344.2 6339.8 446.3 -44.90 632.483 19.7 OK
21 1 299.3 7085.4 286.9 6626.6 458.8 12.47 632.393 17.9 OK
22 0.6 299.3 7384.7 172.1 6798.7 586.0 127.22 632.418 18.4 OK
23 0.3 0.0 7384.7 86.1 6884.8 499.9 -86.06 632.672 23.4 OK
24 0.1 299.3 7684.1 28.7 6913.5 770.6 270.65 632.500 20.0 OK

Table 53: Charholi c

OHT at Charhol
ic
Peak Factor 2 Maximum surplus (m3) 555.4
Inflow Hours 23 Minimum surplus (m3) 286.7
Outflow Hours 24 1st Guess Capacity 842 < 1499
(m3)
Minimum wataer level (m) 581.800 As per CPHEEO Capacity (m3) 509
Initial water level (m) 582.800 Final computed Capacity (m3) 1499
Maximum wataer level (m) 586.800 Max. Population 9606

241
 serving
Initial water depth in tank 1 Initial Volume (m3) 299.87
Area of CS 299.87 Fire storage (m3) 17.5
Diameter (m) 19.54 Depth for Fire (m) 0.019
Max. serving Demand (mld) 1.70 Av. Flow (m3/h)= 73.704

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulativ Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor e Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflow
(hours) Outflow
(m3) (m3) (m3)
) (m3)
0 0.1 73.7 373.6 7.1 7.1 366.5 66.64 582.800 20.0 OK
1 0.1 73.7 447.3 7.1 14.1 433.2 66.64 583.022 24.4 OK
2 0.1 73.7 521.0 7.1 21.2 499.8 66.64 583.244 28.9 OK
3 0.3 73.7 594.7 21.2 42.4 552.3 52.51 583.467 33.3 OK
4 1 73.7 668.4 70.6 113.0 555.4 3.07 583.642 36.8 OK
5 1.2 73.7 742.1 84.8 197.8 544.3 -11.06 583.652 37.0 OK
6 2 73.7 815.8 141.3 339.0 476.8 -67.56 583.615 36.3 OK
7 2 73.7 889.5 141.3 480.3 409.2 -67.56 583.390 31.8 OK
8 2 73.7 963.2 141.3 621.6 341.6 -67.56 583.165 27.3 OK
9 1.5 73.7 1036.9 106.0 727.5 309.4 -32.25 582.939 22.8 OK
10 1.2 73.7 1110.6 84.8 812.3 298.3 -11.06 582.832 20.6 OK
11 1 73.7 1184.3 70.6 882.9 301.4 3.07 582.795 19.9 OK
12 1 73.7 1258.0 70.6 953.6 304.5 3.07 582.805 20.1 OK
13 0.6 73.7 1331.7 42.4 995.9 335.8 31.32 582.815 20.3 OK
14 0.6 73.7 1405.4 42.4 1038.3 367.1 31.32 582.920 22.4 OK
15 0.5 73.7 1479.1 35.3 1073.6 405.5 38.39 583.024 24.5 OK
16 1.2 73.7 1552.8 84.8 1158.4 394.5 -11.06 583.152 27.0 OK
17 1.5 73.7 1626.6 106.0 1264.3 362.2 -32.25 583.115 26.3 OK
18 1.5 73.7 1700.3 106.0 1370.3 330.0 -32.25 583.008 24.2 OK
19 1.5 73.7 1774.0 106.0 1476.2 297.7 -32.25 582.900 22.0 OK
20 1.2 73.7 1847.7 84.8 1561.0 286.7 -11.06 582.793 19.9 OK
21 1 73.7 1921.4 70.6 1631.6 289.7 3.07 582.756 19.1 OK
22 0.6 73.7 1995.1 42.4 1674.0 321.1 31.32 582.766 19.3 OK
23 0.3 0.0 1995.1 21.2 1695.2 299.9 -21.19 582.871 21.4 OK
24 0.1 73.7 2068.8 7.1 1702.3 366.5 66.64 582.800 20.0 OK

Table 54: Dudulgaon

OHT at Dudulgaon
Peak Factor 2 Maximum surplus 774.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 170.4
Outflow Hours 24 1st Guess Capacity 945 < 1000
(m3)
Minimum wataer level (m) 594.940 As per CPHEEO Capacity (m3) 1143
Initial water level (m) 595.940 Final computed Capacity (m3) 1000
Maximum wataer level (m) 599.940 Max. Population 21596
serving

242
Initial water depth in tank 1 Initial Volume (m3) 200.06
3
Area of CS 200.06 Fire storage (m ) 39.2
Diameter (m) 15.96 Depth for Fire (m) 0.065
Max. serving Demand (mld) 3.81 Av. Flow (m3/h)= 165.696

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 165.7 365.8 15.9 15.9 349.9 149.82 595.940 20.0 OK
1 0.1 165.7 531.4 15.9 31.8 499.7 149.82 596.689 35.0 OK
2 0.1 165.7 697.1 15.9 47.6 649.5 149.82 597.438 50.0 OK
3 0.3 165.7 862.8 47.6 95.3 767.6 118.06 598.187 64.9 OK
4 1 165.7 1028.5 158.8 254.1 774.5 6.90 598.777 76.7 OK
5 1.2 165.7 1194.2 190.6 444.6 749.6 -24.85 598.811 77.4 OK
6 2 165.7 1359.9 317.6 762.2 597.7 -151.89 598.687 74.9 OK
7 2 165.7 1525.6 317.6 1079.8 445.8 -151.89 597.928 59.8 OK
8 2 165.7 1691.3 317.6 1397.4 294.0 -151.89 597.169 44.6 OK
9 1.5 165.7 1857.0 238.2 1635.6 221.5 -72.49 596.409 29.4 OK
10 1.2 165.7 2022.7 190.6 1826.1 196.6 -24.85 596.047 22.1 OK
11 1 165.7 2188.4 158.8 1984.9 203.5 6.90 595.923 19.7 OK
12 1 165.7 2354.1 158.8 2143.7 210.4 6.90 595.957 20.3 OK
13 0.6 165.7 2519.8 95.3 2239.0 280.8 70.42 595.992 21.0 OK
14 0.6 165.7 2685.5 95.3 2334.2 351.3 70.42 596.344 28.1 OK
15 0.5 165.7 2851.2 79.4 2413.6 437.6 86.30 596.696 35.1 OK
16 1.2 165.7 3016.9 190.6 2604.2 412.7 -24.85 597.127 43.7 OK
17 1.5 165.7 3182.6 238.2 2842.4 340.2 -72.49 597.003 41.3 OK
18 1.5 165.7 3348.3 238.2 3080.6 267.7 -72.49 596.641 34.0 OK
19 1.5 165.7 3514.0 238.2 3318.7 195.2 -72.49 596.278 26.8 OK
20 1.2 165.7 3679.7 190.6 3509.3 170.4 -24.85 595.916 19.5 OK
21 1 165.7 3845.4 158.8 3668.1 177.3 6.90 595.792 17.0 OK
22 0.6 165.7 4011.1 95.3 3763.4 247.7 70.42 595.826 17.7 OK
23 0.3 0.0 4011.1 47.6 3811.0 200.1 -47.64 596.178 24.8 OK
24 0.1 165.7 4176.8 15.9 3826.9 349.9 149.82 595.940 20.0 OK

