CN110956395A - Water supply operation management method and system based on anti-salt emergency treatment - Google Patents

Abstract

The embodiment of the invention provides a water supply operation management method based on anti-salt emergency treatment, which comprises the following steps: acquiring water body quality data of a water intake of a river water intake pipeline; performing data analysis on the water quality data; when the chloride content in the water mass data is more than 250mg/L, giving an alarm prompt; closing the river water intake pipeline and opening the fresh water intake pipeline. On the other hand, the embodiment of the invention also provides a water supply operation management system based on the anti-salt emergency treatment. According to the embodiment of the invention, the quality of the water body at the water intake of the river water supply pipeline is monitored in real time, the timely response can be realized when salt tides come, the river water intake pipeline is closed immediately, and the fresh water intake pipeline with the reservoir as a water source is opened, so that the domestic water of residents is ensured. The problem of current water supply operation management can not in time discern that salt tide comes, causes whole water supply system's water to be polluted by salt tide, influences resident domestic water is overcome.

Description

Water supply operation management method and system based on anti-salt emergency treatment

[ technical field ] A method for producing a semiconductor device

The application relates to a management system, in particular to a water supply operation management method and system based on anti-salt emergency treatment.

[ background of the invention ]

The water source of the water plant in the coastal region mainly comprises river water and reservoir water. However, because the reservoir is relatively closed, the water source is mainly supplied by rainwater, underground water and ground running water, and the supply amount is very limited, the river water intake is usually used as the main water source of the water plant.

Rivers in coastal areas are communicated with the sea, when the flow of the fresh water is insufficient, the seawater flows backwards into the upstream of the rivers under the attraction of the sun and the moon to the surface seawater, and the water body of the upstream river channel is salty due to the mixing of the salt water and the fresh water. The coming of the salt tide can not be identified in time in the existing water supply management system, the river water influenced by the salt tide is extracted from a water intake of a river of a water plant, and the salt tide is found only after the water is sent to thousands of households. At the moment, the water in the whole water supply pipeline is polluted by the salty water, and the inconvenience of domestic water for residents is also caused.

[ summary of the invention ]

In order to solve the problem that the existing water supply operation management cannot identify the coming of the salt tide in time, the embodiment of the invention provides a water supply operation management method and system based on anti-salt emergency treatment.

A water supply operation management method based on anti-salt emergency treatment comprises the following steps:

acquiring water body quality data of a water intake of a river water intake pipeline;

performing data analysis on the water quality data;

when the chloride content in the water mass data is more than 250mg/L, giving an alarm prompt;

closing the river water intake pipeline and opening the fresh water intake pipeline.

According to the water supply operation management method based on anti-salt emergency treatment, the water quality data comprise pressure, flow, water level, chloride content, turbidity and pH value.

On the other hand, the invention also provides a water supply operation management system based on the anti-salt emergency treatment.

A water supply operation management system based on anti-salt emergency treatment, comprising:

the real-time detection module is used for acquiring water quality data of a water intake of a river water intake pipeline;

the data analysis module is used for carrying out data analysis on the water quality data;

the data display module is used for sending out an alarm prompt when the chloride content in the water mass data is more than 250 mg/L;

and the emergency processing module is used for closing the river water intake pipeline and opening the fresh water intake pipeline when the chloride content in the water mass data is more than 250 mg/L.

Above-mentioned water supply operation management system based on anti salt emergency treatment, real-time detection module includes:

and the pipe network measuring point unit is used for monitoring the pressure, flow, water level, chloride content, turbidity and PH value at the water intake of the river water intake pipeline in real time.

Above-mentioned water supply operation management system based on anti salt emergency treatment, data display module includes:

the chloride analysis and display unit is used for displaying real-time monitoring data of the chloride at the water intake of the river water intake pipeline;

the upstream time flow and downstream reference point display unit is used for displaying the upstream time flow of a water intake of the river water intake pipeline and the time flow of a downstream reference point corresponding to the upstream;

the salt tide dynamic map display unit is used for dynamically displaying the salt tide dynamic on the map;

the dynamic display unit of the reservoir and the water plant is used for displaying the emergency operation state of water supply and water supplement between the water plant and the reservoir when the content of chloride in the water quality data is more than 250 mg/L;

the display unit for the current situation and history of the salt tide is used for displaying the real-time state of the salt tide in the region and the situation of two years past.

