CN113393178A - Management system for rapid coupling of emergency emission reduction list and emission list of atmospheric pollution source - Google Patents

Management system for rapid coupling of emergency emission reduction list and emission list of atmospheric pollution source Download PDF

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CN113393178A
CN113393178A CN202110945864.0A CN202110945864A CN113393178A CN 113393178 A CN113393178 A CN 113393178A CN 202110945864 A CN202110945864 A CN 202110945864A CN 113393178 A CN113393178 A CN 113393178A
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emission
pollution source
emission reduction
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康思聪
张振涛
庞美玲
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Beijing Qingchuang Meike Environmental Technology Co ltd
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Abstract

The invention relates to a management system for quickly coupling an emergency emission reduction list and an emission list of an atmospheric pollution source, which is provided with an acquisition end, a cloud server, an enterprise emission data processing module and a management end, wherein the acquisition end can periodically acquire or input and edit basic information, emergency emission reduction measures and emission indexes of the pollution source of a plurality of enterprises; the data collected by the collection end is transmitted through a network and stored in a cloud server; the enterprise emission data processing module analyzes and dynamically updates data of the cloud server to generate an atmosphere pollution source emergency emission reduction list and an atmosphere pollution source emission list; the management end is linked to the cloud server and can read and manage the atmosphere pollution source emergency emission reduction list and the atmosphere pollution source emission list of the cloud server. The management system couples the emergency emission reduction measure list with the emission management list from enterprise dimensionality, and provides powerful technical support for accurate pollution treatment, scientific pollution treatment and legal pollution treatment.

