BE6300 Manual FM 081313
BE6300 Manual FM 081313
BE6300 Manual FM 081313
BE6300 Version 18
info@FlomotionSystems.com
1. Preface
2. Characteristics
3. Operation Principle
4. Typical Applications
5. Packing List
6. Technical Specifications
7. Power Connection
8. Cables
9. Wire Connections
4
5
5
6
6
7
8
8
8
9
9
10
10
10
11
11
12
14
15
16
1. Summary
2. Menu Descriptions
(1) Flow/Totalizer Display Menu
(2) Initial Setup Menu
(3) Output/Input Setup Menu
(4) Energy Meter Setup Menu
(5) Diagnostics Setup Menu
(6) Other Options Setup Menu
16
17
17
18
26
31
34
35
37
37
38
39
Appendix40
Appendix 1. Sound Velocity and Viscosity of Liquids
Appendix 2. Sound Velocity for Various Common Materials
Appendix 3. Sound Velocity in Water
Appendix 4. Pipe Dimensions and Weights
Ductile Iron Pipe Classes
Cast Iron Pipe Classes
40
40
41
42
48
49
3
I. Introduction
1. Preface
Welcome to BE6300 series ultrasonic flow meter. Please read this instruction
manual thoroughly before installation and operation.
BE6300 ultrasonic flow meter is a time-difference type ultrasonic flow meter,
whose transducers are mounted by being clamped to the external surface of a
pipe. It measures clean, well-distributed flows of liquids in which the content of
suspended particles is minimal.
The system is configured as below;
1. Sensor Set: A pair of ultrasonic transducers mounted on the external surface
on a pipe.
2. Processor: The processor and the transducers are connected by two double
shield high frequency cables. The processor can be monitored and controlled remotely through a PC connected via Internet. The following illustrates
the configuration of the processor unit and the transducer sets;
2. Characteristics
BE6300 ultrasonic flow meter is based on single-board technology featuring high accuracy,
reliability and repeatability.
Additional advantages:
Transducers are not intrusive. Therefore theres no pressure drop. They are mounted on
the outside wall of the pipe.
Advanced intelligent instrumentation, processing and printing (logging) according to user
requirements. Almost all common flow units are used. It uses normal power, built-in battery
or DC power, etc.
It uses the most advanced direct time measurement method with the resolution of 0.2 ns.
Coupled with the advanced data processing functions, it provides high level of linearity.
Various output options available including analog current output, frequency output, relay
output, etc.
3. Operation Principle
This time-of-travel (transit-time) meter has a pair of transducers mounted on each side of
the pipe. The configuration is such that the sound waves traveling between the devices are
at a 45-degree angle to the direction of liquid flow. The speed of the sound signal traveling
between the transducers increases or decreases depending upon the direction of transmission and the velocity of the liquid being measured. A time-differential relationship proportional to the flow can be obtained by transmitting the signal alternately in both directions.
The ultrasonic transit-time method is suitable for measuring single-phase, pure liquids without
entrained air bubbles. In industrial sites, the liquids may contain a certain level of impurities and
flow conditions are often not very uniform, thereby negatively affecting the performance of the
ultrasonic flow meters. But our BE6300 ultrasonic flow meter adopts the most advanced direct
time measuring method that considers the influence of temperature and crude inside pipe situation in order to increase the accuracy and the reliability of the result. With the use of the zero
setting function, the meter renders 0.5% accuracy.
4. Typical Applications
5. Packing List
Items included are as follows;
1 processor
1 set of transducers(2 each)
1 transducer mounting bands
1 couplant
1 instruction manual
1 USB 2G memory (optional)
6. Technical Specifications
CLASSIFICATION
Pipe
Fluid
PERFORMANCE/PARAMETER
Materials
Inner Diameter
Straight
Pipe Section
Requirement
Types
Turbidity
Temperature
-4 F to 140 F (-20 C to 60 C)
Flow Velocity
Transducer
Cable Length
Flow Computer
Operating Condition
Performance
Display
Alphanumeric
Keyboard
4x4 keypad
Mounting
Output
4-20mA or 0-20mA analog output, frequency output (129999Hz), relay, serial output
Power
Dimension
Weight
Temperature
Humidity
Accuracy
Repeatability
Linearity
0.5%
VERSION 18
No SD card
7. Power Connection
The meter can use standard 120VAC or 24VDC power supply. By default, the meter is provided with
the standard 120VAC power type. Therefore, should the user want 24VDC model, such should be
indicated when ordering.
