CN112116107A - Water affair operation management method, system and computer readable storage medium - Google Patents

Abstract

The application relates to a water service operation management method, a system thereof and a computer readable storage medium, comprising the water service operation management method, wherein the method comprises a sewage treatment process optimization sub-method, and the process optimization sub-method comprises the steps of sending production information and a production plan to a cloud platform; the production information comprises operation information of each device of each link in the factory under various states, monitoring information formed by monitoring the production state and alarm management information formed by setting adaptive alarm facilities and alarm conditions; the production plan comprises a sewage treatment plan; sending the electromechanical working condition of the sewage treatment facility to a cloud platform; sending water quality information of the water environment to a cloud platform; and the cloud platform performs process simulation according to the acquired information, and generates a process optimal adjustment scheme according to a process simulation result, production information and a production plan. The method and the device have the effect of improving the management effect on the water service operation.

Description

Water affair operation management method, system and computer readable storage medium

Technical Field

The present application relates to the technical field of water environment supervision and protection, and in particular, to a water service operation management method, a system, an apparatus, and a computer-readable storage medium thereof.

Background

The water service operation management mainly aims at monitoring water environment, and comprises regional supervision of sewage treatment plants, water supply plants, drinking water sources and the like; after the corresponding supervision system is stable and mature, the directions of supervision and the like of the water pollution source treatment facility can be expanded and compatible, and a more comprehensive water service operation management information system is formed.

The sewage treatment industry in China starts late, but based on the larger population base of our country and the stronger concept of environmental protection sewage treatment, China mainly develops sewage treatment facilities, sludge harmless devices, black and odorous water body remediation, pollution detection and the like. Most of domestic established sewage treatment facilities have the problems of relative lag in construction of related platforms and difficulty in operation and maintenance management. With the impact of the internet + on the traditional industry, some industry enterprises have explored and practiced in the direction of the internet + direction.

Currently, a company is designed with a corresponding management and control platform, which can realize centralized management of field data of process operation and equipment states for a single SCADA system and a multi-platform mixture in a single plant, a single pipe network or a whole water service group, but focuses on key technologies of a water service processing process, especially fine control, and has relatively weak capability of assisting workers in water service management, so that the application provides a new technical scheme.

Disclosure of Invention

In order to improve the management effect of water service operation, the application provides a water service operation management method, a system, a device and a computer readable storage medium thereof

In a first aspect, the present application provides a water service operation management method, which adopts the following technical scheme:

a water service operation management method is characterized in that: comprises a sewage treatment process optimization sub-method, which comprises the following steps,

sending the production information and the production plan to a cloud platform; the production information comprises operation information of each device of each link in the factory under various states, monitoring information formed by monitoring the production state and alarm management information formed by setting adaptive alarm facilities and alarm conditions; the production plan comprises a sewage treatment plan;

sending the electromechanical working condition of the sewage treatment facility to a cloud platform;

sending water quality information of the water environment to a cloud platform;

and the cloud platform performs process simulation according to the acquired information, and generates a process optimal adjustment scheme according to a process simulation result, production information and a production plan.

Preferably, before the process tuning optimization scheme is obtained, the operation information of each device is imaged, time parameters are added, the images of the same device in different time periods are compared, and the comparison result formed by the comparison is used as the basis of the process tuning optimization.

Preferably, the method further comprises an operation and maintenance management sub-method, wherein the operation and maintenance management sub-method comprises,

the method comprises the steps of sending operation and maintenance personnel information of the sewage treatment facility and spare part information of the sewage treatment facility to a cloud platform;

sending the facility inspection plan to a cloud platform;

and the cloud platform generates a work order according to the facility inspection plan, the operation and maintenance personnel information and the spare part information.

Preferably, the operation and maintenance management sub-method further includes:

establishing an archive library by the cloud platform;

sending the operation rules of the sewage treatment facilities to a cloud platform and storing the operation rules in a file repository;

sending a maintenance requirement to a cloud platform; calling the adaptive operation rules from the archive according to the maintenance requirements, generating a maintenance plan by combining the work order, and displaying the maintenance plan to form maintenance bulletins;

sending a maintenance result to the cloud platform; and generating a maintenance file according to the maintenance result and the maintenance plan, and storing the maintenance file to a file library.