In the above water supply operation management system based on anti-salt emergency treatment, the chloride analysis and display unit includes:

chloride real-time data point analysis subunit for displaying: the method comprises the steps of (1) a point analysis graph of a region name and real-time chloride data is included, points for representing the chloride content of a water intake pipeline of the river water are arranged at positions corresponding to the region name, and when the chloride content in water quality data is larger than 250mg/L, the corresponding points are displayed in red;

the chloride real-time data progress bar analysis subunit is used for displaying: the method comprises the steps of using a progress bar with an X axis and a Y axis, wherein the X axis direction is used for representing a specific numerical value of a chloride at a water intake, the Y axis is used for representing a unit of the chloride, and the higher the content of the chloride at the water intake is, the higher the brightness of the progress bar is, and the larger the color difference with the background color is;

chloride real-time data curve analysis subunit for demonstrating: comparing the curve chart, the curve at the upper part shows the real-time numerical value of the chloride at the water intake of the river water intake pipeline and the real-time state of the water intake gate, and the curve at the lower part shows the data fluctuation condition of the chloride in near two days.

In the water supply operation management system based on the anti-salt emergency treatment, the salt tide dynamic map display unit is used for displaying:

distribution conditions of rivers, water plants and reservoirs;

the water supply relationship between the water plant and the reservoir when the salt tide occurs;

the monitoring data condition of the real-time monitoring frame arranged on the water plant is characterized in that the name of the water plant, the real-time salinity data and the pressure data of the water intake of the river water intake pipeline are listed on the real-time monitoring frame, when the chloride content is larger than 250mg/L, the real-time monitoring frame and the real-time salinity data can be changed into red, and the pressure data can be changed into yellow so as to alarm to enter an anti-salt state.

Compared with the prior art, the invention has the following advantages:

the invention provides a water supply operation management method based on anti-salt emergency treatment, which comprises the following steps: acquiring water body quality data of a water intake of a river water intake pipeline; performing data analysis on the water quality data; when the chloride content in the water mass data is more than 250mg/L, giving an alarm prompt; closing the river water intake pipeline and opening the fresh water intake pipeline. By using the water supply operation management method, the quality of the water body at the water intake of the river water supply pipeline is monitored in real time, the reaction can be timely carried out when salt tides come, the river water intake pipeline is closed immediately, and the fresh water intake pipeline with the reservoir as a water source is opened, so that the domestic water of residents is ensured. The problem of current water supply operation management can not in time discern that salt tide comes, causes whole water supply system's water to be polluted by salt tide, influences resident domestic water is overcome.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below.

Fig. 1 is a schematic flow diagram of a first embodiment of a method for water supply operation management based on anti-salt emergency treatment;

FIG. 2 is a schematic diagram of a first embodiment of a system for the operation management of water supply based on anti-salt emergency treatment;

FIG. 3 is a schematic diagram of a second embodiment of a method for water supply operation management based on anti-salt emergency treatment;

FIG. 4 is a schematic diagram of a chloride analysis display unit in a second embodiment of a method for operation management of water supply based on anti-salt emergency treatment;

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Fig. 1 is a schematic flow chart of a first embodiment of a method for operation management of water supply based on anti-salt emergency treatment, which comprises:

s101, acquiring water quality data of a water intake of a river water intake pipeline;

in the step, water quality data of a water intake of a river water intake pipeline is obtained, wherein the water quality data comprises pressure, flow, water level, chloride content, turbidity and pH value.

Step S102, carrying out data analysis on water quality data;

step S103, when the chloride content in the water mass data is more than 250mg/L, giving an alarm prompt;

and step S104, closing the river water intake pipeline and opening the fresh water intake pipeline.

Water sources of water plants in coastal regions mainly include river water and reservoir water, water supply pipelines are laid between the water plants and rivers or reservoirs, and the purpose of taking water from the rivers or the reservoirs is achieved by controlling the water supply pipelines. The reservoir is closed, the water source sources of the reservoir comprise rainwater, underground water and ground river water, so that the reservoir is very limited, the water source of river water is sufficient, the reservoir can be generally used as a main water source of a water plant in a coastal region, when the reservoir is connected with the sea, the water quantity of the river becomes small when dry seasons occur, the sea water flows backwards, salt tides occur, and the river water polluted by the salt tides does not meet the drinking standard.

The existing water supply management and operation system cannot identify the coming of the salt tide in time, and the water polluted by the salt tide generally flows to the polluted whole water supply system and then flows to thousands of households to know the water supply system. The embodiment of the invention can overcome the problem that the salt tide cannot be identified in time, and timely judges whether the salt tide comes or not by collecting and analyzing the water quality data of the water intake of the river water supply pipeline in real time, wherein the chloride content in the water quality data is a main data index for showing the coming of the salt tide, when the chloride content is more than 250mg/L, the river is deemed to have the salt tide, at the moment, an alarm signal is sent out immediately, the river water supply pipeline is closed immediately after the signal is received, and the fresh water supply pipeline connected with the reservoir is opened instead, so that the domestic water of residents is ensured.