Table 55: Gairan

OHT at Gairan
Peak Factor 2 Maximum surplus 1355.5
(m3)
Inflow Hours 23 Minimum surplus (m3) 348.1
Outflow Hours 24 1st Guess Capacity 1704 < 1988
(m3)
Minimum wataer level (m) 615.000 As per CPHEEO Capacity (m3) 1907
Initial water level (m) 616.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 620.000 Max. Population 36012
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 65.4
Diameter (m) 22.5 Depth for Fire (m) 0.055
Max. serving Demand (mld) 6.36 Av. Flow (m3/h)= 276.309

243
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 276.3 673.9 26.5 26.5 647.4 249.83 616.000 20.0 OK
1 0.1 276.3 950.2 26.5 53.0 897.3 249.83 616.628 32.6 OK
2 0.1 276.3 1226.5 26.5 79.4 1147.1 249.83 617.257 45.1 OK
3 0.3 276.3 1502.8 79.4 158.9 1344.0 196.87 617.885 57.7 OK
4 1 276.3 1779.2 264.8 423.7 1355.5 11.51 618.380 67.6 OK
5 1.2 276.3 2055.5 317.8 741.4 1314.0 -41.45 618.409 68.2 OK
6 2 276.3 2331.8 529.6 1271.0 1060.7 -253.28 618.305 66.1 OK
7 2 276.3 2608.1 529.6 1800.6 807.5 -253.28 617.668 53.4 OK
8 2 276.3 2884.4 529.6 2330.2 554.2 -253.28 617.031 40.6 OK
9 1.5 276.3 3160.7 397.2 2727.4 433.3 -120.89 616.394 27.9 OK
10 1.2 276.3 3437.0 317.8 3045.2 391.9 -41.45 616.090 21.8 OK
11 1 276.3 3713.3 264.8 3309.9 403.4 11.51 615.986 19.7 OK
12 1 276.3 3989.6 264.8 3574.7 414.9 11.51 616.014 20.3 OK
13 0.6 276.3 4265.9 158.9 3733.6 532.3 117.43 616.043 20.9 OK
14 0.6 276.3 4542.2 158.9 3892.5 649.7 117.43 616.339 26.8 OK
15 0.5 276.3 4818.5 132.4 4024.9 793.7 143.91 616.634 32.7 OK
16 1.2 276.3 5094.9 317.8 4342.7 752.2 -41.45 616.996 39.9 OK
17 1.5 276.3 5371.2 397.2 4739.8 631.3 -120.89 616.892 37.8 OK
18 1.5 276.3 5647.5 397.2 5137.0 510.4 -120.89 616.588 31.8 OK
19 1.5 276.3 5923.8 397.2 5534.2 389.5 -120.89 616.284 25.7 OK
20 1.2 276.3 6200.1 317.8 5852.0 348.1 -41.45 615.980 19.6 OK
21 1 276.3 6476.4 264.8 6116.8 359.6 11.51 615.875 17.5 OK
22 0.6 276.3 6752.7 158.9 6275.7 477.0 117.43 615.904 18.1 OK
23 0.3 0.0 6752.7 79.4 6355.1 397.6 -79.44 616.200 24.0 OK
24 0.1 276.3 7029.0 26.5 6381.6 647.4 249.83 616.000 20.0 OK

Table 56: Kudalwadi New1

OHT at Kudalwadi New1

Peak Factor 2 Maximum surplus 1485.1
(m3)
Inflow Hours 23 Minimum surplus (m3) 341.4
Outflow Hours 24 1st Guess Capacity 1826 < 1988
(m3)
Minimum wataer level (m) 602.000 As per CPHEEO Capacity (m3) 2164
Initial water level (m) 603.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 607.000 Max. Population 40884
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
3
Area of CS 397.61 Fire storage (m ) 74.3

