WO2023173449A1

WO2023173449A1 - Thermal power plant wastewater zero-discharge nonlinear mathematical programming system and method

Info

Publication number: WO2023173449A1
Application number: PCT/CN2022/082001
Authority: WO
Inventors: 刘克成; 夏彦卫; 张立军; 郁金星; 石荣雪; 牛向楠
Original assignee: 国网河北省电力有限公司电力科学研究院; 国家电网有限公司; 国网河北能源技术服务有限公司
Priority date: 2022-03-17
Filing date: 2022-03-21
Publication date: 2023-09-21
Also published as: CN114751584A

Abstract

A thermal power plant wastewater zero-discharge nonlinear mathematical programming system, comprising a monitoring module (200), a central processing module (100), a remote monitoring module (300) and a sewage treatment module (400). The monitoring module (200) is used for acquiring detection data of each detection sensor installed in the sewage treatment system (400) of a thermal power plant, and sending the detection data to the sewage treatment module (400). The sewage treatment module (400) is used for receiving the detection data sent by the monitoring module (200), performing data processing on the detection data and then displaying same, and wirelessly transmitting the display content to the remote monitoring module (300); and receiving and executing a user instruction sent by the remote monitoring module (300). The remote monitoring module (300) is used for receiving the display content sent by the sewage treatment module (400), and sending the display content to a mobile device of a user; and receiving the user instruction sent by the user, and sending the user instruction to the sewage treatment module (400). According to the system, the sewage treatment monitoring efficiency of the sewage treatment plant is improved, and the labor cost is reduced.

Description

A nonlinear mathematical programming system and method for zero discharge of wastewater from thermal power plants

Technical field

The invention relates to the technical field of sewage treatment, specifically a nonlinear mathematical programming system and method for zero discharge of wastewater from thermal power plants.

Background technique

The invention patent with publication number CN109293073A discloses a thermal power plant sewage treatment process. The thermal power plant circulating water sewage treatment system used in this process includes a rack, an outlet pipe, a sewage treatment tank, and a slag storage tank located on one side of the sewage treatment tank. And a salvage module fixed between the sewage treatment tank and the slag storage tank; the water outlet pipe is located at the upper part of the sewage treatment tank, the water outlet pipe is fixed on the frame, and the water outlet pipe is used to spray sewage onto the salvage module; the salvage module is fixed On the frame, the salvage module is used to salvage the suspended solids floating in the sewage treatment tank and transport them to the slag storage tank; the invention collects the suspended solids in the sewage and desulfurizes the sewage, so that the sewage can continue to be recycled after being purified , to achieve resource recycling.

The invention patent with publication number CN212222641U discloses a backwash sewage filtration and recovery device for thermal power plants, which includes a sedimentation tank. The sedimentation tank is divided into multiple overflow tanks distributed in series, and a backwash is provided in the end overflow tank. The sewage inlet and end overflow tank are the main sludge concentration tanks. The end overflow tank is connected to a mud pump, and the mud pump is connected to a mud-water separation tank. The mud-water separation tank includes a sludge outlet and a sewage outlet. The sludge outlet is connected to a sludge drying device, and the sewage outlet is connected to a sedimentation tank. The other end of the settling tank opposite to the end overflow tank is connected in sequence with a manganese sand filter, a security filter, and a self-cleaning filter.

The existing thermal power plant sewage treatment system has a large number of equipment, is difficult to manage, and cannot accurately monitor various sewage treatment data in real time. In view of the above situation, there is an urgent need to develop a nonlinear mathematical programming system for zero discharge of thermal power plant wastewater to overcome the current situation. deficiencies in practical applications.

technical problem

The purpose of the present invention is to provide a nonlinear mathematical programming system and method for zero discharge of wastewater from thermal power plants to solve the problems raised in the above background technology.

Technical solutions

In order to achieve the above objects, the present invention provides the following technical solutions:

A nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants, including a monitoring module, a central processing module, a remote monitoring module and a sewage treatment module, in which:

The monitoring module is used to obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant, and send the detection data to the sewage treatment module.

The sewage treatment module is used to receive the detection data sent by the monitoring module, perform data processing on the detection data and display it, and wirelessly transmit the display content to the remote monitoring module; receive and execute user instructions sent by the remote monitoring module.

The remote monitoring module is used to receive the display content sent by the sewage treatment module and send the display content to the user's mobile device; receive the user instruction sent by the user and send the user instruction to the sewage treatment module.

