WO2022034968A1

WO2022034968A1 - Integrated information provision system using multi-item water quality measurement for building smart water city

Info

Publication number: WO2022034968A1
Application number: PCT/KR2020/014502
Authority: WO
Inventors: 정연욱
Original assignee: 주식회사 워터아이즈
Priority date: 2020-08-11
Filing date: 2020-10-22
Publication date: 2022-02-17
Also published as: KR102460023B1; KR20220020065A

Abstract

The present invention relates to an integrated information provision system using multi-item water quality measurement for building a smart water city, and, more specifically, to an integrated information provision system using multi-item water quality measurement for building a smart water city, which is installed in a water pipe, a faucet, or a sewage inlet of a sewage treatment plant such that water quality can be measured, and the measured data is analyzed and provided to consumers. The integrated information provision system using multi-item water quality measurement for building a smart water city according to the present invention, comprises: a water supply pipe network measuring device that can be installed in a water pipe to monitor and diagnose a pipe network, or installed in a faucet, a drinking fountain, or a sewage inlet of a sewage treatment plant to measure water quality; and a monitoring station that receives and analyzes data measured by the pipe network measuring device in real time.

Description

Integrated information provision system using multi-item water quality measurement for smart water city construction

The present invention relates to an integrated information providing system using multi-item water quality measurement for building a smart water city. It relates to an integrated information provision system using multi-item water quality measurement for the construction of a smart water city that is analyzed and provided to the final consumer.

In addition, the sensor electrode can be replaced according to the situation when measuring water quality.

The capital is not only absolutely essential for urban life and industrial production, but also has a great influence on health. In other words, when the water supply is supplied, infectious diseases of the digestive system such as typhoid, cholera, and dysentery, as well as endemic diseases, eye diseases, and infant mortality are greatly reduced. On the other hand, if management is insufficient, preventable infectious diseases can be transmitted explosively through the capital.

Therefore, in order for the water supply to fulfill its purpose, it must satisfy the three factors of water quantity, water quality, and water pressure. The quantity varies greatly depending on national characteristics, habits, and living standards. From now on, there is a tendency for the size of the water supply to increase along with the increase in the amount of water per person per day. Water quality must first be hygienically safe, clean to look, and taste good to eat. The specific standard should just conform to the water quality standards according to the Waterworks Act. As for the water pressure, it is ideal if the water pressure in the pipe is at least 1.5 kg/cm2, so that the water pressure in the pipe is maintained evenly so that water can flow out from the end of the pipe.

Due to the recent outbreak of larvae in the tap water, there is a widespread public opinion that we should know about the tap water we eat and drink all the time. In order to solve the distrust of drinking water, it is necessary to install a water quality sensor to measure whether the tap water flowing through the water supply pipe is safe and to check whether it meets the drinking water standards.

As an example of the prior art for measuring the water quality of tap water, there is Korean Patent Publication No. 10-2001948, according to which, a power line for receiving power from a detection pipe branched from a water supply pipe buried underground and an external power supply source a protection module for accommodating; a water pressure sensor for measuring the water pressure of the water received from the detection tube; a water quality sensor for measuring the chlorine concentration of the water received from the detection tube; a control module receiving power from the power line, receiving water pressure information and water quality information from the water pressure sensor and the water quality sensor, and outputting it to the outside; and a display module for displaying information output from the control module; a water supply simple water pressure and water quality monitoring device including a bar has been proposed.

In addition, as another example of the prior art for measuring the quality of tap water as described above, there is Korean Patent Registration No. 10-1748364. According to this, light is provided to sample water and light emitted in response to the sample water is received. portable water quality testing device; and a light emitting unit that produces light necessary to detect the degree of contamination of the sample water, a light receiving unit that converts the light emitted in response to the sample water into an electric signal, and analyzes the electrical signal received from the light receiving unit to pollute the water contained in the sample water a water quality analysis device having an analysis unit for measuring A water quality monitoring system having a portable water quality inspection device including a light-receiving optical fiber has been proposed.