244
Diameter (m) 22.5 Depth for Fire (m) 0.062
Max. serving Demand (mld) 7.21 Av. Flow (m3/h)= 313.686

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 313.7 711.3 30.1 30.1 681.2 283.62 603.000 20.0 OK
1 0.1 313.7 1025.0 30.1 60.1 964.9 283.62 603.713 34.3 OK
2 0.1 313.7 1338.7 30.1 90.2 1248.5 283.62 604.427 48.5 OK
3 0.3 313.7 1652.4 90.2 180.4 1472.0 223.50 605.140 62.8 OK
4 1 313.7 1966.0 300.6 481.0 1485.1 13.07 605.702 74.0 OK
5 1.2 313.7 2279.7 360.7 841.7 1438.0 -47.05 605.735 74.7 OK
6 2 313.7 2593.4 601.2 1443.0 1150.5 -287.55 605.617 72.3 OK
7 2 313.7 2907.1 601.2 2044.2 862.9 -287.55 604.893 57.9 OK
8 2 313.7 3220.8 601.2 2645.4 575.4 -287.55 604.170 43.4 OK
9 1.5 313.7 3534.5 450.9 3096.3 438.1 -137.24 603.447 28.9 OK
10 1.2 313.7 3848.2 360.7 3457.1 391.1 -47.05 603.102 22.0 OK
11 1 313.7 4161.8 300.6 3757.7 404.1 13.07 602.984 19.7 OK
12 1 313.7 4475.5 300.6 4058.3 417.2 13.07 603.016 20.3 OK
13 0.6 313.7 4789.2 180.4 4238.7 550.5 133.32 603.049 21.0 OK
14 0.6 313.7 5102.9 180.4 4419.0 683.8 133.32 603.385 27.7 OK
15 0.5 313.7 5416.6 150.3 4569.4 847.2 163.38 603.720 34.4 OK
16 1.2 313.7 5730.3 360.7 4930.1 800.2 -47.05 604.131 42.6 OK
17 1.5 313.7 6044.0 450.9 5381.0 662.9 -137.24 604.012 40.2 OK
18 1.5 313.7 6357.6 450.9 5831.9 525.7 -137.24 603.667 33.3 OK
19 1.5 313.7 6671.3 450.9 6282.9 388.5 -137.24 603.322 26.4 OK
20 1.2 313.7 6985.0 360.7 6643.6 341.4 -47.05 602.977 19.5 OK
21 1 313.7 7298.7 300.6 6944.2 354.5 13.07 602.859 17.2 OK
22 0.6 313.7 7612.4 180.4 7124.6 487.8 133.32 602.892 17.8 OK
23 0.3 0.0 7612.4 90.2 7214.8 397.6 -90.18 603.227 24.5 OK
24 0.1 313.7 7926.1 30.1 7244.8 681.2 283.62 603.000 20.0 OK

Table 57: Kudalwadi New2

OHT at Kudalwadi New2

Peak Factor 2 Maximum surplus 1520.0
(m3)
Inflow Hours 23 Minimum surplus (m3) 339.6
Outflow Hours 24 1st Guess Capacity 1860 < 1988
(m3)
Minimum wataer level (m) 602.000 As per CPHEEO Capacity (m3) 2234
Initial water level (m) 603.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 607.000 Max. Population 42198
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 76.7
Diameter (m) 22.5 Depth for Fire (m) 0.064

245
Max. serving Demand (mld) 7.45 Av. Flow (m3/h)= 323.770

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 323.8 721.4 31.0 31.0 690.4 292.74 603.000 20.0 OK
1 0.1 323.8 1045.1 31.0 62.1 983.1 292.74 603.736 34.7 OK
2 0.1 323.8 1368.9 31.0 93.1 1275.8 292.74 604.473 49.5 OK
3 0.3 323.8 1692.7 93.1 186.2 1506.5 230.69 605.209 64.2 OK
4 1 323.8 2016.5 310.3 496.4 1520.0 13.49 605.789 75.8 OK
5 1.2 323.8 2340.2 372.3 868.8 1471.4 -48.57 605.823 76.5 OK
6 2 323.8 2664.0 620.6 1489.3 1174.7 -296.79 605.701 74.0 OK
7 2 323.8 2987.8 620.6 2109.9 877.9 -296.79 604.954 59.1 OK
8 2 323.8 3311.5 620.6 2730.5 581.1 -296.79 604.208 44.2 OK
9 1.5 323.8 3635.3 465.4 3195.9 439.4 -141.65 603.461 29.2 OK
10 1.2 323.8 3959.1 372.3 3568.2 390.9 -48.57 603.105 22.1 OK
11 1 323.8 4282.8 310.3 3878.5 404.4 13.49 602.983 19.7 OK
12 1 323.8 4606.6 310.3 4188.8 417.8 13.49 603.017 20.3 OK
13 0.6 323.8 4930.4 186.2 4374.9 555.4 137.60 603.051 21.0 OK
14 0.6 323.8 5254.2 186.2 4561.1 693.0 137.60 603.397 27.9 OK
15 0.5 323.8 5577.9 155.1 4716.2 861.7 168.63 603.743 34.9 OK
16 1.2 323.8 5901.7 372.3 5088.6 813.1 -48.57 604.167 43.3 OK
17 1.5 323.8 6225.5 465.4 5554.0 671.5 -141.65 604.045 40.9 OK
18 1.5 323.8 6549.2 465.4 6019.4 529.8 -141.65 603.689 33.8 OK
19 1.5 323.8 6873.0 465.4 6484.8 388.2 -141.65 603.333 26.7 OK
20 1.2 323.8 7196.8 372.3 6857.2 339.6 -48.57 602.976 19.5 OK
21 1 323.8 7520.5 310.3 7167.4 353.1 13.49 602.854 17.1 OK
22 0.6 323.8 7844.3 186.2 7353.6 490.7 137.60 602.888 17.8 OK
23 0.3 0.0 7844.3 93.1 7446.7 397.6 -93.08 603.234 24.7 OK
24 0.1 323.8 8168.1 31.0 7477.7 690.4 292.74 603.000 20.0 OK

Table 58: Kudalwadi New3

OHT at Kudalwadi New3

Peak Factor 2 Maximum surplus 1486.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 341.3
Outflow Hours 24 1st Guess Capacity 1828 < 1988
(m3)
Minimum wataer level (m) 610.000 As per CPHEEO Capacity (m3) 2168
Initial water level (m) 611.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 615.000 Max. Population 40954
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 74.4
Diameter (m) 22.5 Depth for Fire (m) 0.062
Max. serving Demand (mld) 7.23 Av. Flow (m3/h)= 314.228

