CN115511244A

CN115511244A - Method, system, equipment and medium for managing whole life cycle information of fixed pollution source

Info

Publication number: CN115511244A
Application number: CN202210355876.2A
Authority: CN
Inventors: 毛庆国; 尹�民; 游勇; 费新勇; 彭胜巍; 刘琳琳; 黄为炜; 蔡昌才; 张德辉; 何燕飞; 张冬华; 伍城
Original assignee: Shenzhen Ecological Environment Intelligent Control Center
Current assignee: Shenzhen Ecological Environment Intelligent Control Center
Priority date: 2022-04-06
Filing date: 2022-04-06
Publication date: 2022-12-23
Anticipated expiration: 2042-04-06
Also published as: CN115511244B

Abstract

The invention provides a full life cycle information management method, a system, equipment and a medium for a fixed pollution source. The method comprises the following steps: acquiring fixed pollution source management information, generating pollution source quantity distribution condition information according to the fixed pollution source management information, and displaying the pollution source quantity distribution condition information in two forms of point location distribution/area aggregation on a pollution source management map; acquiring a selection statistical instruction input by a user, screening and counting fixed pollution source information according to the statistical instruction to acquire a pollution source screening statistical result, and displaying the pollution source screening statistical result on a pollution source management map in two forms of point location distribution/area aggregation; acquiring an emission statistical instruction input by a user, carrying out statistics on fixed pollution source information according to the emission statistical instruction to acquire a pollution source emission statistical result, and displaying the pollution source emission statistical result on a pollution source management map in two forms of point location distribution/area aggregation. The invention can improve the supervision level and the working efficiency of the fixed pollution source.

Description

Method, system, equipment and medium for managing whole life cycle information of fixed pollution source

Technical Field

The invention relates to the technical field of information management, in particular to a full-life-cycle information management method, a system, equipment and a storage medium for a fixed pollution source.

Background

With the development of science and technology, the increase of population and the improvement of living standard of people, the resource consumption is gradually increased at the same time, and the emission of pollutants is continuously increased. Due to the lack of a corresponding fixed pollution source data management system, the fixed pollution sources are not clear in bottom, and a data overall planning function is lacked, so that effective support cannot be formed on big data application, big data decision and the like.

Disclosure of Invention

The invention aims to solve the technical problems that the fixed pollution sources are not clear in bottom and lack of a data overall planning function, and provides a full-life-cycle information management method, a system, equipment and a storage medium of the fixed pollution sources aiming at the defects in the prior art, so that the supervision level and the working efficiency of the fixed pollution sources are improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the full life cycle information management method for the fixed pollution source comprises the following steps:

acquiring fixed pollution source management information, and constructing a fixed pollution source management database, wherein the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information;

generating pollution source quantity distribution condition information according to the fixed pollution source management information, and displaying the pollution source quantity distribution condition information in a point location distribution/area aggregation mode on a pollution source management map;

acquiring a selection statistical instruction input by a user, screening and counting the fixed pollution source information according to the statistical instruction to acquire a pollution source screening statistical result, and displaying the pollution source screening statistical result on a pollution source management map in a point location distribution/area aggregation mode;

acquiring an emission statistical instruction input by a user, performing statistics on the fixed pollution source information according to the emission statistical instruction to acquire a pollution source emission statistical result, and displaying the pollution source emission statistical result on the pollution source management map in a point location distribution/area aggregation mode;

the selection statistical instruction comprises at least one of a pollution source quantity statistical instruction, a pollution source region statistical instruction, a pollution emission type statistical instruction, an industry statistical instruction, a treatment facility statistical instruction and an emission permission issuing statistical instruction;

the emission statistical instructions include: at least one of an administrative region selection instruction, a statistical duration instruction, a pollutant emission statistical instruction, a pollutant emission region statistical instruction, a pollutant emission industry statistical instruction and a pollutant discharge household statistical instruction.