Preferably, the method further comprises a production fault management sub-method, wherein the production fault management sub-method comprises the following steps:

sending a plurality of processing plans of the production faults to a cloud platform and storing the processing plans in an archive;

obtaining an alarm record according to the alarm management information, and calling an adaptive processing plan from the archive according to the alarm record;

and sending the fault processing information to the cloud platform, obtaining an alarm processing record according to the alarm record and the fault processing information, and storing the alarm processing record in the archive.

Preferably, the method further comprises a production management sub-method, wherein the production management sub-method comprises the following steps:

sending production operation basic information to a cloud platform, and carrying out statistics and analysis to obtain an energy consumption cost and an operation report;

comparing the production plan with the real-time operation report to obtain a comparison result, and taking the comparison result as a production plan adjusting basis;

and making an auxiliary decision according to the energy consumption cost and the process optimization scheme.

Preferably, the method further comprises an assay management sub-method, the assay management sub-method comprising:

obtaining a water quality report according to the water quality information;

imaging water quality information, adding time parameters to compare water quality graphs at different stages and different time periods to form a water quality comparison result;

and sending the information of the test equipment and the information of the test medicament for water quality detection to perform test management.

Preferably, the method further comprises an information display sub-method, wherein the information display sub-method comprises the steps of sending and/or constructing a GIS subsystem to the cloud platform, creating information nodes corresponding to projects at all positions of the GIS diagram, storing information of the projects at the information nodes, and enabling all the projects to respectively have corresponding production processes, sewage treatment facilities and water environments.

In a second aspect, the present application provides a water service operation management system, which adopts the following technical scheme:

a water service operation management system comprising:

an acquisition subsystem for acquiring information required to implement any of the above methods;

a cloud platform connected to the acquisition subsystem and pre-populated with computer programs that can be loaded and perform any of the methods described above.

In a third aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: there is stored a computer program that can be loaded by a processor and executed to perform any of the methods described above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. generating a process optimal adjustment scheme by simulating a process and combining production information and a production plan;

2. the energy consumption cost is obtained through statistics and analysis of production operation basic information, and an auxiliary decision is made through the energy consumption cost and a process optimization and adjustment scheme;

3. an operation management and control platform with foresight and practicability is built, decision analysis is carried out on operation data, and scientific basis is provided for management and control of management personnel;

4. the data is monitored, integrated and filled in the process of analysis in a centralized way, a scientific decision support platform is built, professional analysis, management and support are provided, a process simulation model and an expert decision support system are built step by step, and the management layer is assisted to make scientific decisions.

Drawings

Fig. 1 is a schematic block flow diagram of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

Example 1:

a water affair operation management method comprises a sewage treatment process optimization sub-method, an operation and maintenance management sub-method, a production fault management sub-method, a production management sub-method, an assay management sub-method and an information display sub-method; in the water service operation management process, based on the platform and the method formed by the plurality of sub-methods, the water service operation management platform and the method can better assist workers in managing water environment protection management and environmental protection supervision.

The sewage treatment process optimization and regulation method comprises the following steps:

sending the production information and the production plan to a cloud platform; the production information comprises operation information of each device of each link in the factory under various states, monitoring information formed by monitoring the production state and alarm management information formed by setting adaptive alarm facilities and alarm conditions; the production plan comprises a sewage treatment plan;

sending the electromechanical working condition of the sewage treatment facility to a cloud platform;

sending water quality information of the water environment to a cloud platform;

the required information can be acquired by establishing an acquisition subsystem at a factory end (sewage treatment plant), wherein the acquisition subsystem comprises a plurality of front-end sensors, a video monitoring device and a PLC (programmable logic controller) control device.

Acquisition of operational information, for example: a Roots blower, a water pump, a stirrer, a sludge pump and the like are used in the sewage treatment process; at the moment, the equipment is connected to a PLC (programmable logic controller) which is connected to a factory-end server, and the factory-end server is connected to a cloud platform; the method comprises the operation time of each device under different links (sewage treatment links, such as an anaerobic reaction stage) and different states (on, off, each gear and the like) acquired by a PLC control device.