246
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 314.2 711.8 30.1 30.1 681.7 284.11 611.000 20.0 OK
1 0.1 314.2 1026.1 30.1 60.2 965.8 284.11 611.715 34.3 OK
2 0.1 314.2 1340.3 30.1 90.3 1250.0 284.11 612.429 48.6 OK
3 0.3 314.2 1654.5 90.3 180.7 1473.8 223.89 613.144 62.9 OK
4 1 314.2 1968.7 301.1 481.8 1486.9 13.09 613.707 74.1 OK
5 1.2 314.2 2283.0 361.4 843.2 1439.8 -47.13 613.740 74.8 OK
6 2 314.2 2597.2 602.3 1445.4 1151.8 -288.04 613.621 72.4 OK
7 2 314.2 2911.4 602.3 2047.7 863.7 -288.04 612.897 57.9 OK
8 2 314.2 3225.7 602.3 2650.0 575.7 -288.04 612.172 43.4 OK
9 1.5 314.2 3539.9 451.7 3101.7 438.2 -137.47 611.448 29.0 OK
10 1.2 314.2 3854.1 361.4 3463.1 391.1 -47.13 611.102 22.0 OK
11 1 314.2 4168.3 301.1 3764.2 404.2 13.09 610.984 19.7 OK
12 1 314.2 4482.6 301.1 4065.3 417.2 13.09 611.016 20.3 OK
13 0.6 314.2 4796.8 180.7 4246.0 550.8 133.55 611.049 21.0 OK
14 0.6 314.2 5111.0 180.7 4426.7 684.3 133.55 611.385 27.7 OK
15 0.5 314.2 5425.3 150.6 4577.3 848.0 163.66 611.721 34.4 OK
16 1.2 314.2 5739.5 361.4 4938.6 800.9 -47.13 612.133 42.7 OK
17 1.5 314.2 6053.7 451.7 5390.3 663.4 -137.47 612.014 40.3 OK
18 1.5 314.2 6367.9 451.7 5842.0 525.9 -137.47 611.668 33.4 OK
19 1.5 314.2 6682.2 451.7 6293.7 388.4 -137.47 611.323 26.5 OK
20 1.2 314.2 6996.4 361.4 6655.1 341.3 -47.13 610.977 19.5 OK
21 1 314.2 7310.6 301.1 6956.2 354.4 13.09 610.858 17.2 OK
22 0.6 314.2 7624.8 180.7 7136.9 487.9 133.55 610.891 17.8 OK
23 0.3 0.0 7624.8 90.3 7227.2 397.6 -90.34 611.227 24.5 OK
24 0.1 314.2 7939.1 30.1 7257.4 681.7 284.11 611.000 20.0 OK

Table 59: Kudalwadi New4

OHT at Kudalwadi New4

Peak Factor 2 Maximum surplus 1263.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 352.8
Outflow Hours 24 1st Guess Capacity 1617 < 1988
(m3)
Minimum wataer level (m) 610.000 As per CPHEEO Capacity (m3) 1724
Initial water level (m) 611.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 615.000 Max. Population 32568
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 59.2
Diameter (m) 22.5 Depth for Fire (m) 0.050
Max. serving Demand (mld) 5.75 Av. Flow (m3/h)= 249.884

247
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 249.9 647.5 23.9 23.9 623.5 225.94 611.000 20.0 OK
1 0.1 249.9 897.4 23.9 47.9 849.5 225.94 611.568 31.4 OK
2 0.1 249.9 1147.3 23.9 71.8 1075.4 225.94 612.136 42.7 OK
3 0.3 249.9 1397.1 71.8 143.7 1253.5 178.04 612.705 54.1 OK
4 1 249.9 1647.0 239.5 383.2 1263.9 10.41 613.152 63.0 OK
5 1.2 249.9 1896.9 287.4 670.5 1226.4 -37.48 613.179 63.6 OK
6 2 249.9 2146.8 478.9 1149.5 997.3 -229.06 613.084 61.7 OK
7 2 249.9 2396.7 478.9 1628.4 768.3 -229.06 612.508 50.2 OK
8 2 249.9 2646.6 478.9 2107.4 539.2 -229.06 611.932 38.6 OK
9 1.5 249.9 2896.4 359.2 2466.6 429.9 -109.32 611.356 27.1 OK
10 1.2 249.9 3146.3 287.4 2753.9 392.4 -37.48 611.081 21.6 OK
11 1 249.9 3396.2 239.5 2993.4 402.8 10.41 610.987 19.7 OK
12 1 249.9 3646.1 239.5 3232.9 413.2 10.41 611.013 20.3 OK
13 0.6 249.9 3896.0 143.7 3376.6 519.4 106.20 611.039 20.8 OK
14 0.6 249.9 4145.9 143.7 3520.2 625.6 106.20 611.306 26.1 OK
15 0.5 249.9 4395.7 119.7 3640.0 755.8 130.15 611.573 31.5 OK
16 1.2 249.9 4645.6 287.4 3927.3 718.3 -37.48 611.901 38.0 OK
17 1.5 249.9 4895.5 359.2 4286.5 609.0 -109.32 611.807 36.1 OK
18 1.5 249.9 5145.4 359.2 4645.8 499.6 -109.32 611.532 30.6 OK
19 1.5 249.9 5395.3 359.2 5005.0 390.3 -109.32 611.257 25.1 OK
20 1.2 249.9 5645.2 287.4 5292.3 352.8 -37.48 610.982 19.6 OK
21 1 249.9 5895.0 239.5 5531.8 363.2 10.41 610.887 17.7 OK
22 0.6 249.9 6144.9 143.7 5675.5 469.5 106.20 610.914 18.3 OK
23 0.3 0.0 6144.9 71.8 5747.3 397.6 -71.84 611.181 23.6 OK
24 0.1 249.9 6394.8 23.9 5771.3 623.5 225.94 611.000 20.0 OK

Table 60: Moshi b

OHT at Moshi
b
Peak Factor 2 Maximum surplus 1057.2
(m3)
Inflow Hours 23 Minimum surplus (m3) 260.9
Outflow Hours 24 1st Guess Capacity 1318 < 1500
(m3)
Minimum wataer level (m) 595.200 As per CPHEEO Capacity (m3) 1507
Initial water level (m) 596.200 Final computed Capacity (m3) 1500
Maximum wataer level (m) 600.200 Max. Population 28465
serving
Initial water depth in tank 1 Initial Volume (m3) 300.06
Area of CS 300.06 Fire storage (m3) 51.7
Diameter (m) 19.545944 Depth for Fire (m) 0.057
Max. serving Demand (mld) 5.02 Av. Flow (m3/h)= 218.398