The central processing module is used to obtain transmission information between the monitoring module, sewage treatment module, and remote monitoring module, and execute information transmission instructions.

As a further solution of the present invention: the monitoring module includes a water quantity monitoring module, a water quality monitoring module, an equipment monitoring module and a data transceiver module. The water quantity monitoring module, water quality monitoring module and equipment monitoring module are all connected to the data transceiver module, wherein:

The water volume monitoring module is a flow rate sensor installed in the sewage treatment system of a thermal power plant for monitoring sewage volume. It is used to obtain sewage volume detection data and send the detection data to the data transceiver module.

The water quality monitoring module is a water quality sensor installed in the sewage treatment system of a thermal power plant to detect sewage water quality. It is used to obtain sewage water quality detection data and send the detection data to the data transceiver module.

The equipment monitoring module is used to obtain the working status data of the electric equipment installed in the sewage treatment system of the thermal power plant, and send the working status data to the data transceiver module.

The data transceiver module is connected to the sewage treatment module and is used to receive data sent by the water quantity monitoring module, water quality monitoring module and equipment monitoring module, and send the data to the sewage treatment module.

As a further solution of the present invention: the monitoring module also includes a personnel monitoring module, and the personnel monitoring module is connected to the data transceiver module, wherein:

The personnel monitoring module is used to obtain the attendance information of workers in the sewage treatment system of thermal power plants, and send the attendance information to the data transceiver module, which sends it to the sewage treatment module.

As a further solution of the present invention: the central processing module includes a data receiving unit, a data processing unit, a feedback unit and a display unit, wherein:

The data receiving unit is used to obtain the operating instructions for use and send the operating instructions to the data processing unit.

The data processing unit is used to receive operating instructions sent by the data receiving unit; detect the operating status of the sewage treatment module; obtain various detection data sent by the data sending and receiving module, obtain the status analysis results of the sewage treatment system of the thermal power plant, and send the analysis results to the feedback unit.

The feedback unit is also connected to the user's mobile device for receiving the analysis results sent by the data processing unit and sending them to the user's mobile device and display unit.

The display unit is used to display the analysis results sent by the feedback unit.

As a further solution of the present invention: the method for the data processing unit to obtain the status analysis results of the sewage treatment system of the thermal power plant is to compare the obtained detection data with the data indicators preset by the user, calculate the data expectations, and judge based on the data expectations The sewage treatment status of the sewage treatment system of thermal power plants.

As a further solution of the present invention: the display unit includes a data collection component, a data analysis component and a data display component, and the data collection component, the data analysis component and the data display component are connected in sequence, wherein,

The data acquisition component is used to receive the analysis results sent by the sewage treatment module and send the analysis results to the data analysis component.

The data analysis component is used to receive the analysis results sent by the data collection component, unify the data types of each analysis result, and send the processed data to the data display component.

The data display component is used to receive the processed data sent by the data analysis component and display it to the user.

As a further solution of the present invention: it also includes an Internet component, and the Internet component is connected to the data display component, wherein:

The Internet component is used to connect to the data display component, allowing users to call the sewage treatment data in the Internet database and send it to the data display component for display.

As a further solution of the present invention: the sewage treatment module includes a sewage receiving unit, a multi-stage sewage treatment unit, a sewage discharge unit and a residue discharge unit. The sewage receiving unit is connected to the multi-stage sewage treatment unit. The multi-stage sewage treatment unit The unit is connected to the sewage discharge unit and the residue discharge unit.

As a further solution of the present invention: the multi-stage sewage treatment unit includes a filter tank, a sedimentation tank, a flocculation tank, an aeration tank, an anaerobic reaction tank, an aerobic reaction tank, a pH adjustment tank and a disinfection tank.

A nonlinear mathematical programming method for zero discharge of wastewater from thermal power plants, including the following steps:

S100. Obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant, and send the detection data to the sewage treatment module.

S200: Display the detection data after data processing, and wirelessly transmit the display content to the remote monitoring module.