The technical scheme adopted by the invention for solving the technical problem is as follows: there is provided a full life cycle information management system of a stationary pollution source, comprising:

the system comprises an acquisition module, a data processing module and a data processing module, wherein the acquisition module is used for acquiring fixed pollution source management information and constructing a fixed pollution source management database, the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information;

the distribution module is used for generating pollution source quantity distribution condition information according to the fixed pollution source management information and displaying the pollution source quantity distribution condition information in a point location distribution/area aggregation mode on a pollution source management map;

the statistical module is used for acquiring a statistical instruction input by a user, performing statistics on the fixed pollution source information according to the statistical instruction to acquire a pollution source statistical result, and displaying the pollution source statistical result on a pollution source management map in a point location distribution/area aggregation mode;

the emission module is used for acquiring an emission statistical instruction input by a user, counting the fixed pollution source information according to the emission statistical instruction to acquire a pollution source emission statistical result, and displaying the pollution source emission statistical result on the pollution source management map in a point location distribution/area aggregation mode;

the statistical instruction comprises at least one of a pollution source quantity statistical instruction, a pollution source region statistical instruction, a pollution emission type statistical instruction, an industry statistical instruction, a treatment facility statistical instruction and an emission permission issuing statistical instruction;

The technical scheme adopted by the invention for solving the technical problems is as follows: there is provided a storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of the method as described above.

The technical scheme adopted by the invention for solving the technical problems is as follows: there is provided a computer device comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of the method as described above.

The method has the advantages that compared with the prior art, the method obtains the selection statistical instruction input by the user by obtaining the fixed pollution source management information, screens and counts the fixed pollution source information according to the statistical instruction to obtain the pollution source screening statistical result, displays the pollution source screening statistical result in a point location distribution/area aggregation mode on the pollution source management map to obtain the emission statistical instruction input by the user, obtains the pollution source emission statistical result according to the emission statistical instruction by counting the fixed pollution source information, displays the pollution source emission statistical result in a point location distribution/area aggregation mode on the pollution source management map, can display the statistical information of the fixed pollution source according to the individual requirement of the user, and can directly obtain the required statistical result through simple operation by the user to effectively improve the fixed pollution source supervision level and the working efficiency.

Drawings

The invention will be further described with reference to the following drawings and examples, in which:

FIG. 1 is a schematic flow chart of a first embodiment of a method for managing full-life-cycle information of a fixed pollution source according to the present invention;

FIG. 2 is a pollution source management map showing the statistics of pollution source screening in the form of regional aggregation in an embodiment of the present invention;

FIG. 3 is a pollution source management map showing the statistics of pollution source screening in point location distribution according to an embodiment of the present invention;

fig. 4 is a pollution source management map showing the amount of pollution discharged in a point location distribution manner in an embodiment of the present invention;

FIG. 5 is a map of pollution source management showing the amount of pollution discharged in a regional aggregation manner in an embodiment of the present invention;

FIG. 6 is a flowchart illustrating a method for managing full-life cycle information of a fixed pollutant according to a second embodiment of the present invention;

FIG. 7 is a flowchart illustrating a method for managing full-life cycle information of a fixed pollutant according to a third embodiment of the present invention;

FIG. 8 is a schematic diagram of a tag query interface in an embodiment provided by the invention;

FIG. 9 is a schematic diagram of a page showing a fixed contamination source with a target tag in an embodiment provided by the present invention;

fig. 10 is a schematic page view of the pollution discharge enterprise information in an embodiment of the present invention;

FIG. 11 is a schematic diagram of a page of basic information of an enterprise in an embodiment provided by the invention;

FIG. 12 is a schematic illustration of a page showing a list of exhaust ports in an embodiment of the present invention;

FIG. 13 is a schematic diagram of a page of an exhaust stack list showing specific information of an exhaust stack in an embodiment of the present invention;

FIG. 14 is a schematic diagram of a page of a waste drain list showing details of a waste drain in an embodiment of the present invention;

FIG. 15 is a schematic illustration of a page showing the unorganized emission of exhaust gases in an embodiment provided by the invention;

FIG. 16 is a schematic illustration of a waste water discharge flow scheme in an embodiment of the present invention;

FIG. 17 is a schematic illustration of a page of an exhaust pollution diffusion model according to an embodiment of the present invention;