248
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 218.4 518.5 20.9 20.9 497.5 197.47 596.200 20.0 OK
1 0.1 218.4 736.9 20.9 41.9 695.0 197.47 596.858 33.2 OK
2 0.1 218.4 955.3 20.9 62.8 892.5 197.47 597.516 46.3 OK
3 0.3 218.4 1173.6 62.8 125.6 1048.1 155.61 598.174 59.5 OK
4 1 218.4 1392.0 209.3 334.9 1057.2 9.10 598.693 69.9 OK
5 1.2 218.4 1610.4 251.2 586.0 1024.4 -32.76 598.723 70.5 OK
6 2 218.4 1828.8 418.6 1004.6 824.2 -200.20 598.614 68.3 OK
7 2 218.4 2047.2 418.6 1423.2 624.0 -200.20 597.947 54.9 OK
8 2 218.4 2265.6 418.6 1841.8 423.8 -200.20 597.280 41.6 OK
9 1.5 218.4 2484.0 313.9 2155.8 328.3 -95.55 596.612 28.2 OK
10 1.2 218.4 2702.4 251.2 2406.9 295.5 -32.76 596.294 21.9 OK
11 1 218.4 2920.8 209.3 2616.2 304.6 9.10 596.185 19.7 OK
12 1 218.4 3139.2 209.3 2825.5 313.7 9.10 596.215 20.3 OK
13 0.6 218.4 3357.6 125.6 2951.1 406.5 92.82 596.245 20.9 OK
14 0.6 218.4 3576.0 125.6 3076.7 499.3 92.82 596.555 27.1 OK
15 0.5 218.4 3794.4 104.6 3181.3 613.1 113.75 596.864 33.3 OK
16 1.2 218.4 4012.8 251.2 3432.5 580.3 -32.76 597.243 40.9 OK
17 1.5 218.4 4231.2 313.9 3746.4 484.8 -95.55 597.134 38.7 OK
18 1.5 218.4 4449.6 313.9 4060.4 389.2 -95.55 596.816 32.3 OK
19 1.5 218.4 4668.0 313.9 4374.3 293.7 -95.55 596.497 25.9 OK
20 1.2 218.4 4886.4 251.2 4625.5 260.9 -32.76 596.179 19.6 OK
21 1 218.4 5104.8 209.3 4834.8 270.0 9.10 596.070 17.4 OK
22 0.6 218.4 5323.2 125.6 4960.4 362.8 92.82 596.100 18.0 OK
23 0.3 0.0 5323.2 62.8 5023.1 300.1 -62.79 596.409 24.2 OK
24 0.1 218.4 5541.6 20.9 5044.1 497.5 197.47 596.200 20.0 OK

Table 61: New_Charoli

OHT at New_Charoli
Peak Factor 2 Maximum surplus 1042.1
(m3)
Inflow Hours 23 Minimum surplus (m3) 364.3
Outflow Hours 24 1st Guess Capacity 1406 < 1988
(m3)
Minimum wataer level (m) 604.000 As per CPHEEO Capacity (m3) 1283
Initial water level (m) 605.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 609.000 Max. Population 24229
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 44.0
Diameter (m) 22.5 Depth for Fire (m) 0.037
Max. serving Demand (mld) 4.28 Av. Flow (m3/h)= 185.900

Time Peak Inflow (m3/h) Outflow (m3/h) Cumu. Surplus Level %Tank Tank Status

249
 from Factor Inflow- or (m) Full
Start Cumulative Cumulativ Cumu. Deficit
Inflow Outflo
(hours) Inflow e Outflow Outflo (Inflow-
(m3) w (m3)
(m3) (m3) w (m3) Outflow
) (m3)
0 0.1 185.9 583.5 17.8 17.8 565.7 168.08 605.000 20.0 OK
1 0.1 185.9 769.4 17.8 35.6 733.8 168.08 605.423 28.5 OK
2 0.1 185.9 955.3 17.8 53.4 901.9 168.08 605.845 36.9 OK
3 0.3 185.9 1141.2 53.4 106.9 1034.3 132.45 606.268 45.4 OK
4 1 185.9 1327.1 178.2 285.0 1042.1 7.75 606.601 52.0 OK
5 1.2 185.9 1513.0 213.8 498.8 1014.2 -27.89 606.621 52.4 OK
6 2 185.9 1698.9 356.3 855.1 843.8 -170.41 606.551 51.0 OK
7 2 185.9 1884.8 356.3 1211.4 673.4 -170.41 606.122 42.4 OK
8 2 185.9 2070.7 356.3 1567.8 503.0 -170.41 605.694 33.9 OK
9 1.5 185.9 2256.6 267.2 1835.0 421.6 -81.33 605.265 25.3 OK
10 1.2 185.9 2442.5 213.8 2048.8 393.7 -27.89 605.060 21.2 OK
11 1 185.9 2628.4 178.2 2226.9 401.5 7.75 604.990 19.8 OK
12 1 185.9 2814.3 178.2 2405.1 409.2 7.75 605.010 20.2 OK
13 0.6 185.9 3000.2 106.9 2512.0 488.2 79.01 605.029 20.6 OK
14 0.6 185.9 3186.1 106.9 2618.9 567.2 79.01 605.228 24.6 OK
15 0.5 185.9 3372.0 89.1 2707.9 664.1 96.82 605.427 28.5 OK
16 1.2 185.9 3557.9 213.8 2921.7 636.2 -27.89 605.670 33.4 OK
17 1.5 185.9 3743.8 267.2 3189.0 554.8 -81.33 605.600 32.0 OK
18 1.5 185.9 3929.7 267.2 3456.2 473.5 -81.33 605.395 27.9 OK
19 1.5 185.9 4115.6 267.2 3723.4 392.2 -81.33 605.191 23.8 OK
20 1.2 185.9 4301.5 213.8 3937.2 364.3 -27.89 604.986 19.7 OK
21 1 185.9 4487.4 178.2 4115.4 372.0 7.75 604.916 18.3 OK
22 0.6 185.9 4673.3 106.9 4222.3 451.1 79.01 604.936 18.7 OK
23 0.3 0.0 4673.3 53.4 4275.7 397.6 -53.45 605.134 22.7 OK
24 0.1 185.9 4859.2 17.8 4293.5 565.7 168.08 605.000 20.0 OK