The pressure, flow, water level, turbidity and pH value at the water inlet of the water intake pipeline of the river are detected because the salt tide is caused by the fact that the seawater is poured into the river, and the seawater is poured into the river because the water volume of the river is reduced, and the water volume of the river can be reflected by the data of the water pressure, the water flow, the water level, the water quality and the like of the river, so that the monitoring of the chloride content which is a main index directly representing the coming of the salt tide is needed, and the water pressure, the water flow and the water level are needed to be monitored, so that the dynamic state of the salt tide can be comprehensively and accurately mastered.

Fig. 2 is a structural diagram of a first embodiment of the system for operation management of water supply based on anti-salt emergency treatment 100, which comprises:

the real-time detection module 110 is used for acquiring water quality data of a water intake of a river water intake pipeline;

the data analysis module 120 is used for performing data analysis on the water quality data;

the data display module 130 is used for sending out an alarm prompt when the chloride content in the water mass data is greater than 250 mg/L;

and the emergency processing module 140 is used for closing the river water intake pipeline and opening the fresh water intake pipeline when the chloride content in the water quality data is greater than 250 mg/L.

According to the embodiment of the invention, the water quality data of the water intake of the river water intake pipeline is obtained, and then the water quality data is analyzed through the data analysis module, so that when the chloride content in the water quality data is more than 250mg/L, an alarm prompt is timely sent out, the measures of closing the river water intake pipeline and opening the fresh water intake pipeline are further taken, the coming of the salt tide is timely monitored, and the pollution of the salt tide on the whole water supply system and the influence on the normal water use of a user are avoided.

FIG. 3 is a block diagram of a second embodiment of a method for anti-salt emergency water supply operation management, the system 200 for anti-salt emergency water supply operation management comprising; a real-time detection module 210, a data analysis module 220, a data presentation module 230, and an emergency processing module 240.

Specifically, the real-time detection module 210 includes a pipe network measurement point unit 211;

the pipe network measuring point unit 211 is used for monitoring the pressure, flow, water level, chloride content, turbidity and PH value at the water intake of the river water intake pipeline in real time;

specifically, the data display module 230 includes a chloride analysis display unit 231, an upstream time flow and downstream reference point display unit 232, a salt tide dynamic map display unit 233, a dynamic display unit 234 of the reservoir and water plant, and a salt tide current situation and history display unit 235;

a chloride analysis and display unit 231, configured to display real-time monitoring data of chlorides at a water intake of a river water intake pipeline;

further, the chloride analysis display unit 231 includes: the chloride real-time data point analysis sub-unit 2311, the chloride real-time data progress bar analysis sub-unit 2312 and the chloride real-time data curve analysis sub-unit 2313 are included;

further, a chloride real-time data spot analysis subunit 2311 for demonstrating: the method comprises the steps of (1) a point analysis graph of a region name and real-time chloride data is included, points for representing the chloride content of a water intake pipeline of the river water are arranged at positions corresponding to the region name, and when the chloride content in water quality data is larger than 250mg/L, the corresponding points are displayed in red;

further, a chloride real-time data progress bar analyzing subunit 2312, configured to show: the method comprises the steps of using a progress bar with an X axis and a Y axis, wherein the X axis direction is used for representing a specific numerical value of a chloride at a water intake, the Y axis is used for representing a unit of the chloride, and the higher the content of the chloride at the water intake is, the higher the brightness of the progress bar is, and the larger the color difference with the background color is;

further, a chloride real-time data profiling subunit 2313 for demonstrating: comparing the curves, the curve at the upper part shows the real-time numerical value of the chloride at the water intake of the river water intake pipeline and the real-time state of the water intake gate, and the curve at the lower part shows the data fluctuation condition of the chloride in near two days

An upstream time flow and downstream reference point display unit 232, configured to display the time flow at the upstream of the water intake of the river water intake pipeline and the time flow of the downstream reference point at the corresponding upstream;

the salt tide dynamic map display unit 233 is used for dynamically displaying the salt tide dynamic on the map;

further, the tidal dynamics map display unit 233 is used for displaying:

the main distribution conditions of river channels, water plants and reservoirs are mainly determined;

the water supply relationship between the water plant and the reservoir when the salt tide occurs;

the water plant is provided with a real-time monitoring frame, the name of the water plant, the real-time salinity data and the pressure data of the water intake of the river water intake pipeline are listed on the real-time monitoring frame, when the chloride content is larger than 250mg/L, the real-time monitoring frame and the real-time salinity data can become red, and the pressure data can become yellow so as to alarm to enter an anti-salinity state.

