CN114579686A - Dynamic system and method of basin water quality and water quantity mechanism model - Google Patents

Abstract

The invention discloses a drainage basin water quality and quantity mechanism model dynamics system and a method, wherein the drainage basin water quality and quantity mechanism model dynamics system comprises a water area data acquisition module, a data sorting module, a data preprocessing module, a data analysis module, an intelligent decision module and a comprehensive evaluation feedback module, wherein the data analysis module comprises a water quality analysis unit, an intelligent supervision center and a water quality database, the intelligent decision module comprises a water quantity management unit, a water quantity monitoring unit and a water quantity prediction unit, and the water area data acquisition module, the data sorting module, the data preprocessing module, the data analysis module, the intelligent decision module and the comprehensive evaluation feedback module are sequentially connected. The intelligent water supply management system can intelligently and reasonably use water according to the actual condition of the irrigation area, comprehensively manage the water use of the irrigation area, is beneficial to realizing scientific allocation and optimized scheduling of irrigation area resources, and highlights the characteristics of strong information sharing and decision regulation and control intelligence in the water use management of the irrigation area.

Description

Dynamic system and method of basin water quality and water quantity mechanism model

Technical Field

The invention relates to the technical field of water resource management, in particular to a dynamic system and a dynamic method of a basin water quality and quantity mechanism model.

Background

The importance of water resources is self-evident, water resources are basic resources, are control elements of ecological environment, are strategic economic resources, and are organic components of comprehensive national strength. According to the survey of 153 countries and regions around the world by 7 related organizations such as the sustainable development committee of the united nations, the annual average water resource amount of China is 2220m3, is discharged at the 121 th position, is close to the 'water shortage country', and is listed as one of 13 water-poor countries by the united nations. Therefore, in the face of increasingly severe water resource supply and demand situations and rapid industrial development situations, the future water demand is predicted, and feasible water-saving measures are made, so that the method is one of the important tasks of solving the sustainable development of China at present.

However, the informatization construction of water management of irrigation areas in China is still at a relatively low level generally at present, mainly the standardization degree of an information structure system of the irrigation areas is low, and unified and targeted regulations and standards are lacked.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a dynamic system and a dynamic method of a basin water quality and quantity mechanism model.

The invention provides a watershed water quality and water quantity mechanism model dynamics system which comprises a water area data acquisition module, a data sorting module, a data preprocessing module, a data analysis module, an intelligent decision module and a comprehensive evaluation feedback module, wherein the data analysis module comprises a water quality analysis unit, an intelligent supervision center and a water quality database, the intelligent decision module comprises a water quantity management unit, a water quantity monitoring unit and a water quantity prediction unit, and the water area data acquisition module, the data sorting module, the data preprocessing module, the data analysis module, the intelligent decision module and the comprehensive evaluation feedback module are sequentially connected.

Preferably, the water area data acquisition module is used for acquiring data of key positions of the water area pipe network, wherein the data comprises real-time data of flow, pressure, residual chlorine and turbidity, and the real-time data acquired by the water area data acquisition module is transmitted to the data sorting module.

Preferably, the data sorting module is configured to classify and archive the acquired real-time data, and send the sorted data to the data preprocessing module in the form of a data packet.

Preferably, the data preprocessing module is configured to split the received data packet, advance the useless data information in the data packet, integrate and package the useful data information into a data packet form for storage, and transmit the processed data to the data analysis module.

Preferably, the data analysis module is configured to receive the processed data, and perform a data blending analysis on the data through the water quality analysis unit to determine a water quality result, where the water quality result is sent to the intelligent supervision center, and the intelligent supervision center controls the water amount of the water quality, and transmits data corresponding to the water quality result to the water quality database for storage.

Preferably, the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the drainage basin in real time, the water quantity prediction unit calculates the change condition of the future water quantity, and the water quantity management unit processes the water yield.

Preferably, the comprehensive evaluation feedback module performs comprehensive evaluation of mechanism by combining the water consumption condition, and is used for receiving opinion feedback data, performing opinion feedback processing, and sending result data of the opinion feedback processing to the data storage module for storage.

A dynamic method of a basin water quality and water quantity mechanism model comprises the following steps:

the system comprises an S1 water area data acquisition module, a data sorting module and a data processing module, wherein the water area data acquisition module is used for acquiring data of key positions of a water area pipe network, and the data comprises real-time data of flow, pressure, residual chlorine and turbidity;

the S2 data sorting module is used for classifying and filing the collected real-time data and sending the sorted data to the data preprocessing module in the form of data packets;

the data preprocessing module of S3 is used for splitting the received data packet, advancing the useless data information in the data packet, integrating and packaging the useful data information into a data packet form for storage, and transmitting the processed data to the data analysis module;

the S4 data analysis module is used for receiving the processed data, and judging the water quality result by mixing and analyzing the data through the water quality analysis unit, the water quality result is transmitted to the intelligent supervision center, the intelligent supervision center controls the water quantity of the water quality, and meanwhile, the data corresponding to the water quality result is transmitted to the water quality database for storage;

s5, the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the drainage basin in real time, the water quantity prediction unit calculates the change situation of the future water quantity, and the water quantity management unit processes the water outlet quantity;

and S6, comprehensively evaluating the mechanism by combining the water consumption, receiving the opinion feedback data, performing opinion feedback processing, and sending the result data of the opinion feedback processing to the data storage module for storage.