8. Cables
Cables should never be spliced or cut. This may cause damage to the unit and void the warranty.
9. Wire Connections
SELECTED VALUE
77 BEEPER SETUP
30 MEASURE UNITS IN
1. ENGLISH
US Gallon/min ( g/m)
32 TOTALIZER UNITS
US Gallon
34 NET TOTALIZER
OFF
35 POS TOTALIZER
ON
36 NEG TOTALIZER
ON
40 DAMPENING
10 SEC
0.2 FT/S
1000
YY-MM-DD HH:MM:SS
23 TRANSDUCER TYPE
10
The user can enter into specific windows using the MENU key followed by a 2-digit code.
So, for example, in order to go to M13 window, this is the window for inputting the inner
diameter of the pipe, press MENU 1 3
(3) Rapid Programing Setup
1. Press MENU 1 1 to enter M11 window, input pipe outer diameter, press ENT.
2. Press 6/- to enter M12 window, input wall thickness and press ENT.
3. Press 6/- to enter M14 window and press ENT 6/- or 5/+ to scroll to select pipe
material, and press ENT.
4. Press 6/- to enter M16 window and ENT 6/- or 5/+ to scroll to select liner material,
and press ENT.
5. Press 6/- to enter M20 window and ENT 6/- or 5/+ to scroll to select fluid type,
and press ENT.
6. Press 6/- to enter M23 window and ENT 6/- or 5/+ to scroll select the transducer
type, and press ENT.
7. Press 6/- to enter M24 window and ENT 6/- or 5/+ to scroll select the transducer
mounting method, and press ENT.
8. Press 6/- to enter M25 window, which will display the correct transducer spacing (the
distance between the front edges of the transducers).
9. Press MENU 0 1, the flow rate and the velocity of the flow will be displayed upon
completion of the gain adjusting process.
(4) Transducer Spacing
The distance is measured between the front edges of both transducers. After all the
parameters have been set, the distance is shown in window no. M25.
11
The Z method is recommended for >10 (250mm) pipes or when the flow condition is bad
because of scale built up inside the pipe, entrained air bubbles, too thick liner, etc. which can
induce a lot of noise into signal. Using this method, the signal is dispersed in a straight path
reducing the possibility of noise induction.
12
Z METHOD
The user can verify whether the mounting is done correctly or not by checking the received
signal strength, total travel time, time difference and rate of travel time, which are described
below;
(1) Signal Strength & Quality - MENU 90
The signal strength is indicated by a number between 0.00 ~ 99.9. 0.00 means no signal
received and 99.9 means the signal strength is at the maximum. It should be larger than
60.0 for normal operation. The signal quality Q is indicated by a number between 0.00 ~
99.9. 0.00 indicates that the signal is at its lowest level and 99.9 the highest. It should be
at least 60.00 for normal operation.
(2) Total Travel Time and Delta Time - MENU 93
The measurement is taken based on the total travel time and the time difference. Under
normal working conditions the Delta time should not fluctuate beyond +-20%. If continuous
violent fluctuation or fluctuations over +- 20% occur stability has been compromised and
adjustments must be made. Review and adjust the transducer installation and the initial
setup parameters M10 - M29.
(3) Time Rate (TOM/TOS* 100) - MENU 91
This is used to confirm whether the transducers are located with the correct interval. This
should indicate 100 3%.
13
DESCRIPTION
3.6 v
GROUND
NOT CONNECTED
DATA INPUT
15
MENU
40
Damping
80
01
Flow Rate/Velocity
41
81
02
42
Set Zero
82
Date Totalizer
03
43
Reset Zero
83
Automatic Amending
04
44
84
05
45
Scale Factor
85
Temperature Select
06
46
Network IDN
86
Specific Heat
07
47
System Lock
87
48
88
Energy Multiplier
49
89
Temperature Diff.