The dynamic display unit 234 of the reservoir and the water plant is used for displaying the emergency operation state of water supply and water supplement between the water plant and the reservoir when the chloride content in the water quality data is more than 250 mg/L;

the present and history display unit 235 is used for displaying the present state and the past situation of the regional salt tide.

According to the invention, by monitoring the water quality data of the water intake of the river water intake pipeline, when the content of chloride in the water quality data is more than 250mg/L, an alarm prompt is sent in time, and measures of closing the river water intake pipeline and opening the fresh water intake pipeline are taken, so that the pollution of salt tide to the whole water supply system and the influence on normal water use of residents in time are avoided.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (7)

1. A water supply operation management method based on anti-salt emergency treatment is characterized by comprising the following steps:

acquiring water body quality data of a water intake of a river water intake pipeline;

performing data analysis on the water quality data;

when the chloride content in the water mass data is more than 250mg/L, giving an alarm prompt;

closing the river water intake pipeline and opening the fresh water intake pipeline.

2. The anti-saltwater emergency water supply operation management method of claim 1 wherein the water quality data includes pressure, flow, water level, chloride content, turbidity, PH.

3. A water supply operation management system based on anti-salt emergency treatment is characterized by comprising:

the real-time detection module is used for acquiring water quality data of a water intake of a river water intake pipeline;

the data analysis module is used for carrying out data analysis on the water quality data;

the data display module is used for sending out an alarm prompt when the chloride content in the water mass data is more than 250 mg/L;

and the emergency processing module is used for closing the river water intake pipeline and opening the fresh water intake pipeline when the chloride content in the water mass data is more than 250 mg/L.

4. The saltwater emergency treatment based water supply operation management system according to claim 3, wherein the real-time detection module comprises:

and the pipe network measuring point unit is used for monitoring the pressure, flow, water level, chloride content, turbidity and PH value at the water intake of the river water intake pipeline in real time.

5. The saltwater emergency treatment-based water supply operation management system according to claim 3, wherein the data presentation module comprises:

the chloride analysis and display unit is used for displaying real-time monitoring data of the chloride at the water intake of the river water intake pipeline;

the upstream time flow and downstream reference point display unit is used for displaying the upstream time flow of a water intake of the river water intake pipeline and the time flow of a downstream reference point corresponding to the upstream;

the salt tide dynamic map display unit is used for dynamically displaying the salt tide dynamic on the map;

the dynamic display unit of the reservoir and the water plant is used for displaying the emergency operation state of water supply and water supplement between the water plant and the reservoir when the content of chloride in the water quality data is more than 250 mg/L;

the display unit for the current situation and history of the salt tide is used for displaying the real-time state of the salt tide in a region and the situations of the salt tide in the past two years.

6. The anti-saltwater emergency treatment based water supply operation management system according to claim 5, wherein the chloride analysis and display unit comprises:

chloride real-time data point analysis subunit for displaying: the method comprises the steps of (1) a point analysis graph of a region name and real-time chloride data is included, points for representing the chloride content of a water intake pipeline of the river water are arranged at positions corresponding to the region name, and when the chloride content in water quality data is larger than 250mg/L, the corresponding points are displayed in red;

the chloride real-time data progress bar analysis subunit is used for displaying: the method comprises the steps of using a progress bar with an X axis and a Y axis, wherein the X axis direction is used for representing a specific numerical value of a chloride at a water intake, the Y axis is used for representing a unit of the chloride, and the higher the content of the chloride at the water intake is, the higher the brightness of the progress bar is, and the larger the color difference with the background color is;

chloride real-time data curve analysis subunit for demonstrating: comparing the curve chart, the curve at the upper part shows the real-time numerical value of the chloride at the water intake of the river water intake pipeline and the real-time state of the water intake gate, and the curve at the lower part shows the data fluctuation condition of the chloride in near two days.

7. The water supply operation management system based on anti-salt emergency treatment of claim 5, wherein the salt tide dynamic map display unit is used for displaying:

distribution conditions of rivers, water plants and reservoirs;

the water supply relationship between the water plant and the reservoir when the salt tide occurs;

the monitoring data condition of the real-time monitoring frame arranged on the water plant is characterized in that the name of the water plant, the real-time salinity data and the pressure data of the water intake of the river water intake pipeline are listed on the real-time monitoring frame, when the chloride content is larger than 250mg/L, the real-time monitoring frame and the real-time salinity data can be changed into red, and the pressure data can be changed into yellow so as to alarm to enter an anti-salt state.

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