Description

Management system for rapid coupling of emergency emission reduction list and emission list of atmospheric pollution source
Technical Field
The invention relates to an environmental protection management system, in particular to a management system for quickly coupling an emergency emission reduction list and an emission list of an atmospheric pollution source.
Background
Atmospheric pollution control, especially the reply of heavily polluted weather, has always been the public very concern, in time make the emergency response prepare, can alleviate the degree of atmospheric pollution to a certain extent, shorten the time of heavily polluted weather. Once the condition of heavy pollution weather is discovered, the system can be effectively organized, quickly react and timely control the pollution degree. If the monitoring and early warning mechanism is not perfect, the atmospheric pollution condition can be caused. In order to further highlight accurate pollution treatment, scientific pollution treatment and law-based pollution treatment, better guarantee the health of the public and actively deal with heavily polluted weather, an emergency emission reduction list of the air pollution source which accords with local actual conditions is compiled in various places, and powerful guarantee is provided for scientific and accurate pollution source management.
The emergency emission reduction list of the atmospheric pollution source comprises enterprise information, the emission amount of various pollutants of each production line, the predicted emission reduction amount of various pollutants at each pollution early warning level and the like. And the emission reduction condition of enterprises under various levels of pollution early warning is recorded in detail from the dimension of the production line.
The air pollution source emission list is an emission data set of various harmful air pollutants emitted by various sources concerning different departments and sectors of a certain area, and comprises enterprise information, industries to which the various sources and pollutant emission conditions of the enterprises belong.
The two types of lists are different in concerned dimension, the atmospheric pollution source emergency emission reduction list concerns the enterprise production line, and the atmospheric pollution source emission list concerns the enterprise pollution discharge node, so that simple matching and combination cannot be achieved.
Disclosure of Invention
The invention provides a management system for quickly coupling an emergency emission reduction list and an emission list of an atmospheric pollution source, which can quickly and scientifically couple enterprise management and control measure information in the emergency emission reduction list of the atmospheric pollution source to the emission list and provide data support for later management and control measure evaluation. The technical scheme is as follows:
the management system for rapidly coupling the emergency emission reduction list and the emission list of the atmospheric pollution source is provided with an acquisition end, a cloud server, an enterprise emission data processing module and a management end, wherein the acquisition end can periodically acquire or input and edit basic information, emergency emission reduction measures and emission indexes of the pollution source of a plurality of enterprises; the data collected by the collection end is transmitted through a network and stored in a cloud server; the enterprise emission data processing module analyzes and dynamically updates data of the cloud server to generate an atmosphere pollution source emergency emission reduction list and an atmosphere pollution source emission list; the management end is linked to the cloud server and can read and manage the atmosphere pollution source emergency emission reduction list and the atmosphere pollution source emission list of the cloud server.
The analysis processing process of the enterprise emission data processing module further comprises the following data coupling steps:
s1: enterprises in the emergency emission reduction list of the atmospheric pollution source are matched with enterprises in the emission list of the atmospheric pollution source through the 'unified social credit code' and the 'enterprise name';
s2: SO is adopted as the emission reduction pollutant in the emergency emission reduction list of the atmospheric pollution source2、NOxAnd VOCsCalculating data;
s3: calculating the emission reduction proportion of the enterprise single pollutant in the emergency emission reduction list of the atmospheric pollution source and the emission reduction proportion of the enterprise single pollutantμThe calculation formula is as follows:
Figure 882039DEST_PATH_IMAGE001
whereinμIs the proportion of the total emission reduction of the enterprise,
Figure 166258DEST_PATH_IMAGE002
is as followsiThe reduced-displacement volume of the strip production line,
Figure 202347DEST_PATH_IMAGE003
is as followsiDischarge capacity of the strip production line;
s4: the emission reduction proportion of the single pollutant of the enterprise is applied to an atmospheric pollution source emission list, and the calculation formula is as follows:
Figure 31763DEST_PATH_IMAGE004
Figure 153303DEST_PATH_IMAGE005
whereinμIs the proportion of the total emission reduction of the enterprise,μ i is as followsiThe emission reduction ratio of each pollution discharge node,
Figure 257525DEST_PATH_IMAGE003
is as followsiThe discharge capacity of each sewage discharge node.
Further, the data collected by the collecting terminal includes: basic information of enterprise, SO2、NOxAnd VOCsDischarge data, volume reduction and collection date.
Further, the management terminal can correct data of the emergency emission reduction list of the atmospheric pollution source and the data of the emission list of the atmospheric pollution source.
Further, the matching priority in step S1 is firstly matched according to the "unified social credit code", and secondly matched according to the "business name", and the businesses that are not matched are not processed.
Further, in step S3, if the single pollutant emission amount of all production lines of an enterprise is 0, the emission reduction ratio of the pollutant of the enterprise at different early warning levels is 100%.
Further, in step S4, the pollution discharge node with the pollutant discharge amount of 0 is selected not to participate in the proportion allocation.
The management system disclosed by the invention realizes the quick coupling of the emergency emission reduction list and the emission list of the atmospheric pollution source, couples the emergency emission reduction measure list (emergency emission reduction list) and the emission management list (emission list) from enterprise dimension, and provides powerful technical support for accurate pollution treatment, scientific pollution treatment and legal pollution treatment.
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FIG. 1 is a schematic diagram of the architecture of the management system of the present invention.
Fig. 2 is a process diagram of the data coupling process of the present invention.
Detailed Description
As shown in fig. 1, the management system for rapidly coupling the emergency emission reduction list and the emission list of the atmospheric pollution source comprises a data acquisition end, a cloud server, an enterprise emission data processing module and a management end, wherein the acquisition end can periodically acquire or input and edit basic information, emergency emission reduction measures and emission indexes of the pollution source of a plurality of enterprises; the data collected by the collection end is transmitted through a network and stored in a cloud server; the enterprise emission data processing module analyzes and dynamically updates data of the cloud server to generate an atmosphere pollution source emergency emission reduction list and an atmosphere pollution source emission list; the management end is linked to the cloud server and can read and manage the atmosphere pollution source emergency emission reduction list and the atmosphere pollution source emission list of the cloud server.
Further, the data collected by the collecting terminal includes: basic information of the enterprise, SO2、NOxAnd VOCsDischarge data and decrement, date of collection.