8.
Heat Meter is On
08
09
10
50
MENU
11
51
90
Strength + Quality
12
52
91
TOM/TOS*100
13
53
92
14
Pipe Material
54
93
15
55
CL Mode Select
94
16
Liner Material
56
95
ETP ETN
17
57
MENU
18
Liner Thickness
58
CL Checkup (mA)
+0
19
59
CL Current Output
+1
20
Fluid Type
60
+2
21
61
+3
22
Fluid Viscosity
62
RS-485/RS-232 Setup
+4
ON/OFF Times
23
Transducer Type
63
+5
Calculator :input X=
24
Transducer Mounting
64
+6
25
Transducer Spacing
65
+7
26
Default Settings
66
+8
27
Save/Load Parameters
67
FO Frequency Range
+9
No-Ready Timer
28
68
29
69
70
16
00
30
Measurement Unit in
71
LCD Contrast
31
72
Working Timer
32
Totalizer Unit
73
33
Totalizer Multiplier
74
34
NET Totalizer
75
35
POS Totalizer
76
36
NEG Totalizer
77
77 Beeper Setup
37
Totalizer Reset
78
38
Manual Totalizer
79
39
Language Selection
3.
Segmental LCD
DIAGNOSTICS
OTHERS
2. Menu Descriptions
(1) Flow/Totalizer Display Menu
CHOICES:
0. Carbon Steel
1. Stainless Steel
2. Cast Iron
3. Ductile Iron
4. Copper
5. PVC
6. Aluminum
7. Asbestos
8. Fiber Glass- Epoxy
9. Other
Press ENT, use keypad numbers to enter velocity then press ENT.
LINER MATERIAL (M16)
Description: You can select one of the following materials from the list provided. If 11. Other,
you must input the corresponding sound velocity of the material in Liner Sound Velocity (M17).
Press ENT 6/- or 5/+, to make selection then press ENT.
CHOICES:
0. None, No Liner
1. Tar Epoxy
2. Rubber
3. Mortar
4. Polypropylene
5. Polystrol
6. Polystyrene
7. Polyester
8. Polyethylene
9. Ebonite
10. Teflon
11. Other
CHOICES:
0. Water (General)
1. Sea Water
2. Kerosene
3. Gasoline
4. Fuel Oil
5. Crude Oil
6. Propane (-45C)
7. Butane (0C)
8. Other Liquid
9. Diesel Oil
10. Castor Oil
11. Peanut Oil
12. Gasoline #90
13. Gasoline #93
14. Alcohol
15. Water (125C)
19
CHOICES:
0. Standard-M
1. Insertion Type C
2. Standard-S
3. User Type
4. Standard-B
5. Insertion B(45)
6. Standard-L
7. JH-Polysonics
8. Standard-HS
9. Standard-HM
10. Standard-M1
11. Standard-S1
12. StandardL1
13. PI-Type
14. FS410 (FUJI)
15. FS510 (FUJI)
16. Clamp-on TM-1
17. Insertion TC-1
18. Clamp-on TS-1
19. Clamp-on TS-2
20. Clamp-on TL-1
21. Insertion TLC-2
22. Clamp-on M2
23. Clamp-on L2
CHOICES:
1. V
2. Z
3. N (small pipe)
4. W (small pipe)
EXAMPLES:
1. 25mm, PI-Type
2. 15mm, PI-Type
3. 12.83mm, PI-Type
4. 3. 219mm, Z, Carbon S
5. 259mm, Z , Carbon S
5. 325mm, V ,PVC
6. 80mm, V , Carbon Stc
7. 25mm, V , Stainless
8. 400mm, V , PVC
CHOICES:
0. Metric
1. English
CHOICES:
1. US Gallon (Gal)
2. UK Gallon (IGL)
3. Million US Gallon
4. Cubic Feet (cf)
5. US Oil Barrel (OB)
6. UK Oil Barrel (IB)
7. Cubic Meter (m3)
8. Liter (l)
CHOICES:
1. US Gallon (Gal)
2. UK Gallon (IGL)
3. Million US Gallon
4. Cubic Feet (cf)
5. US Oil Barrel (OB)
6. UK Oil Barrel (IB)
7. Cubic Meter (m3)
8. Liter (l)
22
CHOICES:
1. On
2. Off
CHOICES:
1. On
2. Off
CHOICES:
1. Yes
2. No
CHOICES:
1. Yes
2. No
LANGUAGE (M39)
Description: Select the language for the displayed text.