According to the dynamic system and the dynamic method for the watershed water quality and quantity mechanism model, intelligent and reasonable water utilization can be performed according to the actual situation of the irrigation area, the water utilization of the irrigation area is comprehensively managed, scientific configuration and optimized scheduling of irrigation area resources are facilitated, and the characteristics of strong information sharing and decision regulation and control intellectualization in the water utilization management of the irrigation area are highlighted.

Drawings

FIG. 1 is a flow chart of a basin water quality and quantity mechanism model dynamics system provided by the invention;

FIG. 2 is a flow chart of a basin water quality and quantity mechanism model dynamics method provided by the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, a watershed water quality and water quantity mechanism model dynamics system comprises a water area data acquisition module, a data sorting module, a data preprocessing module, a data analysis module, an intelligent decision-making module and a comprehensive evaluation feedback module, wherein the data analysis module comprises a water quality analysis unit, an intelligent supervision center and a water quality database, the intelligent decision-making module comprises a water quantity management unit, a water quantity monitoring unit and a water quantity prediction unit, and the water area data acquisition module, the data sorting module, the data preprocessing module, the data analysis module, the intelligent decision-making module and the comprehensive evaluation feedback module are sequentially connected.

The water area data acquisition module is used for acquiring data of key positions of a water area pipe network, and the data comprises real-time data of flow, pressure, residual chlorine and turbidity, and the real-time data acquired by the water area data acquisition module is transmitted to the data arrangement module.

In the invention, the data sorting module is used for classifying and filing the acquired real-time data and sending the sorted data to the data preprocessing module in the form of data packets.

In the invention, the data preprocessing module is used for splitting the received data packet, advancing useless data information in the data packet, integrating and packaging the useful data information into a data packet form for storage, and transmitting the processed data to the data analysis module.

In the invention, the data analysis module is used for receiving the processed data, the water quality analysis unit is used for mixing and analyzing the data to judge the water quality result, the water quality result is transmitted to the intelligent supervision center, the intelligent supervision center controls the water quantity of the water quality, and meanwhile, the data corresponding to the water quality result is transmitted to the water quality database for storage.

In the invention, a water quality analysis module transmits water quality analysis data to an intelligent decision module, the intelligent decision module transmits data information to a water quantity management unit, a water quantity monitoring unit and a water quantity prediction unit, the water quantity monitoring unit detects the water quantity of a drainage basin in real time, the water quantity prediction unit calculates the change condition of the future water quantity, and the water quantity management unit processes the water yield.

The comprehensive evaluation feedback module is used for comprehensively evaluating the mechanism by combining the condition of water consumption, receiving opinion feedback data, performing opinion feedback processing, and sending result data of the opinion feedback processing to the data storage module for storage.

A dynamic method of a basin water quality and water quantity mechanism model comprises the following steps:

the system comprises an S1 water area data acquisition module, a data sorting module and a data processing module, wherein the water area data acquisition module is used for acquiring data of key positions of a water area pipe network, and the data comprises real-time data of flow, pressure, residual chlorine and turbidity;

the S2 data sorting module is used for classifying and filing the collected real-time data and sending the sorted data to the data preprocessing module in the form of data packets;

s3, a data preprocessing module for splitting the received data packet, advancing the useless data information in the data packet, integrating and packaging the useful data information into a data packet form for storage, and transmitting the processed data to a data analysis module;

the S4 data analysis module is used for receiving the processed data, judging the water quality result by the data mixing analysis of the water quality analysis unit, and transmitting the water quality result to the intelligent supervision center which controls the water quantity of the water quality and transmits the data corresponding to the water quality result to the water quality database for storage;

s5, the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the drainage basin in real time, the water quantity prediction unit calculates the change situation of the future water quantity, and the water quantity management unit processes the water outlet quantity;

and S6, comprehensively evaluating the mechanism by combining the water consumption, receiving the opinion feedback data, performing opinion feedback processing, and sending the result data of the opinion feedback processing to the data storage module for storage.