In addition, as another example of the prior art for measuring the water quality of tap water as described above, there is Korean Patent No. 10-1446240, according to which, a body having a storage space formed therein, and the body are combined, A housing made of a cover for opening and closing the receiving unit, a multi-probe provided on the main body and including a sensor unit for measuring water quality, and a storage unit provided in the receiving unit, for storing water quality data, and a display for outputting the measured data A docking station comprising a control unit for controlling water and water quality data, and a communication member provided in the main body and connected to the multi-probe or the docking station or both of them by wire or wireless, respectively, wherein the multi-probe includes a plurality of A multi-item water quality measuring device comprising a water quality sensor and further comprising a plurality of measuring kits in the main body, a receiving device for receiving the data measured by the multi-item water quality measuring device, and the receiving market A water quality network system comprising a storage device for storing data and an output device for analyzing and outputting data stored in the storage device has been proposed.

However, in the prior art, although various technical contents have been presented for measuring the quality of tap water, there were the following problems.

In order to end distrust in tap water, water quality measurement should be easily installed and measured even in the tap water of ordinary households.

Also, water quality measurement items were limited to relatively simple water pressure and residual chlorine concentration. However, in order to check the overall water quality, it is necessary to measure turbidity, residual chlorine concentration, pH, temperature, electrical conductivity, and the like.

Although the prior art has a function of measuring water quality and displaying it on the display unit or transmitting data through a wired or wireless network, a system that can analyze the collected data and provide necessary information to the final customer in real time was not available

The integrated information providing system using multi-item water quality measurement for building a smart water city of the present invention aims to solve the above-mentioned problems as follows.

It is to provide an integrated information provision system using multi-item water quality measurement that can be installed in a water pipe and used for pipe network monitoring and diagnosis, and can be installed alone at a faucet or drinking fountain to measure water quality.

It is to provide an integrated information provision system using multi-item water quality measurement that can measure tap water turbidity, residual chlorine concentration, pH, temperature, and electrical conductivity with one device.

Using big data obtained through numerous experiments with the measured water quality of tap water, heavy metals are measured in tap water, and BOD (biochemical oxygen demand), COD (chemical oxygen demand, chemical oxygen demand) in influent sewage. ), total nitrogen (N), and total phosphorus (P) values can be obtained, and real-time water quality information, leakage measurement and prediction, and pipe network management are available. will be.

In order to achieve the above object, the integrated information providing system using multi-item water quality measurement for building a smart water city according to the present invention is installed in any one place selected from a water pipe, a faucet, a drinking fountain, and sewage inflow from a sewage treatment plant. A water supply pipe network measuring device capable of measuring the water quality by doing this, and a monitoring station for receiving and analyzing data measured by the water supply pipe network measuring device in real time are provided.

Here, the water supply pipe network measuring device includes: a flange-shaped connection part that enables construction without a water cut in the water pipe; a multi-sensor unit for measuring the quality of tap water introduced from the connection unit; a display unit for displaying the measured water quality measured by the multi-sensor unit; a communication unit for transmitting the measured water quality measured by the multi-sensor unit to the monitoring station through an IoT-based communication network; a control unit for controlling the water quality measurement value measured by the multi-sensor unit; It includes; a power supply unit for supplying electricity to the water supply pipe network measuring device, and the multi-sensor unit includes a multi-item sensor combining one or two or more selected from an electrochemical sensor, an optical sensor, a chamber type sensor, and an electrode type sensor, , The multi-sensor unit includes a turbidity measuring sensor for measuring the turbidity of tap water introduced from the connection unit; a chlorine concentration measuring sensor for measuring the concentration of residual chlorine in tap water introduced from the connection part; a pH measuring sensor for measuring a hydrogen ion concentration (pH) of tap water introduced from the connection part; a temperature sensor for measuring the temperature of the tap water introduced from the connection part; It characterized in that it further comprises; an electrical conductivity measuring sensor for measuring the electrical conductivity of the tap water introduced from the connection part.