Press ENT 6/- or 5/+, to make selection then press ENT.
CHOICES:
1. ENGLISH
2. ZHONG WEN
3. ITALIAN
DAMPING (M40)
Description: The damping factor ranges from 0~999 seconds. 0 indicates no damping; 999
indicate the maximum damping. Damping function is used to display the data smoothly. To large
of a coefficient will cause the measurement to appear delayed on the display. Its principle is the
same as that in a single-section RC filter. The damping factor value corresponds to the circuit
time constant. Usually a damping factor of 3 to 10 is recommended in applications.
Press ENT 6/- or 5/+, to make selection then press ENT.
LOW FLOW CUTOFF (M41)
Description: Low Flow Cutoff is used to make the system display as 0 value at lower and
smaller flows to avoid any inefficiency in totalizing. For instance, if the cutoff value is set as 0.01
ft/s (0.03 m/s), system will take all the measured flow values of 0.01 ft/s (0.03 m/s ) as 0.
Usually 0.03 is recommended in most applications.
Press ENT 6/- or 5/+, to make selection then press ENT.
SET ZERO (M42)
Description: When the fluid is in the static state, the displayed value is called Zero Point. When
Zero Point is not at zero in the flowmeter, the difference is going to be added into the actual
flow values and measurement differences will occur in the flow meter.
Set Zero must be carried out after the transducers are installed and the flow inside the pipe is in
the absolute static state (no liquid movement in the pipe). Thus, the Zero Point resulting from
different pipe mounting locations and parameters can be eliminated. The measuring accuracy at
low flow is enhanced consequently.
Press ENT; wait for the processing instructions at the bottom right corner to reach 0. Set zero
within the existing flow may cause the flow to be displayed as 0. If so, it can be recovered via
M43.
24
EXAMPLE:
Actual Measured Value = 1101 g/m
Value Deviation = 44 g/m
Displayed Value = 1057 g/m
Normally, set this value as 0
CHOICES:
1. Date and Time
2. System Status
3. Current Window
4. Signal Strength
5. Flow Rate
6. Velocity
7. NET Totalizer
8. POS Totalizer
9. NEG Totalizer
10. Energy Flow Rate
11. Energy NET Total
SELECTIONS:
1. START TIME
2. INTERVAL
3. LOG TIMES
CHOICES:
1. Internal SerBus
2. Send To RS-485
CHOICES:
0. 4-20mA
1. 0-20Ma
2. 0-20mA Via RS-232
3. 4-20mA vs. Sound
4. 20-4-20mA
5. 0-4-20mA
6. 20-0-20mA
7. 4-20mA vs. Vel.
8. 4-20mA vs. Energy
EXAMPLES:
MODBUS ASCII+ TDS7
MODBUS RTU Only
CHOICES:
1. NO
2. YES
29
Press ENT, use keypad numbers to enter value of Low alarm then press ENT.
#1 ALARM HIGH VALUE (M74)
Description: Input the high value of alarm. When the value exceeds this value, it will cause the
alarm to be output using hardware OCT or relay as set in M78 and M79.
Press ENT, use keypad numbers to enter value of High alarm then press ENT.
#2 ALARM LOW VALUE (M75)
Description: Input the low value of alarm. When the value falls under this value, it will cause the
alarm to be output using hardware OCT or relay as set in M78 and M79.
Press ENT, use keypad numbers to enter value of Low alarm then press ENT.
#2 ALARM HIGH VALUE (M76)
Description: Input the high value of alarm. When the value exceeds this value, it will cause the
alarm to be output using hardware OCT or relay as set in M78 and M79.
Press ENT, use keypad numbers to enter value of High alarm then press ENT.
BEEPER SETUP (M77)
Description: The following sources can be selected to set off the buzzer.