S300: Receive the display content sent by the sewage treatment module, and send the display content to the user's mobile device. Receive user instructions sent by the user, send the user instructions to the sewage treatment module, and adjust the sewage treatment module.

beneficial effects

Compared with the prior art, the beneficial effects of the present invention are:

To sum up, the present invention is provided with a monitoring module, a central processing module, a remote monitoring module and a sewage treatment module. The monitoring module is used to obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant and send the detection data. to the sewage treatment module. The sewage treatment module is used to receive the detection data sent by the monitoring module, process the detection data and display it, and wirelessly transmit the display content to the remote monitoring module; receive and execute user instructions sent by the remote monitoring module, remotely The monitoring module is used to receive the display content sent by the sewage treatment module and send the display content to the user's mobile device; receive the user instructions sent by the user and send the user instructions to the sewage treatment module to improve the monitoring of sewage treatment in the sewage treatment plant efficiency and reduce labor costs.

Description of the drawings

Figure 1 is the structural block diagram of the nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants.

Figure 2 is the structural block diagram of the central processing module in the nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants.

Figure 3 is a structural block diagram of the display unit in the nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants.

Figure 4 is the structural block diagram of the monitoring module in the nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants.

Figure 5 is a structural block diagram of the sewage treatment module in the nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants.

Figure 6 is a flow chart of the nonlinear mathematical programming method for zero discharge of wastewater from thermal power plants.

Embodiments of the invention

The technical solution of this patent will be further described in detail below in conjunction with specific implementation modes.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals throughout represent the same or similar elements or elements with the same or similar functions. The embodiments described below with reference to the drawings are exemplary and are only used to explain the patent and cannot be understood as limitations of the patent.

Example 1

Please refer to Figure 1-2, a nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants, including a monitoring module 200, a central processing module 100, a remote monitoring module 300 and a sewage treatment module 400, where:

The monitoring module 200 is used to obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant, and send the detection data to the sewage treatment module 400 .

The sewage treatment module 400 is used to receive the detection data sent by the monitoring module 200, perform data processing on the detection data and display it, and wirelessly transmit the display content to the remote monitoring module 300; receive and execute user instructions sent by the remote monitoring module 300.

The remote monitoring module 300 is configured to receive the display content sent by the sewage treatment module 400 and send the display content to the user's mobile device; receive the user instruction sent by the user and send the user instruction to the sewage treatment module 400;

The central processing module 100 is used to obtain transmission information between the monitoring module 200, the sewage treatment module 400, and the remote monitoring module 300, and execute information transmission instructions.

In the embodiment of the present invention, the monitoring module 200 includes a water quantity monitoring module 210, a water quality monitoring module 220, an equipment monitoring module 230, and a data transceiver module 250. The water quantity monitoring module 210, the water quality monitoring module 220, and the equipment monitoring module 230 are all related to data. The transceiver module 250 is connected, where:

The water volume monitoring module 210 is a flow rate sensor installed in the sewage treatment system of a thermal power plant for monitoring sewage volume, and is used to obtain sewage volume detection data and send the detection data to the data transceiver module 250 .

The water quality monitoring module 220 is a water quality sensor installed in the sewage treatment system of a thermal power plant for detecting sewage water quality, and is used to obtain sewage water quality detection data and send the detection data to the data transceiver module 250 .

The equipment monitoring module 230 is used to obtain the working status data of the electric equipment installed in the sewage treatment system of the thermal power plant, and send the working status data to the data transceiver module 250 .

The data transceiver module 250 is connected to the sewage treatment module 400 and is used to receive data sent by the water quantity monitoring module 210, the water quality monitoring module 220 and the equipment monitoring module 230, and send the data to the sewage treatment module 400.

In the embodiment of the present invention, the monitoring module 200 also includes a personnel monitoring module 240, which is connected to the data transceiver module 250, wherein:

The personnel monitoring module 240 is used to obtain the attendance information of workers in the sewage treatment system of the thermal power plant, and send the attendance information to the data transceiver module 250, which then sends it to the sewage treatment module 400.

In the embodiment of the present invention, the central processing module 100 includes a data receiving unit 110, a data processing unit 120, a feedback unit 130 and a display unit 140, wherein:

The data receiving unit 110 is configured to obtain an operation instruction for use and send the operation instruction to the data processing unit 120 .

The data processing unit 120 is used to receive the operation instructions sent by the data receiving unit 110; detect the operating status of the sewage treatment module 400; obtain various detection data sent by the data sending and receiving module 250, obtain the status analysis results of the sewage treatment system of the thermal power plant, and analyze The results are sent to feedback unit 130 .

The feedback unit 130 is also connected to the user's mobile device for receiving the analysis results sent by the data processing unit 120 and sending them to the user's mobile device and the display unit 140 .

The display unit 140 is used to display the analysis results sent by the feedback unit 130 .