Table 62: New_Moshi b

OHT at New_Moshi b
Peak Factor 2 Maximum surplus 1687.6
(m3)
Inflow Hours 23 Minimum surplus (m3) 319.9
Outflow Hours 24 1st Guess Capacity 2007 < 1935
(m3)
Minimum wataer level (m) 600.100 As per CPHEEO Capacity (m3) 2588
Initial water level (m) 601.100 Final computed Capacity (m3) 1935
Maximum wataer level (m) 605.100 Max. Population 48894
serving
Initial water depth in tank 1 Initial Volume (m3) 387.08
Area of CS 387.08 Fire storage (m3) 88.8
Diameter (m) 22.2 Depth for Fire (m) 0.077
Max. serving Demand (mld) 8.63 Av. Flow (m3/h)= 375.143

250
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 375.1 762.2 36.0 36.0 726.3 339.19 601.100 20.0 OK
1 0.1 375.1 1137.4 36.0 71.9 1065.5 339.19 601.976 37.5 OK
2 0.1 375.1 1512.5 36.0 107.9 1404.7 339.19 602.853 55.1 OK
3 0.3 375.1 1887.7 107.9 215.7 1671.9 267.29 603.729 72.6 OK
4 1 375.1 2262.8 359.5 575.2 1687.6 15.63 604.419 86.4 OK
5 1.2 375.1 2637.9 431.4 1006.6 1631.3 -56.27 604.460 87.2 OK
6 2 375.1 3013.1 719.0 1725.7 1287.4 -343.88 604.314 84.3 OK
7 2 375.1 3388.2 719.0 2444.7 943.5 -343.88 603.426 66.5 OK
8 2 375.1 3763.4 719.0 3163.7 599.7 -343.88 602.538 48.8 OK
9 1.5 375.1 4138.5 539.3 3703.0 435.5 -164.13 601.649 31.0 OK
10 1.2 375.1 4513.7 431.4 4134.4 379.3 -56.27 601.225 22.5 OK
11 1 375.1 4888.8 359.5 4493.9 394.9 15.63 601.080 19.6 OK
12 1 375.1 5263.9 359.5 4853.4 410.5 15.63 601.120 20.4 OK
13 0.6 375.1 5639.1 215.7 5069.1 570.0 159.44 601.161 21.2 OK
14 0.6 375.1 6014.2 215.7 5284.8 729.4 159.44 601.572 29.4 OK
15 0.5 375.1 6389.4 179.8 5464.6 924.8 195.39 601.984 37.7 OK
16 1.2 375.1 6764.5 431.4 5896.0 868.5 -56.27 602.489 47.8 OK
17 1.5 375.1 7139.7 539.3 6435.3 704.4 -164.13 602.344 44.9 OK
18 1.5 375.1 7514.8 539.3 6974.5 540.3 -164.13 601.920 36.4 OK
19 1.5 375.1 7889.9 539.3 7513.8 376.1 -164.13 601.496 27.9 OK
20 1.2 375.1 8265.1 431.4 7945.2 319.9 -56.27 601.072 19.4 OK
21 1 375.1 8640.2 359.5 8304.7 335.5 15.63 600.926 16.5 OK
22 0.6 375.1 9015.4 215.7 8520.4 494.9 159.44 600.967 17.3 OK
23 0.3 0.0 9015.4 107.9 8628.3 387.1 -107.85 601.379 25.6 OK
24 0.1 375.1 9390.5 36.0 8664.3 726.3 339.19 601.100 20.0 OK

Table 63: New_Wadmukhwadi b

OHT at New_Wadmukhwadi b
Peak Factor 2 Maximum surplus 726.2
(m3)
Inflow Hours 23 Minimum surplus (m3) 380.6
Outflow Hours 24 1st Guess Capacity 1107 < 1988
(m3)
Minimum wataer level (m) 604.000 As per CPHEEO Capacity (m3) 654
Initial water level (m) 605.000 Final computed Capacity (m3) 1988
Maximum wataer level (m) 609.000 Max. Population 12355
serving
Initial water depth in tank 1 Initial Volume (m3) 397.61
Area of CS 397.61 Fire storage (m3) 22.4
Diameter (m) 22.5 Depth for Fire (m) 0.019
Max. serving Demand (mld) 2.18 Av. Flow (m3/h)= 94.796

251
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 94.8 492.4 9.1 9.1 483.3 85.71 605.000 20.0 OK
1 0.1 94.8 587.2 9.1 18.2 569.0 85.71 605.216 24.3 OK
2 0.1 94.8 682.0 9.1 27.3 654.7 85.71 605.431 28.6 OK
3 0.3 94.8 776.8 27.3 54.5 722.3 67.54 605.647 32.9 OK
4 1 94.8 871.6 90.8 145.4 726.2 3.95 605.817 36.3 OK
5 1.2 94.8 966.4 109.0 254.4 712.0 -14.22 605.827 36.5 OK
6 2 94.8 1061.2 181.7 436.1 625.1 -86.90 605.791 35.8 OK
7 2 94.8 1156.0 181.7 617.8 538.2 -86.90 605.572 31.4 OK
8 2 94.8 1250.8 181.7 799.4 451.3 -86.90 605.354 27.1 OK
9 1.5 94.8 1345.6 136.3 935.7 409.9 -41.47 605.135 22.7 OK
10 1.2 94.8 1440.4 109.0 1044.7 395.6 -14.22 605.031 20.6 OK
11 1 94.8 1535.2 90.8 1135.6 399.6 3.95 604.995 19.9 OK
12 1 94.8 1630.0 90.8 1226.4 403.5 3.95 605.005 20.1 OK
13 0.6 94.8 1724.7 54.5 1280.9 443.8 40.29 605.015 20.3 OK
14 0.6 94.8 1819.5 54.5 1335.4 484.1 40.29 605.116 22.3 OK
15 0.5 94.8 1914.3 45.4 1380.9 533.5 49.37 605.218 24.4 OK
16 1.2 94.8 2009.1 109.0 1489.9 519.3 -14.22 605.342 26.8 OK
17 1.5 94.8 2103.9 136.3 1626.1 477.8 -41.47 605.306 26.1 OK
18 1.5 94.8 2198.7 136.3 1762.4 436.3 -41.47 605.202 24.0 OK
19 1.5 94.8 2293.5 136.3 1898.7 394.8 -41.47 605.097 21.9 OK
20 1.2 94.8 2388.3 109.0 2007.7 380.6 -14.22 604.993 19.9 OK
21 1 94.8 2483.1 90.8 2098.5 384.6 3.95 604.957 19.1 OK
22 0.6 94.8 2577.9 54.5 2153.0 424.9 40.29 604.967 19.3 OK
23 0.3 0.0 2577.9 27.3 2180.3 397.6 -27.25 605.069 21.4 OK
24 0.1 94.8 2672.7 9.1 2189.4 483.3 85.71 605.000 20.0 OK