Press ENT 6/- or 5/+, to make selection then press ENT.
CHOICES:
1. No Signal
2. Poor Signal
3. Not Ready(No*R)
4. Reverse Flow
5. AO over 100%
6. FO over 120%
7. Alarm #1
8. Reverse Alarm #2
9. Batch Controller
10. POS Int Pulse
11. NEG Int Pulse
12. NET Int Pulse
13. Energy POS Pulse
CHOICES:
1. No Signal
2. Poor Signal
3. Not Ready(No*R)
4. Reverse Flow
5. AO over 100%
6. FO over 120%
7. Alarm #1
8. Reverse Alarm #2
9. Batch Controller
10. POS Int Pulse
11. NEG Int Pulse
12. NET Int Pulse
13. Energy POS Pulse
CHOICES:
1. No Signal
2. Poor Signal
3. Not Ready(No*R)
4. Reverse Flow
5. AO over 100%
6. FO over 120%
7. Alarm #1
8. Reverse Alarm #2
9. Batch Controller
10. POS Int Pulse
11. NEG Int Pulse
12. NET Int Pulse
13. Energy POS Pulse
(4) Energy Meter Setup Menu
CHOICES:
1. Key Pressing
31
2. Serial Port
3. AI3 Rising Edge
4. AI3 Falling Edge
5. AI4 Rising Edge
6. AI4 Falling Edge
7. AI5 Rising Edge
8. AI5 Falling Edge
9. Timer-Periodical
10. Timer-daily
CHOICES:
1. Browse by Day
2. Browse by Month
3. Browse by Year
CHOICES:
1. Giga Joule (GJ)
2. Kilocalorie (Kc)
3. KWh
4. BTU
CHOICES:
1. From T1, T2
2. From AI3, AI4
CHOICES:
1. GB
2. Fixed Specific Heat
CHOICES:
1. X0.0001 (E-4)
2. X0.001 (E-3)
6. X10 (E1)
7. X100 (E2)
33
3. X0.01 (E-2)
4. X0.1 (E-1)
5. X1 (E0)
8. X1,000 (E3)
9. X10,000 (E4)
10. X100,000 (E5)
11. X1,000,000 (E6)
36
CAUSE
SOLUTION
Restart
Handshaking Error
Restart
PRN
37
CAUSE
SOLUTION
*R
System Normal
*J
Hardware failure
*I
* No signal received
* A poor contact between sensor and
the pipe, or too little couplant applied.
* The sensor has not been installed
properly.
* Too much scale formation in the inside * Check the original settings.
wall.
* New Liner
38
*H
* Poor Signal Quality * The above mentioned causes are applicable here.
*E
*F
* Self-checking error
*G
* These all 4 steps mean that the machine is going through the gain adjustment process, preparing for the normal
measurement. If the
machine stops on S1 or S2, or shifts
between S1 and S2, it means that the
received signal is too low or the waveform is not so good. The reasons may
include all the above mentioned causes.