In the embodiment of the present invention, the method for the data processing unit 120 to obtain the status analysis results of the sewage treatment system of the thermal power plant is to compare the obtained detection data with the data indicators preset by the user, calculate the data expectation, and use the data expectation Determine the sewage treatment status of the sewage treatment system of thermal power plants.

Example 2

The remote monitoring module 300 is configured to receive the display content sent by the sewage treatment module 400 and send the display content to the user's mobile device; receive the user instruction sent by the user and send the user instruction to the sewage treatment module 400.

In the embodiment of the present invention, the method for the data processing unit 120 to obtain the status analysis results of the sewage treatment system of the thermal power plant is to compare the obtained detection data with the data indicators preset by the user, calculate the data expectations, and calculate the data expectations from the data expectations. Determine the sewage treatment status of the sewage treatment system of thermal power plants.

Please refer to Figure 3-4. The difference between this embodiment and Embodiment 1 is:

The display unit 140 includes a data collection component 141, a data analysis component 142 and a data display component 143. The data collection component 141, the data analysis component 142 and the data display component 143 are connected in sequence, wherein,

The data collection component 141 is used to receive the analysis results sent by the sewage treatment module 400 and send the analysis results to the data analysis component 142.

The data analysis component 142 is used to receive the analysis results sent by the data acquisition component 141, unify the data types of each analysis result, and send the processed data to the data display component 143.

The data display component 143 is used to receive the processed data sent by the data analysis component 142 and display it to the user.

Further, in the embodiment of the present invention, an Internet component 144 is also included, and the Internet component 144 is connected to the data display component 143, wherein:

The Internet component 144 is used to connect to the data display component 143, allowing users to call the sewage treatment data in the Internet database and send it to the data display component 143 for display.

Example 3

The data analysis component 142 is used to receive the analysis results sent by the data collection component 141, unify the data types of each analysis result, and send the processed data to the data display component 143.

Please refer to Figure 5. The differences between the embodiment of the present invention and Embodiment 1-2 are:

The sewage treatment module 400 includes a sewage receiving unit 410, a multi-stage sewage treatment unit 420, a sewage discharge unit 430 and a residue discharge unit 440. The sewage receiving unit 410 is connected to the multi-stage sewage treatment unit 420. The multi-stage sewage treatment unit The unit 420 is connected to the sewage discharge unit 430 and the residue discharge unit 440.

Further, it should be noted that the multi-stage sewage treatment unit 420 includes but is not limited to a filter tank, a sedimentation tank, a flocculation tank, an aeration tank, an anaerobic reaction tank, an aerobic reaction tank, a pH adjustment tank and a disinfection tank.

Example 4

The invention also discloses a nonlinear mathematical programming method for zero discharge of waste water from thermal power plants, which includes the following steps:

The above are only preferred embodiments of the present invention. It should be pointed out that those skilled in the art can also make several modifications and improvements without departing from the concept of the present invention, and these should also be regarded as protection of the present invention. scope, these will not affect the effect of the present invention and the practicality of the patent.

Claims

A nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants, which is characterized by including a monitoring module (200), a central processing module (100), a remote monitoring module (300) and a sewage treatment module (400), wherein:

The monitoring module (200) is used to obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant, and send the detection data to the sewage treatment module (400);

The sewage treatment module (400) is used to receive the detection data sent by the monitoring module (200), perform data processing on the detection data and display it, and wirelessly transmit the display content to the remote monitoring module (300); receive the remote monitoring module (300) and execute the user instructions sent by the sewage treatment module (400); the remote monitoring module (300) is used to receive the display content sent by the sewage treatment module (400) and send the display content to the user's mobile device; receive the user instructions sent by the user, and send the display content to the user's mobile device; The instruction is sent to the sewage treatment module (400); the central processing module (100) is used to obtain the transmission information between the monitoring module (200), the sewage treatment module (400), and the remote monitoring module (300), and execute the information transmission instructions.
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 1, characterized in that the monitoring module (200) includes a water quantity monitoring module (210), a water quality monitoring module (220), and an equipment monitoring module (230). And the data transceiver module (250), the water quantity monitoring module (210), the water quality monitoring module (220), and the equipment monitoring module (230) are all connected to the data transceiver module (250), where:

The water volume monitoring module (210) is a flow rate sensor installed in the sewage treatment system of a thermal power plant for monitoring sewage volume. It is used to obtain sewage volume detection data and send the detection data to the data transceiver module (250);