Further, the management terminal can correct data of the atmosphere pollution source emergency emission reduction list and the atmosphere pollution source emission list and form an update record.
As shown in fig. 2, the analysis process of the enterprise emission data processing module further includes the following data coupling steps:
s1: enterprises in the emergency emission reduction list are matched with enterprises in the emission list through the 'unified social credit code' and the 'enterprise name';
s2: SO is adopted as the emission reduction pollutant in the emergency emission reduction list2,NOxAnd VOCsCalculating data;
s3: calculating the emission reduction ratio of the enterprise single pollutant in the emergency emission reduction list, and calculating the emission reduction ratio of the enterprise single pollutantμThe calculation formula is as follows:
Figure 882542DEST_PATH_IMAGE001
whereinμIs the proportion of the total emission reduction of the enterprise,
Figure 397705DEST_PATH_IMAGE002
is as followsiThe reduced-displacement volume of the strip production line,
Figure 740962DEST_PATH_IMAGE003
is as followsiDischarge capacity of the strip production line;
s4: the emission reduction proportion of the single pollutant of the enterprise is applied to an emission list, and the calculation formula is as follows:
Figure 383296DEST_PATH_IMAGE004
Figure 128398DEST_PATH_IMAGE005
whereinμIs the proportion of the total emission reduction of the enterprise,μ i is as followsiThe emission reduction ratio of each pollution discharge node,
Figure 830775DEST_PATH_IMAGE003
is as followsiThe discharge capacity of each sewage discharge node. Wherein the content of the first and second substances,i>1。
and selecting a pollution discharge node with the pollutant discharge amount of 0 to not participate in proportion distribution.
Certain embodiments of the invention are described below:
1. enterprises in the emergency emission reduction list and enterprises in the emission list are matched through the 'unified social credit code' and the 'enterprise name'.
2. Only SO is considered for emission reduction pollutants in emergency emission reduction list2,NOxAnd VOCs
3. And calculating the emission reduction ratio of the enterprise single pollutant in the emergency emission reduction list. Such as a certain enterprise SO2The total emission is 600 tons, the emission reduction amount during red early warning is 300 tons, and the emission reduction proportion of the enterprise is as follows:
Figure 645016DEST_PATH_IMAGE006
4. and applying the emission reduction proportion of the single pollutant of the enterprise to an emission list. For example, a business may have 3 nodes for pollution discharge, SO2The discharge amount is respectively 100 tons, 200 tons and 300 tons, and the total SO of the enterprise2The emission reduction ratio is 50%, according to the formula:
Figure 91041DEST_PATH_IMAGE007
Figure 690649DEST_PATH_IMAGE008
Figure 563928DEST_PATH_IMAGE009
in which setting is carried out
Figure 616197DEST_PATH_IMAGE010
For enterprise general SO2The emission reduction ratio is 50%, then:
Figure 600334DEST_PATH_IMAGE011
it states that if SO is for the enterprise2When the emission reduction proportion reaches 50%, the emission reduction proportions corresponding to the three production lines are 3/14, 3/7 and 9/14 respectively, and similarly for NOxAnd VOCsThe calculation of (a) is similar. The rapid coupling method and the tool for the emergency emission reduction list and the emission list of the atmospheric pollution source can rapidly and scientifically match enterprise management and control measures in the emergency emission reduction list of the atmospheric pollution source to the emission list through software.
In view of the above, the present invention is only a specific embodiment, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A management system for rapidly coupling an emergency emission reduction list and an emission list of an atmospheric pollution source is characterized by comprising an acquisition end, a cloud server, an enterprise emission data processing module and a management end, wherein the acquisition end can periodically acquire or input and edit basic information, emergency emission reduction measures and emission indexes of the pollution source of a plurality of enterprises; the data collected by the collection end is transmitted through a network and stored in a cloud server; the enterprise emission data processing module analyzes and dynamically updates data of the cloud server to generate an atmosphere pollution source emergency emission reduction list and an atmosphere pollution source emission list; the management end is linked to the cloud server and can read and manage an atmosphere pollution source emergency emission reduction list and an atmosphere pollution source emission list of the cloud server;
the analysis processing process of the enterprise emission data processing module further comprises the following data coupling steps:
s1: enterprises in the emergency emission reduction list of the atmospheric pollution source are matched with enterprises in the emission list of the atmospheric pollution source through the 'unified social credit code' and the 'enterprise name';
s2: SO is adopted as the emission reduction pollutant in the emergency emission reduction list of the atmospheric pollution source2、NOxAnd VOCsCalculating data;
s3: calculating the emission reduction proportion of the enterprise single pollutant in the emergency emission reduction list by the atmospheric pollution source, and calculating the emission reduction proportion of the enterprise single pollutantμThe calculation formula is as follows:
Figure 836065DEST_PATH_IMAGE001
whereinμIs the proportion of the total emission reduction of the enterprise,
Figure 880244DEST_PATH_IMAGE002
is as followsiThe reduced-displacement volume of the strip production line,
Figure 419810DEST_PATH_IMAGE003
is as followsiDischarge capacity of the strip production line;
s4: the emission reduction proportion of the single pollutant of the enterprise is applied to an atmospheric pollution source emission list, and the calculation formula is as follows:
Figure 207638DEST_PATH_IMAGE004
Figure 781838DEST_PATH_IMAGE005
whereinμIs the proportion of the total emission reduction of the enterprise,μ i is as followsiThe emission reduction ratio of each pollution discharge node,
Figure 731340DEST_PATH_IMAGE003
is as followsiThe discharge capacity of each sewage discharge node.
2. The management system for the emergency emission reduction list and the emission list of the rapidly-coupled atmospheric pollution source according to claim 1, wherein the data collected by the collection terminal comprises: basic information of enterprise, SO2、NOxAnd VOCsDischarge data, volume reduction and collection date.
3. The system for managing the emergency emission reduction list and the emission list of the rapidly-coupled atmospheric pollution source as claimed in claim 1, wherein the management terminal can correct the data of the emergency emission reduction list and the emission list of the atmospheric pollution source and form an update record.
4. The management system for the emergency emission reduction list and the emission list of the rapidly-coupled atmospheric pollution source according to claim 1, wherein: the matching priority in step S1 is firstly matched according to the "unified social credit code", and secondly matched according to the "enterprise name", and the enterprises that cannot be matched do not process.
5. The management system for the emergency emission reduction list and the emission list of the rapidly-coupled atmospheric pollution source according to claim 1, wherein: in step S3, if the single pollutant emission amount of all production lines of an enterprise is 0, the emission reduction ratio of the pollutant of the enterprise at different early warning levels is 100%.
6. The management system for the emergency emission reduction list and the emission list of the rapidly-coupled atmospheric pollution source according to claim 1, wherein: in step S4, the sewage node with the pollutant discharge amount of 0 is selected not to participate in the proportion allocation.
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