The invention comprises the following steps: the water area data acquisition module is used for acquiring data of key positions of a water area pipe network, and the data comprises real-time data of flow, pressure, residual chlorine and turbidity; the data sorting module is used for classifying and archiving the acquired real-time data and generating the sorted data into the data preprocessing module in the form of a data packet; the data preprocessing module is used for splitting the received data packet, advancing useless data information in the data packet, integrating and packaging useful data information into a data packet form for storage, and transmitting the processed data to the data analysis module; the data analysis module is used for receiving the processed data, judging a water quality result by mixing and analyzing the data through the water quality analysis unit, and conveying the water quality result to the intelligent supervision center, wherein the intelligent supervision center controls the water quantity of the water quality and simultaneously transmits the data corresponding to the water quality result to the water quality database for storage; the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the basin in real time, the water quantity prediction unit calculates the change condition of the future water quantity, and the water quantity management unit processes the water outlet quantity; and comprehensively evaluating the mechanism by combining the water consumption condition, receiving opinion feedback data, performing opinion feedback processing, and sending result data of the opinion feedback processing to the data storage module for storage.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The watershed water quality and water yield mechanism model dynamics system is characterized by comprising a water area data acquisition module, a data sorting module, a data preprocessing module, a data analysis module, an intelligent decision-making module and a comprehensive evaluation feedback module, wherein the data analysis module comprises a water quality analysis unit, an intelligent supervision center and a water quality database, the intelligent decision-making module comprises a water yield management unit, a water yield monitoring unit and a water yield prediction unit, and the water area data acquisition module, the data sorting module, the data preprocessing module, the data analysis module, the intelligent decision-making module and the comprehensive evaluation feedback module are sequentially connected.

2. The watershed water quality and water quantity mechanism model dynamics system of claim 1, wherein the water area data acquisition module is used for acquiring data of key positions of a water area pipe network, the data comprises real-time data of flow, pressure, residual chlorine and turbidity, and the real-time data acquired by the water area data acquisition module is transmitted to the data sorting module.

3. The system of claim 1, wherein the data sorting module is configured to classify and archive the collected real-time data, and the sorted data is generated in the form of data packets to the data preprocessing module.

4. The watershed water quality and quantity mechanism model dynamics system of claim 1, wherein the data preprocessing module is used for splitting a received data packet, advancing useless data information in the data packet, integrating and packaging useful data information into a data packet form for storage, and transmitting the processed data to the data analysis module.

5. The system of claim 1, wherein the data analysis module is configured to receive the processed data, and determine a water quality result by performing data mixing analysis on the data through the water quality analysis unit, and the water quality result is transmitted to the intelligent monitoring center, and the intelligent monitoring center controls the water quality and the amount of water, and transmits data corresponding to the water quality result to the water quality database for storage.

6. The watershed water quality and water quantity mechanism model dynamics system as claimed in claim 1, wherein the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the watershed in real time, the water quantity prediction unit calculates the future change situation of the water quantity, and the water quantity management unit processes the water outlet quantity.

7. The watershed water quality and quantity mechanism model dynamics system as claimed in claim 1, wherein the comprehensive evaluation feedback module performs comprehensive evaluation of mechanism by combining the water consumption condition, and is used for receiving opinion feedback data, performing opinion feedback processing, and sending result data of the opinion feedback processing to the data storage module for storage.

8. A watershed water quality and water quantity mechanism model dynamics method is characterized by comprising the following steps:

the system comprises an S1 water area data acquisition module, a data sorting module and a data processing module, wherein the water area data acquisition module is used for acquiring data of key positions of a water area pipe network, and the data comprises real-time data of flow, pressure, residual chlorine and turbidity;

the S2 data sorting module is used for classifying and filing the collected real-time data and sending the sorted data to the data preprocessing module in the form of data packets;

the data preprocessing module of S3 is used for splitting the received data packet, advancing the useless data information in the data packet, integrating and packaging the useful data information into a data packet form for storage, and transmitting the processed data to the data analysis module;

the S4 data analysis module is used for receiving the processed data, and judging the water quality result by mixing and analyzing the data through the water quality analysis unit, the water quality result is transmitted to the intelligent supervision center, the intelligent supervision center controls the water quantity of the water quality, and meanwhile, the data corresponding to the water quality result is transmitted to the water quality database for storage;

s5, the water quality analysis module transmits water quality analysis data to the intelligent decision module, the intelligent decision module transmits data information to the water quantity management unit, the water quantity monitoring unit and the water quantity prediction unit, the water quantity monitoring unit detects the water quantity of the drainage basin in real time, the water quantity prediction unit calculates the change condition of the future water quantity, and the water quantity management unit processes the water outlet quantity;

and S6, comprehensively evaluating the mechanism by combining the water consumption, receiving the opinion feedback data, performing opinion feedback processing, and sending the result data of the opinion feedback processing to the data storage module for storage.

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