In addition, the monitoring station is in the form of a computer server, and receives and analyzes real-time data collected from the multi-sensor unit through the communication unit to an Internet of Things (IoT)-based communication network to monitor integrated information. The water supply pipe network monitoring and analysis solution software installed in the monitoring station, provided with software, provides a big data modeling and simulation-based predictive diagnosis by databaseizing and analyzing the water quality measurement data received through the communication unit, and the final customer It is characterized by providing real-time water quality information, leak measurement and prediction, pipe network management forecast and alarm, damage area calculation and replacement pipe analysis information at the request of

Here, the real-time water quality information is to receive the water quality information of tap water measured by the pipe network measuring device from the monitoring station to provide water quality information to water service providers and final consumers in real time, and the leak measurement and prediction is the pipe network measuring device The water quality information of tap water measured in Forecasts and alarms receive the water quality information of tap water measured by the pipe network measuring device from the monitoring station, analyze the data through the water supply pipe network monitoring and analysis solution software, and detect abnormal symptoms in the water pipe network to the water service provider and final consumer For forecasting and alarming, the damage area calculation and replacement pipe analysis are the water quality information measured by the pipe network measuring device transmitted from the monitoring station, and the data are analyzed through the water supply pipe network monitoring and analysis solution software to analyze the water pipe It is characterized in that it detects the damaged area and informs the water service provider and the final customer of an alternative pipe that can replace the damaged pipe.

In addition, the monitoring station provides water quality analysis information to the final consumer's computer or smart phone, and a dedicated software program is installed in the final consumer's computer or smartphone to read the water quality analysis information.

The integrated information providing system using multi-item water quality measurement for smart water city construction of the present invention is equipped with a flange-type water quality sensor and attached to a water supply pipe network connection part or faucet connection part to measure water quality. It is possible to solve the construction constraints such as licenses for site sites, power and communication lines, which are required in the fixed multi-item water quality measuring device.

In addition, the water supply pipe network measuring device of the present invention is easy to install and manage, so that it is possible to effectively measure water quality for a wide range of pipe networks.

Because it is possible to transmit data through the monitoring station of the present invention or provide information necessary for the final customer in real time, it can be widely used for water service providers, development customers, etc., real-time water quality information, leakage measurement and prediction, pipe network management, forecasting and It has the effect of advancing the management of the water supply pipe network, such as warning, calculating the damaged area, and analyzing the replacement pipe, and increasing the efficiency.

In addition, the water quality measuring sensor of the present invention can be developed to customizable the sensor electrode, it is possible to change the sensor item to be measured according to the situation.

Therefore, it can be used in the water supply pipe when the residual chlorine sensor electrode, which is a required item in the water supply, is installed, and when the PH, turbidity, electrical conductivity sensor, which is the item required for inflow sewage, is installed, it can be used in the sewage pipe. The advantage is that it can be changed according to the situation and requirements.

1 is a schematic diagram of a water supply pipe network measurement multi-sensor according to an embodiment of the present invention.

2 is a schematic diagram of a monitoring and diagnosis solution service according to an embodiment of the present invention.

3 is a photograph of (a) the internal configuration of the prototype, (b) the installation of the prototype, (c) the performance verification of the prototype, and (d) the test-bed comparison group according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily carry out. However, the present application may be embodied in several different forms and is not limited to the embodiments described herein.

The integrated information providing system using multi-item water quality measurement for building a smart water city of the present invention is installed in any one place selected from water pipes, faucets, drinking fountains, and sewage inflows from sewage treatment plants to measure water quality. Device; It includes a;

For example, the water supply pipe network measuring device may be provided on the side of the water pipe, the upper part of the faucet, the side of the drinking fountain, and the side of the sewage pipe inflow to the sewage treatment plant.