*K
39
Appendix
Appendix 1. Sound Velocity and Viscosity of Liquids
LIQUID
SOUND
VELOCITY (m/s)
VISCOSITY
(mm2/s)
LIQUID
SOUND
VELOCITY (m/s)
VISCOSITY
(mm2/s)
Water 20C
1482
1.0
Glycerin
1923
1180
Water 50C
1543
0.55
Gas
1250
0.80
Water 75C
1554
0.39
66# Gas
1171
Water 100C
1543
0.29
80# Gas
1139
Water 125C
1511
0.25
0# Gas
1385
Water 150C
1466
0.21
Benzene
1330
Water 175C
1401
0.18
Ethyl Benzene
1340
Water 200C
1333
0.15
Toluene
1170
Water 225C
1249
0.14
Tetra Chloromethane
938
Acetone
1190
Petroleum
1290
Carbinol
1121
Pine Oil
1280
Ethanol
1168
Cloroethylene
1050
Alcohol
1440
Ketone
1310
Acetaldehyde
1180
Glycol
1620
Arachis oil
1472
Castor Oil
1502
1.5
Steel
3206
ABS
2286
Aluminum
3048
Brass
2270
Cast Iron
2460
Bronze
2270
Fiber, Glass-Epoxy
3430
Glass
3276
Polyethylene
1950
PVC
2540
PTFE
1450
Rubber
1600
Steel
3206
ABS
2286
Aluminum
3048
Liner Material
40
LINER MATERIAL
PTFE
1225
Titanium
3150
Cement
4190
0.69
0.82
Bitumen
2540
Porcelain Enamel
2540
Glass
5970
Plastic
2280
Polyethylene
1600
1402.3
25
1496.6
50
1542.5
75
1555.1
1407.3
26
1499.2
51
1543.5
76
1555.0
1412.2
27
1501.8
52
1544.6
77
1544.9
1416.9
28
1504.3
53
1545.5
78
1554.8
1421.6
29
1506.7
54
1546.4
79
1554.6
1426.1
30
1509.0
55
1547.3
80
1554.4
1430.5
31
1511.3
56
1548.1
81
1554.2
1434.8
32
1513.5
57
1548.9
82
1553.9
1439.1
33
1515.7
58
1549.6
83
1553.6
1443.2
34
1517.7
59
1550.3
84
1553.2
10
1447.2
35
1519.7
60
1550.9
85
1552.8
11
1451.1
36
1521.7
61
1551.5
86
1552.4
12
1454.9
37
1523.5
62
1552.0
87
1552.0
13
1458.7
38
1525.3
63
1552.5
88
1551.5
14
1462.3
39
1527.1
64
1553.0
89
1551.0
15
1465.8
40
1528.8
65
1553.4
90
1550.4
16
1469.3
41
1530.4
66
1553.7
91
1549.8
17
1472.7
42
1532.0
67
1554.0
92
1549.2
18
1476.0
43
1533.5
68
1554.3
93
1548.5
19
1479.1
44
1534.9
69
1554.5
94
1547.5
20
1482.3
45
1536.3
70
1554.7
95
1547.1
21
1485.3
46
1537.7
71
1554.9
96
1546.3
22
1488.2
47
1538.9
72
1555.0
97
1545.6
23
1491.1
48
1540.2
73
1555.0
98
1544.7
24
1493.9
49
1541.3
74
1555.1
99
1543.9
Please refer to the sound velocity of other fluids and materials, please contact the factory.
Calculation of Sound Velocity (C0) in Fresh Water:
Co=1557 - 0.0245(74-t)2(m/s) where, t is water temperature (oC)
Calculation of Sound Velocity (C1) in Sea Water:
C1=C0+1.39S where, C0 is the sound velocity in fresh water, S is the salinity of the sea water
(%)
41
OD Inch
1/8
0.0405
1/4
3/8
1/2
3/4
0.540
0.675
0.840
1.050
Schedule
Designations
Wall
inch
10
10S
0.049
STD
40
40S
0.068
XS
80
80S
0.095
10S
0.065
10
STD
40