Acquisition of monitoring information, for example: installing video monitoring equipment, wherein the video monitoring equipment can select a gunlock or a dome camera equipment which has night infrared monitoring, supports video snapshot and uploads picture information, is installed at each position of a factory area, and is used for acquiring production information and serving as safety supervision equipment on the other hand, and a camera end faces each work area; the video monitoring equipment is connected to the data acquisition gateway and is connected to the factory server through the data acquisition gateway so as to be connected to the cloud platform; the method comprises the steps of carrying out real-time video acquisition and monitoring on a sewage treatment site through video monitoring equipment, displaying the video monitoring condition of a project in real time, and setting up a window (displayed on a PC (personal computer) end screen) in a display mode, wherein the left side of the window is a video monitoring point list, the middle area of the window is a video monitoring real-time display area, the right side of the window is a video monitoring cradle head control operation area, and the cradle head control function buttons are used for playing, stopping, photographing, upward left, upward right, leftward, automatically rotating and moving, rightward, downward, recording, stopping recording, amplifying and reducing monitoring videos, zooming, aperture amplifying, zooming and the like.

The alarm management information is selected for alarm management because production faults can occur under the influence of various factors in the production process;

for example: installing a liquid level switch/alarm connected with a factory-end server (which can be connected with a numerical control device in advance) for a secondary sedimentation tank in a sewage treatment link, and setting an adaptive alarm threshold value for the liquid level switch/alarm; when the liquid level in the secondary sedimentation tank exceeds the alarm threshold value, the liquid level switch/alarm feeds back an alarm signal to the factory server, and then the alarm signal is transmitted to the cloud platform by the factory server.

Electromechanical operating conditions, for example: selecting a temperature sensor to collect the inlet water temperature and the running temperature of power equipment to serve as electromechanical working condition information; the working condition information also comprises various operation parameters obtained by connecting the Roots blower, the water pump, the stirrer, the sludge pump and the like to the PLC control device; and meanwhile, a single-phase/three-phase electric energy meter supporting 485 output is selected to obtain current/voltage information data of each device to serve as an electromechanical working condition.

Acquisition of water quality information, for example: a PH sensor, a conductivity sensor, a dissolved oxygen sensor and the like are arranged at a water inlet and a water outlet of each water environment (different sewage treatment links) for collecting water quality information, and are connected to a factory server through a data transmission terminal or other communication modules.

Acquisition of a production plan, for example: and connecting a plurality of PC ends and/or mobile phone ends to the cloud platform, recording by related management personnel through the PC ends and/or the mobile phone ends, and sending the sewage treatment plan to the cloud platform.

And the cloud platform performs process simulation according to the acquired information, and generates a process optimal adjustment scheme according to a process simulation result, production information and a production plan. The optimal adjustment scheme can assist workers to better manage sewage treatment.

Process simulation, for example: and calculating the sewage treatment efficiency in the current state according to the production information, and calculating the time required for completing the sewage treatment plan according to the obtained sewage treatment efficiency.

Process preferences, for example: and adjusting the operation time of the water pump unit and the Roots blower unit (aeration system) according to the simulation result, production information (such as water quality information after treatment, alarm frequency and the like) and whether the operation time exceeds the production plan.

The method and the device have the advantages that the operation information of each device is imaged before the process tuning scheme is obtained, the time parameter is added, the graphs of the same device in different time periods are compared, and the comparison result formed by comparison is used as the basis of the process tuning.

The operation information is relatively more intuitive when being checked by the staff, and especially the variable quantity is favorable for further assisting the staff to manage.

The operation and maintenance management sub-method comprises the following steps:

the method comprises the steps of sending operation and maintenance personnel information of the sewage treatment facility and spare part information of the sewage treatment facility to a cloud platform;

sending the facility inspection plan to a cloud platform;

the operation and maintenance personnel information comprises personnel lists, skills and job levels; the spare part information comprises the type, the stock quantity and the warehousing time of the spare parts; the inspection plan is the inspection period and the inspection project of the sewage treatment facility determined by each department according to the actual demand and the facility maintenance period.

And the cloud platform generates a work order according to the facility inspection plan, the operation and maintenance personnel information and the spare part information.

The work order includes: date, operation and maintenance personnel information, inspection plans and corresponding spare part information.

By the method, operation and maintenance can be standardized, relevant workers can manage the operation and maintenance conveniently, and meanwhile unnecessary errors and internal consumption are reduced.