1, (a) shows a water supply pipe network measuring device, (b) and (c) shows that the water supply pipe network measuring device is installed in the pipe network and the water supply or drinking fountain. A water supply network measuring device can be attached to the water supply pipe network connection part or the faucet connection part.

The water supply pipe network measuring device includes a connection part in the form of a flange to enable construction without a water cut in the water pipe; a multi-sensor unit for measuring the quality of tap water introduced from the connection unit; a display unit for displaying the measured water quality measured by the multi-sensor unit; a communication unit for transmitting the measured water quality measured by the multi-sensor unit to the monitoring station through an IoT-based communication network; a control unit for controlling the water quality measurement value measured by the multi-sensor unit; Including a power supply unit for supplying electricity to the water supply pipe network measuring device, the multi-sensor unit includes an electrochemical sensor, an optical sensor, and a multi-item sensor combining any one or two or more selected from a chamber type sensor and an electrode type sensor, the The multi-sensor unit includes: a turbidity measuring sensor for measuring the turbidity of tap water introduced from the connection unit; a chlorine concentration measuring sensor for measuring the concentration of residual chlorine in tap water introduced from the connection part; a pH measuring sensor for measuring a hydrogen ion concentration (pH) of tap water introduced from the connection part; a temperature sensor for measuring the temperature of the tap water introduced from the connection part; and an electrical conductivity measuring sensor for measuring the electrical conductivity of tap water introduced from the connection part.

The turbidity measuring sensor, the chlorine concentration measuring sensor, the pH measuring sensor, the temperature measuring sensor, and the electrical conductivity measuring sensor of the multi-sensor part are outside the water supply pipe network measuring device through a flexible hose drawn from the water supply pipe network measuring device. In addition, the turbidity measuring sensor, the chlorine concentration measuring sensor, the pH measuring sensor, the temperature measuring sensor, and the electrical conductivity measuring sensor are respectively a turbidity measuring sensor wire, a chlorine concentration measuring sensor wire, a pH measuring sensor wire, and temperature measurement. It can be installed at the end of the sensor wire, the electrical conductivity measuring sensor wire, and the sensor can be changed and installed according to the measurement item.

The connection part of the water supply pipe network measuring device of the present invention installs a number of measuring sensors and processing devices at the main water quality measuring points, which is a problem of the conventional fixed measuring multi-sensor, so as to reduce construction restrictions such as permitting for site sites, securing power and communication lines, etc. It may be a pipe installation type or a water/water fountain installation type that is easy to install. For ease of installation, it is preferable to use a flange form so that construction can be performed without a single stage. Figure 1 (a) shows the connection part of the water supply pipe network measuring device in the form of a flange.

The monitoring station is in the form of a computer server, and receives and analyzes real-time data collected from the multi-sensor unit through the communication unit to an Internet of Things (IoT)-based communication network to monitor integrated information. The water supply pipe network monitoring and analysis solution software installed in the monitoring station provides a big data modeling and simulation-based predictive diagnosis by databaseizing and analyzing the water quality measurement data received through the communication unit, and the final customer's request It provides real-time water quality information, leak measurement and prediction, pipe network management forecast and alarm, damage area calculation and replacement pipe analysis information.

The real-time water quality information is to receive the water quality information of tap water measured by the pipe network measuring device from the monitoring station and provide water quality information to water service providers and final consumers in real time, and the leak measurement and prediction is measured by the pipe network measuring device It receives the water quality information of tap water from the monitoring station and analyzes the data through the water supply pipe network monitoring and analysis solution software to inform the water service provider and the end customer of the point where there is a leak or a leak is predicted, and the pipe network management forecast and The alarm receives the water quality information of the tap water measured by the pipe network measurement device from the monitoring station, analyzes the data through the water supply pipe network monitoring and analysis solution software, and detects abnormal symptoms in the water pipe network. In the case of an alarm, the calculation of the damaged area and the analysis of the replacement pipe is the water quality information measured by the pipe network measuring device is transmitted from the monitoring station and the data is analyzed through the water supply pipe network monitoring and analysis solution software, so that the water pipe is damaged. It detects areas and informs water service providers and end users of alternative pipelines that can replace damaged pipelines.