Table 64: Wadmukhwadi b

OHT at Wadmukhwadi b
Peak Factor 2 Maximum surplus 744.2
(m3)
Inflow Hours 23 Minimum surplus (m3) 382.3
Outflow Hours 24 1st Guess Capacity 1126 < 2000
(m3)
Minimum wataer level (m) 589.700 As per CPHEEO Capacity (m3) 685
Initial water level (m) 590.700 Final computed Capacity (m3) 2000
Maximum wataer level (m) 594.700 Max. Population 12936
serving
Initial water depth in tank 1 Initial Volume (m3) 400.09
Area of CS 400.09 Fire storage (m3) 23.5
Diameter (m) 22.57 Depth for Fire (m) 0.020
Max. serving Demand (mld) 2.28 Av. Flow (m3/h)= 99.255

Time Peak Inflow (m3/h) Outflow (m3/h) Cumu. Surplus Level %Tank Tank Status

252
 from Factor Inflow- or (m) Full
Start Cumulative Cumulativ Cumu. Deficit
Inflow Outflo
(hours) Inflow e Outflow Outflo (Inflow-
(m3) w (m3)
(m3) (m3) w (m3) Outflow
) (m3)
0 0.1 99.3 499.3 9.5 9.5 489.8 89.74 590.700 20.0 OK
1 0.1 99.3 598.6 9.5 19.0 579.6 89.74 590.924 24.5 OK
2 0.1 99.3 697.9 9.5 28.5 669.3 89.74 591.149 29.0 OK
3 0.3 99.3 797.1 28.5 57.1 740.0 70.72 591.373 33.5 OK
4 1 99.3 896.4 95.1 152.2 744.2 4.14 591.550 37.0 OK
5 1.2 99.3 995.6 114.1 266.3 729.3 -14.89 591.560 37.2 OK
6 2 99.3 1094.9 190.2 456.6 638.3 -90.98 591.523 36.5 OK
7 2 99.3 1194.1 190.2 646.8 547.3 -90.98 591.295 31.9 OK
8 2 99.3 1293.4 190.2 837.0 456.3 -90.98 591.068 27.4 OK
9 1.5 99.3 1392.6 142.7 979.7 412.9 -43.42 590.841 22.8 OK
10 1.2 99.3 1491.9 114.1 1093.9 398.0 -14.89 590.732 20.6 OK
11 1 99.3 1591.1 95.1 1189.0 402.2 4.14 590.695 19.9 OK
12 1 99.3 1690.4 95.1 1284.1 406.3 4.14 590.705 20.1 OK
13 0.6 99.3 1789.7 57.1 1341.2 448.5 42.18 590.716 20.3 OK
14 0.6 99.3 1888.9 57.1 1398.2 490.7 42.18 590.821 22.4 OK
15 0.5 99.3 1988.2 47.6 1445.8 542.4 51.70 590.926 24.5 OK
16 1.2 99.3 2087.4 114.1 1560.0 527.5 -14.89 591.056 27.1 OK
17 1.5 99.3 2186.7 142.7 1702.6 484.0 -43.42 591.018 26.4 OK
18 1.5 99.3 2285.9 142.7 1845.3 440.6 -43.42 590.910 24.2 OK
19 1.5 99.3 2385.2 142.7 1988.0 397.2 -43.42 590.801 22.0 OK
20 1.2 99.3 2484.4 114.1 2102.1 382.3 -14.89 590.693 19.9 OK
21 1 99.3 2583.7 95.1 2197.2 386.4 4.14 590.656 19.1 OK
22 0.6 99.3 2682.9 57.1 2254.3 428.6 42.18 590.666 19.3 OK
23 0.3 0.0 2682.9 28.5 2282.9 400.1 -28.54 590.771 21.4 OK
24 0.1 99.3 2782.2 9.5 2292.4 489.8 89.74 590.700 20.0 OK

Table 65: New Jadhavwadi2

OHT at NewJadhavwadi2
Peak Factor 2 Maximum surplus 1201.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 268.3
Outflow Hours 24 1st Guess Capacity 1470 < 1571
(m3)
Minimum wataer level (m) 615.940 As per CPHEEO Capacity (m3) 1767
Initial water level (m) 616.940 Final computed Capacity (m3) 1571
Maximum wataer level (m) 620.940 Max. Population 33375
serving
Initial water depth in tank 1 Initial Volume (m3) 314.16
Area of CS 314.16 Fire storage (m3) 60.6
Diameter (m) 20 Depth for Fire (m) 0.064
Max. serving Demand (mld) 5.89 Av. Flow (m3/h)= 256.070