The water quality monitoring module (220) is a water quality sensor installed in the sewage treatment system of the thermal power plant for detecting sewage water quality. It is used to obtain sewage water quality detection data and send the detection data to the data transceiver module (250);

The equipment monitoring module (230) is used to obtain the working status data of the electrical equipment installed in the sewage treatment system of the thermal power plant, and send the working status data to the data transceiver module (250);

The data transceiver module (250) is connected to the sewage treatment module (400) and is used to receive data sent by the water quantity monitoring module (210), water quality monitoring module (220) and equipment monitoring module (230), and send the data to the sewage Processing module (400).
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 2, characterized in that the monitoring module (200) also includes a personnel monitoring module (240), a personnel monitoring module (240) and a data transceiver module ( 250) connection, where:

The personnel monitoring module (240) is used to obtain the attendance information of the staff in the sewage treatment system of the thermal power plant, and send the attendance information to the data transceiver module (250), which is sent to the sewage treatment module (400). ).
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 3, characterized in that the central processing module (100) includes a data receiving unit (110), a data processing unit (120), and a feedback unit (130) and display unit (140), where:

The data receiving unit (110) is used to obtain the operating instructions for and send the operating instructions to the data processing unit (120);

The data processing unit (120) is used to receive operating instructions sent by the data receiving unit (110); detect the operating status of the sewage treatment module (400); obtain various detection data sent by the data sending and receiving module (250), and obtain the thermal power plant sewage Process the system status analysis results and send the analysis results to the feedback unit (130);

The feedback unit (130) is also connected to the user's mobile device and is used to receive the analysis results sent by the data processing unit (120) and send them to the user's mobile device and display unit (140);

The display unit (140) is used to display the analysis results sent by the feedback unit (130).
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 4, characterized in that the method for the data processing unit (120) to obtain the status analysis results of the sewage treatment system of thermal power plants is to: obtain various detection data Compare with the data indicators preset by the user, calculate the data expectations, and judge the sewage treatment status of the sewage treatment system of the thermal power plant based on the data expectations.
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 5, characterized in that the display unit (140) includes a data acquisition component (141), a data analysis component (142) and a data display component (143) , the data collection component (141), the data analysis component (142) and the data display component (143) are connected in sequence, where,

The data acquisition component (141) is used to receive the analysis results sent by the sewage treatment module (400) and send the analysis results to the data analysis component (142);

The data analysis component (142) is used to receive the analysis results sent by the data collection component (141), unify the data types of each analysis result, and send the processed data to the data display component (143);

The data display component (143) is used to receive the processed data sent by the data analysis component (142) and display it to the user.
The nonlinear mathematical programming system for zero discharge of wastewater from thermal power plants according to claim 6, characterized in that it also includes an Internet component (144), and the Internet component (144) is connected to the data display component (143), wherein:

The Internet component (144) is used to connect to the data display component (143), allowing users to call the sewage treatment data in the Internet database and send it to the data display component (143) for display.
The nonlinear mathematical programming system for zero discharge of thermal power plant wastewater according to claim 1, characterized in that the sewage treatment module (400) includes a sewage receiving unit (410), a multi-stage sewage treatment unit (420), a sewage discharge unit (430) and the residue discharge unit (440), the sewage receiving unit (410) is connected to the multi-stage sewage treatment unit (420), the multi-stage sewage treatment unit (420) is connected to the sewage discharge unit (430) and the residue discharge Unit (440) connection.
The nonlinear mathematical programming system for zero discharge of thermal power plant wastewater according to claim 8, characterized in that the multi-stage sewage treatment unit (420) includes a filter tank, a sedimentation tank, a flocculation tank, an aeration tank, and an anaerobic reaction tank. , aerobic reaction tank, pH adjustment tank and disinfection tank.
The method for a zero-discharge nonlinear mathematical programming system for thermal power plant wastewater according to any one of claims 1 to 9, characterized in that it includes the following steps:

S100. Obtain the detection data of each detection sensor installed in the sewage treatment system of the thermal power plant, and send the detection data to the sewage treatment module;

S200. Perform data processing on the detection data and display it, and wirelessly transmit the display content to the remote monitoring module;

S300: Receive the display content sent by the sewage treatment module, and send the display content to the user's mobile device; receive the user instruction sent by the user, send the user instruction to the sewage treatment module, and adjust the sewage treatment module.