CN218413249U - Dynamic monitoring system for pollution source treatment facility - Google Patents

Abstract

The utility model discloses a pollution sources administers facility dynamic monitoring system, including collection module, analysis module, monitoring module and communication management gateway, collection module is by electric information acquisition module, water consumption information acquisition module, core technology index collection module, on-line monitoring module and collection module management center constitute, the built-in human-computer interaction interface of monitoring module, the printer, computer and control center, control center and human-computer interaction interface, printer and computer both-way communication are connected respectively, monitoring module passes through control center and communication management gateway communication connection, communication management gateway leaves the data output interface, through the facility water, the monitoring of power consumption and core technology index, realize the overall process control of pollution administration facility operation, can provide effectual scientific skill for relevant departments developments master pollution sources administers facility operational aspect and unusual early warning.

Description

Dynamic monitoring system for pollution source treatment facility

Technical Field

The utility model belongs to the pollution sources administers the control field, concretely relates to pollution sources administers facility dynamic monitoring system.

Background

In the pollution source treatment process, environmental supervision of a pollution discharge unit is an important link for improving the quality of ecological environment, the traditional pollution source emission monitoring method is monitoring by using a pollution source online monitoring facility, but the traditional mode has the following defects: on one hand, the fault of the on-line monitoring equipment can miss detection, and on the other hand, the on-line monitoring mode is easy to have potential safety hazards such as data falsification.

The method aims to realize the whole-process dynamic monitoring of the operation of the pollution treatment facility through monitoring of facility water use, electricity consumption and core process indexes, provide effective scientific support for related departments to dynamically master the operation condition and abnormal early warning condition of the pollution source treatment facility, monitor the operation of the environment-friendly pollution treatment facility by using the whole-process monitoring method, and play the role of the pollution treatment facility to the maximum extent.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pollution sources administers facility dynamic monitoring system to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a pollution source abatement facility dynamic monitoring system comprising: the system comprises an acquisition module, an analysis module, a monitoring module and a communication management gateway, wherein the acquisition module consists of an electrical information acquisition module, a water consumption information acquisition module, a core process index acquisition module, an online monitoring module and an acquisition module management center, the electrical information acquisition module, the water consumption information acquisition module, the core process index acquisition module, the online monitoring module and the acquisition module management center are respectively in communication connection with the acquisition module management center, and different modules are independently detected.

The electric information acquisition module is to the blowdown unit production facility, the power consumption of pollution control facility and on-line monitoring, load, the condition such as unusual power consumption carries out real-time dynamic monitoring, the data of collection are uploaded to ecological environment department's supervision platform through collection module management center after the analysis statistics, electric information acquisition module mainly realizes through intelligent power consumption terminal, intelligent power consumption terminal is the professional equipment that is used for electric circuit parameter monitoring, the collection to each consumer's of site end electric parameter, all data accessible loRa or RS485 communication interface upload to the communication management gateway on communication layer, generally adopt card rail mounting means design and opening mutual-inductor, under the condition that does not influence the power consumption, install and debug.

The water consumption information acquisition module is used for dynamically monitoring the conditions of water consumption, load, abnormal water consumption and the like of production facilities, pollution treatment facilities and on-line monitoring of sewage disposal units in real time, and the acquired data is analyzed, counted and uploaded to a supervision platform of an ecological environment department through an acquisition module management center.

The core process parameter acquisition module is used for dynamically monitoring the core parameter conditions of production facilities and pollution prevention facilities of a sewage disposal unit in real time, acquired data are analyzed and counted and then uploaded to a supervision platform of an ecological environment department through an acquisition module management center, the core process parameter acquisition module selects effective monitoring facilities and parameters according to the conditions of the production and treatment facilities of the sewage disposal unit, meanwhile, acquisition parameters can be increased according to the requirements of the sewage disposal unit (related parameters are acquired by taking the existing equipment of the sewage disposal unit as the standard), and under the condition that field conditions allow, the production line or production key equipment corresponding to the treatment facilities are monitored at the same time, so that the production state of the sewage disposal unit is objectively reflected.

The analysis module is used for carrying out statistical analysis and comparison on the collected power consumption, water consumption, core process parameter data and on-line monitoring data, and transmitting the data after processing and analysis to the monitoring module.

In the system, an acquisition module is in communication connection with an analysis module through an acquisition module management center, the analysis module is in communication connection with a monitoring module, a man-machine interaction interface, a printer, a computer and a control center are arranged in the monitoring module, the control center is in bidirectional communication connection with the man-machine interaction interface, the printer and the computer respectively, the monitoring module is in communication connection with a communication management gateway through the control center, a data output interface is reserved on the communication management gateway, and the output interface can be accessed to a supervision platform according to the requirements of supervision departments.