Here, the monitoring station provides water quality analysis information to the final consumer's computer or smart phone, and a dedicated software program is installed in the final consumer's computer or smartphone to view the water quality analysis information.

The monitoring station can distribute and measure the water supply pipe network with the water supply pipe network measuring device to transmit and manage data for each city unit area, add a complex sensor configuration for major measurement points, and configure the IoT communication network and low-power interface Through this, it is possible to secure the convenience of management and the ease of construction.

Since the conventional water quality measurement for water supply uses one meter for one item, multiple meters are required to measure the water quality of multiple items, and there is no system capable of real-time water quality measurement of waterworks and sewage systems. The present invention provides a multi-item water quality measuring device that can measure multi-item water quality with one measuring device and can measure in tap water or sewage by attaching a pipe network measuring device to a water supply pipe network, a faucet, or a connection part of a drinking fountain or in the vicinity of inflow sewage in a sewage treatment plant. can provide

The present invention includes a water supply pipe network measuring device capable of measuring integrated information of water quality and water pressure management factors, and having high mobility and installation ease due to miniaturization and real-time data transmission.

The conventional drainage system or main measurement point control system has a limitation in collecting information on detailed pipe networks, and the efficiency of management is low because it periodically relies on direct measurement methods for selected areas. Provides real-time monitoring of data based on network information, and measures turbidity, residual chlorine concentration, hydrogen ion concentration, temperature, and electrical conductivity of tap water measured by the multi-sensor unit at a certain time unit, and also measures by household unit Thus, by machine learning the measured data for each time unit and household, the time or region where the turbidity, residual chlorine concentration, hydrogen ion concentration, temperature, and electrical conductivity of the tap water do not meet the standard values is predicted through simulation and big data modeling and simulation. based predictive diagnosis can be provided.

In other words, the multi-item elements of tap water measured by the multi-sensor unit, for example, the turbidity of tap water, residual chlorine concentration, hydrogen ion concentration, temperature, and electrical conductivity are measured in pipeline real system data at a certain time unit, and also Measured in units of stars, machine-learning the measured data by time units and households converts the data into virtual system data for the turbidity, residual chlorine concentration, hydrogen ion concentration, temperature, and electrical conductivity of the tap water to monitor pipelines and the environment can achieve smart water city construction.

In addition, the pipe network measurement big data and mathematical simulation comparison error are optimized through artificial intelligence machine learning, and the reliability is increased by linking the pipe network mathematical analysis hypothesis model and the learning engine, real-time water quality information, leak measurement and prediction, pipe network management forecast and alarm, It is possible to advance the management of the water supply pipe network, such as calculating the damaged area and analyzing the replacement pipe, and increase the efficiency.

FIG. 2 shows an overview of monitoring and diagnosis solution services by a predictive diagnosis solution based on monitoring of integrated water pipe network information and big data modeling and simulation according to an embodiment of the present invention.

3 shows (a) the internal configuration of a prototype, (b) installation of a prototype, (c) performance verification of a prototype, and (d) a test-bed comparison group according to an embodiment according to the present invention. According to an embodiment of the present invention, measurement tests were performed on water quality factors such as power supply, water pressure and temperature.

Table 1 is a summary of the evaluation results of the main performance indicators of the prototype according to the embodiment according to the present invention. (a) is the temperature measurement, (b) is the residual chlorine concentration measurement, (c) is the measurement result of the flow rate. It can be confirmed that the embodiment according to the present invention exhibits a performance equivalent to or higher than that of a commercial product (product of HACH, USA) of the highest performance level.

Table 2 shows the result of measuring the flow rate performance of a prototype according to an embodiment of the present invention, and in the case of flow rate, it is auxiliary data for measurement data correction, showing very high accuracy with an error range of 0.1L/min.