Further, the operation and maintenance management sub-method further includes:

establishing an archive library by the cloud platform;

sending the operation rules of the sewage treatment facilities to a cloud platform and storing the operation rules in a file repository;

sending a maintenance requirement to a cloud platform; the maintenance requirements comprise facilities to be maintained, maintenance addresses and the like;

and (4) calling the adaptive operation rules from the archive according to the maintenance requirements (with maintenance facilities), generating a maintenance plan by combining the work order, and displaying the maintenance plan to form maintenance bulletins.

The file library is established to guide maintenance personnel to do maintenance work through operation rules, so that the effect is improved; the maintenance bulletin can inform other personnel except maintenance personnel and managers of the current condition of the sewage treatment facility, prompt the personnel to adjust the work arrangement in time and the like, reduce the production disorder and improve the management effect.

After the maintenance of the sewage treatment facility is completed, sending a maintenance result to the cloud platform;

and generating a maintenance file according to the maintenance result and the maintenance plan, and storing the maintenance file to a file library.

The collection and integration of the maintenance files can be used for staff to summarize facility operation and maintenance rules in the later period and serve as reference for operation and maintenance management and optimization regulation; meanwhile, the method can also be used for feeding back data to a facility supplier for data analysis and product optimization.

Thirdly, the production fault management sub-method comprises the following steps:

sending a plurality of processing plans of the production faults to a cloud platform and storing the processing plans in an archive; the treatment plan is obtained by summarizing long-term experience of factory-end workers, such as: and if the liquid level of the secondary sedimentation tank exceeds a threshold value, stopping the water inlet of the secondary sedimentation tank correspondingly.

The cloud platform obtains an alarm record according to the alarm management information, and calls an adaptive processing plan from the archive according to the alarm record; the alarm records include fault types, such as: the liquid level is too high; and simultaneously, the method also comprises a water business link corresponding to the fault point.

After the fault processing is finished, the working personnel actively or the acquisition subsystem sends the processed result, namely the fault processing information to the cloud platform, the cloud platform obtains an alarm processing record according to the alarm record and the fault processing information, and the alarm processing record is stored in the archive.

The collection and arrangement of the alarm processing records are beneficial to the production optimization and adjustment of managers in the later period.

Fourthly, the production management method comprises the following steps:

sending production operation basic information to a cloud platform, and carrying out statistics and analysis to obtain an energy consumption cost and an operation report;

the production operation basic information comprises real-time unit prices of water/electricity unit prices, sewage treatment material (for example, MBBR material for MBBR treatment process) unit prices and the like; the daily sewage treatment amount, the daily sludge amount and the like are also included;

the information category contained in the operation report at least comprises the information category in the production plan, so that management personnel can know the execution result of the production plan, and the information category is collected and fed back by the collection subsystem.

And comparing the production plan with the real-time operation report to obtain a comparison result, and taking the comparison result as a production plan adjustment basis, so that the production plan is relatively more reasonable, the probability of the problems of capacity waste and the like is reduced, and the production benefit is improved.

The related management personnel can make an auxiliary decision subsequently according to the energy consumption cost and the process optimization scheme, namely, a scientific decision support platform can be built through the method, the process monitoring, the process integrating and the data filling are analyzed in a centralized manner, professional analysis, management and support are provided, a process model and an expert decision support system are built step by step, and the management layer is assisted to make a scientific decision.

Fifthly, the assay management method comprises the following steps:

obtaining a water quality report according to the water quality information;

imaging water quality information, adding time parameters to compare water quality graphs at different stages and different time periods to form a water quality comparison result;

for example: establishing a time/PH coordinate axis to obtain a PH value change curve of a water environment (an outlet of an anaerobic tank) at early, middle and late stages in the same day; and judging the sewage treatment pressure accumulation time by comparing the pH value change curves at different time stages.

In order to perform more detailed and accurate management on the sewage treatment result and ensure that the discharged water quality accords with corresponding indexes, the sensors in the acquisition subsystem are used for water quality detection, and various test devices and test medicaments are also needed, so that the method also comprises the step of sending the test device information and the test medicament information of the water quality detection for test management so as to improve the overall management effect.

The operation and the test management are both used for reducing the management cost and the operation and maintenance cost, and lay the foundation for information management and operation strategy planning of enterprises.

Sixthly, the information display sub-method comprises the following steps: and sending and/or constructing a GIS subsystem to a cloud platform, creating information nodes corresponding to projects at each position of a GIS graph, and storing information of the projects at the information nodes, wherein each project has a corresponding production process, a sewage treatment facility and a water environment.