253
 Inflow (m3/h) Outflow (m3/h) Cumu.
Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 256.1 570.2 24.5 24.5 545.7 231.53 616.940 20.0 OK
1 0.1 256.1 826.3 24.5 49.1 777.2 231.53 617.677 34.7 OK
2 0.1 256.1 1082.4 24.5 73.6 1008.7 231.53 618.414 49.5 OK
3 0.3 256.1 1338.4 73.6 147.2 1191.2 182.45 619.151 64.2 OK
4 1 256.1 1594.5 245.4 392.6 1201.9 10.67 619.732 75.8 OK
5 1.2 256.1 1850.6 294.5 687.1 1163.5 -38.41 619.766 76.5 OK
6 2 256.1 2106.6 490.8 1177.9 928.7 -234.73 619.643 74.1 OK
7 2 256.1 2362.7 490.8 1668.7 694.0 -234.73 618.896 59.1 OK
8 2 256.1 2618.8 490.8 2159.5 459.3 -234.73 618.149 44.2 OK
9 1.5 256.1 2874.9 368.1 2527.6 347.2 -112.03 617.402 29.2 OK
10 1.2 256.1 3130.9 294.5 2822.1 308.8 -38.41 617.045 22.1 OK
11 1 256.1 3387.0 245.4 3067.5 319.5 10.67 616.923 19.7 OK
12 1 256.1 3643.1 245.4 3312.9 330.2 10.67 616.957 20.3 OK
13 0.6 256.1 3899.1 147.2 3460.1 439.0 108.83 616.991 21.0 OK
14 0.6 256.1 4155.2 147.2 3607.4 547.8 108.83 617.337 27.9 OK
15 0.5 256.1 4411.3 122.7 3730.1 681.2 133.37 617.684 34.9 OK
16 1.2 256.1 4667.3 294.5 4024.6 642.8 -38.41 618.108 43.4 OK
17 1.5 256.1 4923.4 368.1 4392.7 530.8 -112.03 617.986 40.9 OK
18 1.5 256.1 5179.5 368.1 4760.8 418.7 -112.03 617.629 33.8 OK
19 1.5 256.1 5435.6 368.1 5128.9 306.7 -112.03 617.273 26.7 OK
20 1.2 256.1 5691.6 294.5 5423.3 268.3 -38.41 616.916 19.5 OK
21 1 256.1 5947.7 245.4 5668.7 279.0 10.67 616.794 17.1 OK
22 0.6 256.1 6203.8 147.2 5816.0 387.8 108.83 616.828 17.8 OK
23 0.3 0.0 6203.8 73.6 5889.6 314.2 -73.62 617.174 24.7 OK
24 0.1 256.1 6459.8 24.5 5914.1 545.7 231.53 616.940 20.0 OK

OHT at NewJadhavwadi2
Peak Factor 2 Maximum surplus 1201.9
(m3)
Inflow Hours 23 Minimum surplus (m3) 268.3
Outflow Hours 24 1st Guess Capacity 1470 < 1571
(m3)
Minimum wataer level (m) 615.940 As per CPHEEO Capacity (m3) 1767
Initial water level (m) 616.940 Final computed Capacity (m3) 1571
Maximum wataer level (m) 620.940 Max. Population 33375
serving
Initial water depth in tank 1 Initial Volume (m3) 314.16
Area of CS 314.16 Fire storage (m3) 60.6
Diameter (m) 20 Depth for Fire (m) 0.064
Max. serving Demand (mld) 5.89 Av. Flow (m3/h)= 256.070

Inflow (m3/h) Outflow (m3/h) Cumu.

Surplus
Time or
Inflow-
from Peak Cumulative Cumulativ Deficit Level %Tank
Inflow Outflo Cumu. Tank Status
Start Factor Inflow e Outflow (Inflow- (m) Full
(m3) w (m3) Outflo
(hours) Outflow
(m3) (m3) w (m3)
) (m3)
0 0.1 256.1 570.2 24.5 24.5 545.7 231.53 616.940 20.0 OK
1 0.1 256.1 826.3 24.5 49.1 777.2 231.53 617.677 34.7 OK
2 0.1 256.1 1082.4 24.5 73.6 1008.7 231.53 618.414 49.5 OK
3 0.3 256.1 1338.4 73.6 147.2 1191.2 182.45 619.151 64.2 OK
4 1 256.1 1594.5 245.4 392.6 1201.9 10.67 619.732 75.8 OK
5 1.2 256.1 1850.6 294.5 687.1 1163.5 -38.41 619.766 76.5 OK
6 2 256.1 2106.6 490.8 1177.9 928.7 -234.73 619.643 74.1 OK
7 2 256.1 2362.7 490.8 1668.7 694.0 -234.73 618.896 59.1 OK
8 2 256.1 2618.8 490.8 2159.5 459.3 -234.73 618.149 44.2 OK
9 1.5 256.1 2874.9 368.1 2527.6 347.2 -112.03 617.402 29.2 OK
10 1.2 256.1 3130.9 294.5 2822.1 308.8 -38.41 617.045 22.1 OK
11 1 256.1 3387.0 245.4 3067.5 319.5 10.67 616.923 19.7 OK

254
12 1 256.1 3643.1 245.4 3312.9 330.2 10.67 616.957 20.3 OK
13 0.6 256.1 3899.1 147.2 3460.1 439.0 108.83 616.991 21.0 OK
14 0.6 256.1 4155.2 147.2 3607.4 547.8 108.83 617.337 27.9 OK
15 0.5 256.1 4411.3 122.7 3730.1 681.2 133.37 617.684 34.9 OK
16 1.2 256.1 4667.3 294.5 4024.6 642.8 -38.41 618.108 43.4 OK
17 1.5 256.1 4923.4 368.1 4392.7 530.8 -112.03 617.986 40.9 OK
18 1.5 256.1 5179.5 368.1 4760.8 418.7 -112.03 617.629 33.8 OK
19 1.5 256.1 5435.6 368.1 5128.9 306.7 -112.03 617.273 26.7 OK
20 1.2 256.1 5691.6 294.5 5423.3 268.3 -38.41 616.916 19.5 OK
21 1 256.1 5947.7 245.4 5668.7 279.0 10.67 616.794 17.1 OK
22 0.6 256.1 6203.8 147.2 5816.0 387.8 108.83 616.828 17.8 OK
23 0.3 0.0 6203.8 73.6 5889.6 314.2 -73.62 617.174 24.7 OK
24 0.1 256.1 6459.8 24.5 5914.1 545.7 231.53 616.940 20.0 OK

255