40S
0.088
XS
80
80S
0.119
10S
0.065
10
STD
40
40S
0.091
XS
80
80S
0.126
5S
0.065
10
10S
0.083
STD
40
40S
0.109
XS
80
80S
0.147
160
0.188
XX
0.294
5
10
1.315
1-1/2
42
1.660
1.900
5S
0.065
10S
0.083
STD
40
40S
0.113
XS
80
80S
0.154
160
0.219
XX
0.308
5
10
1-1/4
ID
inch
5S
0.065
10S
0.109
STD
40
40S
0.133
XS
80
80S
0.179
160
0.250
XX
0.358
5S
0.065
10
10S
0.109
STD
40
40S
0.140
XS
80
80S
0.191
160
0.250
XX
0.382
5S
0.065
10
10S
0.109
STD
40
40S
0.145
XS
80
80S
0.200
160
0.281
XX
0.400
Nominal Pipe
size (inch)
OD Inch
2.375
2-1/2
2.875
Schedule
Designations
Wall
inch
ID
inch
5S
0.065
10
10S
0.109
STD
40
40S
0.154
XS
80
80S
0.218
160
0.344
XX
0.436
5S
0.083
10
10S
0.120
STD
40
40S
0.203
XS
80
80S
0.276
160
0.375
XX
3
3.500
0.552
5S
0.083
10
10S
0.120
STD
40
40S
0.216
XS
80
80S
0.300
160
0.438
XX
3-1/2
4.000
0.600
5S
0.083
10
10S
0.120
STD
40S
0.226
80S
0.318
XS
40
160
80
0.636
XX
4
4.500
5S
0.083
10
10S
0.120
0.156
0.188
4-1/2
5.000
STD
40
40S
0.237
XS
80
80S
0.337
120
0.438
160
0.531
XX
0.674
STD
40
40S
0.247
XS
80
80S
0.355
XX
5
5.563
0.710
5S
0.109
10
10S
0.134
STD
40
40S
0.258
XS
80
80S
0.375
120
0.500
160
0.625
XX
0.750
43
Nominal Pipe
size (inch)
OD Inch
6.625
Schedule
Designations
Wall
inch
ID
inch
5S
0.109
10
10S
0.134
0.188
7.625
STD
40
40S
0.280
XS
80
80S
0.432
120
0.562
160
0.719
XX
0.864
STD
40
40S
0.301
XS
80
80S
0.500
XX
8
0.875
8.625
10
5S
0.109
10S
0.148
20
0.250
30
STD
0.277
40
40S
80
80S
60
XS
0.406
9.625
0.594
120
0.719
140
0.812
160
0.875
0.906
STD
40
40S
0.342
XS
80
80S
0.500
XX
10
0.500
100
XX
9
0.322
0.875
10.750
5S
0.134
10S
0.165
0.188
20
0.250
30
11
11.750
40
40S
0.365
XS
80
80S
0.500
80
0.594
100
0.719
120
0.844
140
1.000
160
1.125
STD
40
40S
0.375
XS
80
80S
0.500
XX
44
0.307
STD
0.875
Nominal Pipe
size (inch)
OD Inch
12
12.750
Schedule
Designations
Wall
inch
ID
inch
5S
10S
20
30
STD
40S
40
XS
80S
60
100
120
140
160
14
14.000
10S
10
20
STD
40S
40
XS
80S
60
80
100
120
140
160
16
16.000
10S
10
20
STD
40S
XS
80S
60
80
100
120
140
160
45
Nominal Pipe
size (inch)
OD Inch
18
18.000
Schedule
Designations
Wall
inch
ID
inch
10S
10
20
40S
STD
80S
XS
60
80
100
120
140
160
20
10S
20.000
10
STD
40S
XS
80S
40
60
80
100
120
140
160
22
22.000
10S
10
24
24.000
20
40S
0.375
XS
30
80S
0.500
60
0.875
80
1.125
100
1.375
120
1.625
140
1.875
160
2.125
10
20
XS
46
0.250
STD
STD
26
0.218
10S
0.250
40S
0.375
80S
0.500
30
0.562
40
0.688
60
0.969
80
1.219
100
1.531
120
1.812
140
2.062
160
2.344
26.000
10
0.312
STD
40S
0.375
XS
80S
0.500
Nominal Pipe
size (inch)