FIG. 18 is a schematic view of a page showing products and capacity according to an embodiment of the present invention;

FIG. 19 is a schematic illustration of a page of a list of materials in an embodiment of the invention;

FIG. 20 is a schematic diagram of a page of a list of excipients in an embodiment provided by the invention;

FIG. 21 is a schematic page view of a fuel listing in one embodiment provided by the present invention;

FIG. 22 is a schematic diagram of a page showing production facility information in an embodiment provided by the invention;

FIG. 23 is a schematic illustration of a page showing exhaust treatment facility information in an embodiment of the invention;

FIG. 24 is a schematic view of a page showing wastewater treatment facility information in an embodiment of the invention;

FIG. 25 is a schematic diagram of a page showing an audit enforcement record in an embodiment provided by the present invention;

FIG. 26 is a schematic diagram of a page showing complaint records in an embodiment of the invention;

FIG. 27 is a schematic representation of a page showing administrative penalty records in an embodiment provided by the present invention;

FIG. 28 is a schematic diagram of a page showing trends in monitoring data in an embodiment of the invention;

FIG. 29 is a schematic diagram of a page showing a monitoring data list in an embodiment of the invention;

FIG. 30 is a schematic illustration of a page showing a production facility operating ledger in an embodiment provided by the present invention;

FIG. 31 is a schematic illustration of a page showing details of a production facility running ledger in an embodiment provided by the present invention;

FIG. 32 is a schematic illustration of a page showing an exhaust treatment facility in an embodiment of the present invention;

FIG. 33 is a schematic illustration of a page showing a wastewater treatment facility in an embodiment of the invention;

FIG. 34 is a schematic view of a pollution discharge law scatter plot in an embodiment of the present invention;

FIG. 35 is a schematic diagram of an industry annual output value-emission scatter plot in an embodiment of the present disclosure

FIG. 36 is a flowchart illustrating a fourth embodiment of a method for managing full-life cycle information of a stationary pollution source according to the present invention;

FIG. 37 is a schematic diagram of a page showing enterprise summary information in an embodiment of the present invention;

FIG. 38 is a display page of contamination source summary information in an embodiment provided by the present invention;

FIG. 39 is a display page of a base file of a contamination source in an embodiment of the present invention;

fig. 40 is a display page of the drainage license summary information in an embodiment provided by the present invention;

FIG. 41 is a display page of pollutant discharge information in an embodiment of the present invention

FIG. 42 is a display page of pollution monitoring information in an embodiment of the present invention;

FIG. 43 is a display page of pollution monitor information in an embodiment of the present invention

FIG. 44 is a schematic flow chart diagram illustrating a fifth embodiment of a method for managing full-life cycle information of a fixed pollution source according to the present invention;

FIG. 45 is a schematic diagram of a page showing a target statistic for an industry statistics dimension in an embodiment provided by the present invention;

FIG. 46 is a schematic diagram illustrating an embodiment of a life-cycle information management system for a stationary pollution source according to the present invention;

FIG. 47 is a schematic block diagram illustrating one embodiment of a computer device;

fig. 48 is a schematic structural diagram of an embodiment of a storage medium provided in the present 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a full life cycle information management method for a fixed pollution source according to a first embodiment of the present invention. The full life cycle information management method of the fixed pollution source provided by the invention comprises the following steps:

s101: acquiring fixed pollution source management information, and constructing a fixed pollution source management database, wherein the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information.

In a specific implementation scenario, fixed pollution source management information is obtained, where the fixed pollution source management information includes pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information includes at least one of enterprise basic information, pollution discharge license information, construction project information, production management information, emission and emission standard information, supervision information, and monitoring information of an enterprise having a fixed pollution source or an enterprise having a pollution discharge requirement. The basic information of the enterprise comprises enterprise position information, industry information of the enterprise, enterprise certificate information, fixed pollution source codes of the enterprise and the like. The fixed pollution source information includes a place where the fixed pollution source is located (for example, an actual place where the fixed pollution source is located and/or a place of a pollution discharge enterprise to which the fixed pollution source belongs), and level information of the fixed pollution source (including a general pollution source and a heavy pollution source) can be set for each fixed pollution source by a superior supervisory authority, and a level can be set for each fixed pollution source according to intelligence such as the type, the propagation strength, the ecological destruction strength, the degree of harm to a human body, the discharge amount, the discharge efficiency, the disposable degradable cost and the like of harmful substances discharged by the fixed pollution source. The acquired fixed pollution source management information is sorted and counted, a fixed pollution source management database is established, a unique identification code is set for each fixed pollution source, and the fixed pollution source management information and the corresponding fixed pollution source information are correspondingly stored in the fixed pollution source management database, so that the fixed pollution source information can be conveniently inquired and managed subsequently, and the final investigation result is prevented from being influenced due to mistakes, omissions or repetition.