Preferably, the acquisition module and the analysis module, the analysis module and the monitoring module, and the monitoring module and the communication module communicate through a bus.

Preferably, the bus is LoRa communication or RS485 bus communication.

The utility model discloses a technological effect and advantage:

the system can analyze and verify the working condition of the related working condition information, can efficiently monitor the facility operation in the whole process of enterprise production control in real time, know the condition of each working section in the process of enterprise production control and overcome the restriction of various factors such as time, place, personnel and the like;

the system provides service and optimized operation guidance for the operation of the pollution treatment facility, and based on the analysis and mining of a large amount of process and result data, the system can evaluate the operation condition of the pollution treatment facility, provide guidance for the optimized operation of the facility and serve enterprises;

the whole production process of the sewage disposal unit is uniformly controlled, the pollution treatment facility of the sewage disposal unit is stopped, broken down, overhauled or has other reasons, meanwhile, the supervision personnel can monitor the production of enterprises and the operation condition of the pollution treatment facility in real time through the system, once the operation parameters are abnormal, the supervision personnel can see the system alarm and process and issue supervision tasks at the first time, and the supervision timeliness is achieved.

Drawings

Fig. 1 is an overall structure diagram of the present invention.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

In order to meet the actual use requirement, the dynamic monitoring system for the pollution source treatment facility comprises an acquisition module, an analysis module, a monitoring module and a communication management gateway, wherein the acquisition module comprises an electric information acquisition module, a water consumption information acquisition module, a core process index acquisition module, an online monitoring module and an acquisition module management center, the electric information acquisition module, the water consumption information acquisition module, the core process index acquisition module, the online monitoring module and the acquisition module management center are respectively in communication connection, the different modules are independently detected, the acquisition module is in communication connection with the analysis module through the acquisition module management center, the analysis module is in communication connection with the monitoring module, a man-machine interaction interface, a printer, a computer and a control center are arranged in the monitoring module, the control center is in two-way communication connection with the man-machine interaction interface, the printer and the computer respectively, the monitoring module is in communication connection with the communication management gateway through the control center, and the communication management gateway is provided with a data output interface.

In an embodiment, the collection module and the analysis module, the analysis module and the monitoring module, and the monitoring module and the communication module are preferably in communication with each other in a bus manner.

Preferably, the bus is a LoRa bus or an RS485 bus.

The working principle is that real-time collection of power consumption information is achieved through an intelligent power consumption terminal, conditions of water consumption, load, abnormal water and the like of a production facility of a sewage disposal unit, a pollution treatment facility and on-line monitoring are dynamically monitored in real time through a water consumption information collection module, core parameter conditions of the production facility of the sewage disposal unit and a pollution prevention facility are dynamically monitored in real time through a core process collection module, real-time monitoring of pollution source emission is achieved through an on-line monitoring module, detected data are collected to a collection module management center, the collection module management center collects the data and transmits the data to an analysis module through a bus to analyze and process the data, the processed data are transmitted to a monitoring module through the bus, the monitoring module can set and output the data through a built-in control center, the set and output data are transmitted to a communication management gateway through the bus, the communication management gateway transmits the data to an environment-friendly monitoring center through a data interface, and the whole dynamic monitoring process is achieved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (3)

1. A pollution source treatment facility dynamic monitoring system is characterized by comprising: collection module, analysis module, monitoring module and communication management gateway, collection module constitute by electric information acquisition module, water consumption information acquisition module, core technology index acquisition module, on-line monitoring module and collection module management center, electric information acquisition module, water consumption information acquisition module, core technology index acquisition module, on-line monitoring and module are connected with collection module management center communication respectively, and independent detection between the different modules, collection module passes through collection module management center and is connected with analysis module communication, analysis module and monitoring module communication are connected, built-in man-machine interaction interface, printer, computer and control center of monitoring module, control center and man-machine interaction interface, printer and computer are two-way communication connection respectively, monitoring module passes through control center and is connected with communication management gateway communication, communication management gateway leaves the data output interface.

2. The dynamic monitoring system for pollution source treatment facilities according to claim 1, wherein the collection module and the analysis module, the analysis module and the monitoring module, and the monitoring module and the communication module communicate through a bus.

3. The dynamic monitoring system for pollution source treatment facilities according to claim 2, wherein the bus is LoRa communication or RS485 bus communication.

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