The information display mode of the cloud platform is optimized because the information display mode is used as an object-oriented object of the application, and the management required by the information display mode is not a single item but multiple items and the like; after the operation according to the method, the manager can look up the required information more clearly and quickly and do corresponding operation.

Example 2:

a water service operation management system, comprising:

an acquisition subsystem for acquiring information required for implementing the method as described in embodiment 1, including at least the content included in the acquisition subsystem described in embodiment 1;

a cloud platform connected to the acquisition subsystem and pre-provisioned with a computer program that can be loaded and execute the method as described in example 1.

Example 3:

a computer-readable storage medium storing a computer program capable of being loaded by a processor and executing the method according to embodiment 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A water service operation management method is characterized in that: comprises a sewage treatment process optimization sub-method, which comprises the following steps,

sending the production information and the production plan to a cloud platform; the production information comprises operation information of each device of each link in the factory under various states, monitoring information formed by monitoring the production state and alarm management information formed by setting adaptive alarm facilities and alarm conditions; the production plan comprises a sewage treatment plan;

sending the electromechanical working condition of the sewage treatment facility to a cloud platform;

sending water quality information of the water environment to a cloud platform;

and the cloud platform performs process simulation according to the acquired information, and generates a process optimal adjustment scheme according to a process simulation result, production information and a production plan.

2. The water service operation management method according to claim 1, wherein: before the process tuning optimization scheme is obtained, the operation information of each device is imaged, time parameters are added, the images of the same device in different time periods are compared, and the comparison result formed by comparison is used as the basis of the process tuning optimization.

3. The water service operation management method according to claim 1, wherein: also comprises an operation and maintenance management sub-method, which comprises the following steps,

the method comprises the steps of sending operation and maintenance personnel information of the sewage treatment facility and spare part information of the sewage treatment facility to a cloud platform;

sending the facility inspection plan to a cloud platform;

and the cloud platform generates a work order according to the facility inspection plan, the operation and maintenance personnel information and the spare part information.

4. The water service operation management method according to claim 3, wherein: the operation and maintenance management sub-method further comprises the following steps:

establishing an archive library by the cloud platform;

sending the operation rules of the sewage treatment facilities to a cloud platform and storing the operation rules in a file repository;

sending a maintenance requirement to a cloud platform; calling the adaptive operation rules from the archive according to the maintenance requirements, generating a maintenance plan by combining the work order, and displaying the maintenance plan to form maintenance bulletins;

sending a maintenance result to the cloud platform; and generating a maintenance file according to the maintenance result and the maintenance plan, and storing the maintenance file to a file library.

5. The water service operation management method according to claim 4, wherein: also included is a production fault management sub-method, comprising,

sending a plurality of processing plans of the production faults to a cloud platform and storing the processing plans in an archive;

obtaining an alarm record according to the alarm management information, and calling an adaptive processing plan from the archive according to the alarm record;

and sending the fault processing information to the cloud platform, obtaining an alarm processing record according to the alarm record and the fault processing information, and storing the alarm processing record in the archive.

6. The water service operation management method according to claim 5, wherein: also included is a production management sub-method, comprising,

sending production operation basic information to a cloud platform, and carrying out statistics and analysis to obtain an energy consumption cost and an operation report;

comparing the production plan with the real-time operation report to obtain a comparison result, and taking the comparison result as a production plan adjusting basis;

and making an auxiliary decision according to the energy consumption cost and the process optimization scheme.

7. The water service operation management method according to claim 6, wherein: also included is an assay management sub-method, comprising,

obtaining a water quality report according to the water quality information;

imaging water quality information, adding time parameters to compare water quality graphs at different stages and different time periods to form a water quality comparison result;

and sending the information of the test equipment and the information of the test medicament for water quality detection to perform test management.

8. The water service operation management method according to claim 7, wherein: the method comprises the steps of sending and/or constructing a GIS subsystem to a cloud platform, creating information nodes corresponding to projects at all positions of a GIS graph, storing information of the projects at the information nodes, and enabling all the projects to respectively have corresponding production processes, sewage treatment facilities and water environments.

9. A water service operation management system, comprising:

an acquisition subsystem for acquiring information required to implement the method of any one of claims 1 to 8;

cloud platform connected to an acquisition subsystem and pre-provisioned with a computer program that can be loaded and execute the method of any one of claims 1 to 8.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 8.

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