OD Inch
28
28.000
Schedule
Designations
Wall
inch
10
STD
XS
30
30.000
20
0.375
80S
0.500
0.625
10
0.312
20
32.000
0.312
40S
30
STD
32
ID
inch
40S
0.375
80S
0.500
30
0.625
10
0.312
STD
34
34.000
0.375
20
0.500
30
0.625
40
0.688
10
0.312
STD
36
42
36.000
42.000
0.375
20
0.500
30
0.625
40
0.688
10
0.312
STD
40S
0.375
XS
80S
0.500
STD
40S
0.500
80S
0.625
XS
48
48.000
30
0.750
40
0.500
STD
40S
0.375
XS
80S
0.500
47
48
Class
50
Class
51
Class
52
Class
53
Class
54
Class
55
Class
56
3.96
---
3.46
3.40
3.34
3.28
3.22
3.16
4.80
---
4.28
4.22
4.16
4.10
4.04
3.98
6.90
6.40
6.34
6.28
6.22
6.16
6.10
6.04
9.05
8.51
8.45
8.39
8.33
8.27
8.21
8.15
10
11.10
10.52
10.46
10.40
10.34
10.28
10.22
10.16
12
13.20
12.58
12.52
12.46
12.40
12.34
12.28
12.22
14
15.30
14.64
14.58
14.52
14.46
14.40
14.34
14.26
16
17.40
16.72
16.66
16.60
16.54
16.48
16.42
16.36
18
19.50
18.60
18.74
18.68
18.62
18.56
18.50
18.44
20
21.60
20.88
20.82
20.76
20.70
20.64
20.58
20.52
24
25.80
25.04
24.98
24.92
24.86
24.80
24.74
24.68
30
32.00
31.22
31.14
31.06
30.98
30.90
30.82
30.74
36
38.30
37.44
37.34
37.06
37.14
37.04
36.94
36.84
42
44.50
43.56
43.44
43.32
43.20
43.08
42.96
42.84
48
50.80
49.78
49.64
49.50
49.36
49.22
49.08
48.94
54
57.10
55.96
55.80
55.64
55.48
55.32
55.16
55.00
Cement Lining
**Std.
Thickness
**Dbl.
Thickness
.125
.250
.1875
.375
.250
.500
CLASS A
CLASS B
CLASS C
CLASS D
CLASS E
CLASS F
CLASS G
CLASS H
Pipe
Size (in.)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
O.D.
(in.)
I.D.
(in)
3.80
3.02
3.96
3.12
3.96
3.06
3.96
3.00
---
---
---
---
---
---
---
---
4.80
3.96
5.00
4.10
5.00
4.04
5.00
3.96
---
---
---
---
---
---
---
---
6.90
6.02
7.10
6.14
7.10
6.08
7.10
6.00
7.22
6.06
7.22
6.00
7.38
6.08
7.38
6.00
9.05
8.13
9.05
8.03
9.30
8.18
9.30
8.10
9.42
8.10
9.42
8.10
9.60
8.10
9.60
8.00
10
11.10
10.10
11.10
9.96
11.40
10.16
11.40
10.04
11.60
10.12
11.60
10.00
11.84
10.12
11.84
10.00
12
13.20
12.12
13.20
11.96
13.50
12.14
13.50
12.00
13.78
12.14
13.78
12.00
14.08
12.14
14.06
12.00
14
15.30
14.16
15.30
13.98
15.65
14.17
15.65
14.01
15.98
14.18
15.98
14.00
16.32
14.18
16.32
14.00
16
17.40
16.20
17.40
16.00
17.80
16.20
17.80
16.02
18.16
16.20
18.16
16.00
18.54
16.18
18.54
16.00
18
19.50
18.22
19.50
18.00
19.92
18.18
19.92
18.00
20.34
18.20
20.34
18.00
20.78
18.22
20.78
18.00
20
21.60
20.26
21.60
20.00
22.06
20.22
22.06
20.00
22.54
20.24
22.54
20.00
23.02
20.24
23.02
20.00
24
25.80
24.28
25.80
24.02
26.32
24.22
26.32
24.00
26.90
24.28
26.90
24.00
27.76
24.26
27.76
24.00
30
31.74
29.98
32.00
29.94
32.40
30.00
32.74
30.00
33.10
30.00
33.46
30.00
---
---
---
---
36
37.96
35.98
38.30
36.00
38.70
35.98
39.16
36.00
39.60
36.00
40.04
36.00
---
---
---
---
42
44.20
42.00
44.50
41.94
45.10
42.02
45.58
42.02
---
---
---
---
---
---
---
---
48
50.50
47.98
50.80
47.96
51.40
47.96
51.98
48.00
---
---
---
---
---
---
---
---
54
56.66
53.96
57.10
54.00
57.80
54.00
58.40
53.94
---
---
---
---
---
---
---
---
60
62.80
60.02
63.40
60.06
64.20
60.20
64.82
60.06
---
---
---
---
---
---
---
---
72
75.34
72.10
76.00
72.10
76.88
72.10
---
---
---
---
---
---
---
---
---
---
84
87.54
84.10
88.54
84.10
---
---
---
---
---
---
---
---
---
---
---
---
49