The present invention is not limited to the above embodiments, but can be manufactured in a variety of different forms, and those of ordinary skill in the art to which the present invention pertains can take other specific forms without changing the technical spirit or essential features of the present invention. It will be understood that it can be implemented as Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

Claims

A water supply pipe network measuring device that can measure water quality by installing it in any one place selected from a water pipe, a faucet, a drinking fountain, and inflow sewage from a sewage treatment plant;

a monitoring station that receives and analyzes the data measured by the water supply pipe network measuring device in real time;

Integrated information provision system using multi-item water quality measurement for smart water city construction including
The method according to claim 1,

The water supply pipe network measuring device,

A connection part that can be installed without a water outage in the water pipe;

a multi-sensor unit for measuring the quality of tap water introduced from the connection unit;

a display unit for displaying the measured water quality measured by the multi-sensor unit;

a communication unit for transmitting the measured water quality measured by the multi-sensor unit to the monitoring station through an IoT-based communication network;

a control unit for controlling the water quality measurement value measured by the multi-sensor unit;

Including; a power supply unit for supplying electricity to the water supply pipe network measuring device;

The multi-sensor unit uses multi-item water quality measurement for smart water city construction, characterized in that it includes a multi-item sensor combining one or two or more selected from an electrochemical sensor, an optical sensor, a chamber-type sensor, and an electrode-type sensor Integrated information provision system.
3. The method according to claim 2,

The multi-sensor unit, a turbidity measuring sensor for measuring the turbidity of the tap water introduced from the connection unit; a chlorine concentration measuring sensor for measuring the concentration of residual chlorine in tap water introduced from the connection part; a pH measuring sensor for measuring a hydrogen ion concentration (pH) of tap water introduced from the connection part; a temperature sensor for measuring the temperature of the tap water introduced from the connection part; Further comprising; an electrical conductivity measuring sensor for measuring the electrical conductivity of the tap water introduced from the connection part;

In addition, the monitoring station operates as a computer server, and receives and analyzes real-time data collected from the multi-sensor unit through the communication unit to an Internet of Things (IoT)-based communication network to monitor integrated information. to provide

The water supply pipe network monitoring and analysis solution software installed in the monitoring station provides big data modeling and simulation-based predictive diagnosis by databaseizing and analyzing the water quality measurement data transmitted through the communication unit, and in real time according to the request of the final customer. Integrated information providing system using multi-item water quality measurement for smart water city construction, characterized in that it provides water quality information, leakage measurement and prediction, pipe network management forecast and warning, damage area calculation and replacement pipeline analysis information.
4. The method according to claim 3,

The real-time water quality information is to receive the water quality information of tap water measured by the water supply pipe network measuring device from the monitoring station to provide water quality information to water service providers and final consumers in real time,

The leak measurement and prediction is a point where there is a leak or a leak is predicted by receiving the water quality information of the tap water measured by the tap water pipe network measurement device from the monitoring station and analyzing the data through the tap water pipe network monitoring and analysis solution software. and to inform the final customer,

The pipe network management forecast and alarm receives the water quality information of the tap water measured by the tap water pipe network measuring device from the monitoring station, analyzes the data through the tap water pipe network monitoring and analysis solution software, and detects abnormal symptoms in the water service network. and to give forecasts and warnings to the final customers,

The damaged area calculation and replacement pipe analysis is performed by receiving the water quality information of tap water measured by the water supply pipe network measuring device from the monitoring station and analyzing the data through the water service pipe network monitoring and analysis solution software to detect the damaged area of the water pipe and An integrated information provision system using multi-item water quality measurement for smart water city construction, characterized in that it informs the water service provider and the final customer of an alternative pipe that can replace the damaged pipe.
4. The method according to claim 3,

The monitoring station provides water quality analysis information to the final customer's computer or smartphone, and a dedicated software program is installed in the final customer's computer or smartphone to view the water quality analysis information. An integrated information provision system using multi-item water quality measurement.