S102: and generating pollution source quantity distribution condition information according to the fixed pollution source management information, and displaying the pollution source quantity distribution condition information in a point location distribution/area aggregation mode on a pollution source management map.

In a specific implementation scenario, pollution source quantity distribution condition information is generated according to fixed pollution source management information, and the pollution source quantity distribution condition information is displayed on a pollution source management map in two forms of point location distribution/area aggregation.

The map of the pollution source management map is a map with administrative divisions and division names, for example, a map of a city, a map of a county, or a map of a district. The pollution source management map can be zoomed in or zoomed out through dragging or mouse wheel rolling operation. The zoom-in or zoom-out operation affects the coordinate point size in the form of an aggregation level of map areas (i.e., aggregation to county and city areas or aggregation to streets) and a point location distribution.

S103: the method comprises the steps of obtaining a selection statistical instruction input by a user, screening and counting fixed pollution source information according to the statistical instruction to obtain a pollution source screening statistical result, and displaying the pollution source screening statistical result on a pollution source management map in a point location distribution/area aggregation mode.

In a specific implementation scenario, aiming at the fact that a global statistical result may not meet the personalized requirements of a user, the user may input a selection statistical instruction, filter and count fixed pollution source information according to the selection statistical instruction to obtain a pollution source statistical result, and display the pollution source statistical result in two forms of point location distribution/area aggregation on a pollution source management map.

Referring to fig. 2 and fig. 3 in combination, fig. 2 is a pollution source management map showing the statistical results of pollution source screening in the form of regional aggregation according to an embodiment of the present invention. Fig. 3 is a pollution source management map showing a pollution source screening statistical result in a point location distribution form in an embodiment of the present invention. And when the pollution source screening statistical result is obtained through point location distribution display, performing coordinate point placement on the base map of the pollution source management map according to the obtained fixed pollution source information. As the map is enlarged and reduced, the coordinate points have corresponding size state changes. When there is a portion where the dots overlap, the color becomes darker (for example, 1 dot is a reference color, 2 dot overlap portions are

reference colors

2,3 dot overlap portions are reference colors 3, and so on). For example, a city has A, B, C3 pollution discharge enterprises, where enterprise a has 3 fixed pollution sources, enterprise B has 5 fixed pollution sources, and enterprise C has 7 fixed pollution sources, the point locations at enterprise a are the lightest in color, the point locations at enterprise B are the darker in color, and the point locations at enterprise C are the darkest in color.

When the pollution source screening statistical results are displayed in a regional aggregation mode, according to the scaling of the current pollution source management map, a corresponding aggregation level (i.e., aggregation to county and city regions or aggregation to streets) is obtained, and the number of fixed pollution sources of each aggregation unit (e.g., each region, each county, or each street) corresponding to the aggregation level is obtained. If the current pollution source management map is the size of a whole city map, displaying the aggregation quantity of city areas of each county; and if the current pollution source management map is the size of the map below the region or the region level, displaying the aggregation number of the streets. And identifying points of the area corresponding to the number of the fixed pollution sources of each polymerization unit at the position corresponding to each polymerization unit. If a polymerization unit has a larger number of fixed pollution sources, the area of the corresponding point on the position is larger.

As shown in fig. 3, on the display page of the pollution source management map, the user can select and input a statistical selection instruction by selecting and inputting in drop-down selection boxes such as "belonging area", "belonging industry", "pollution type", "supervision level", and the like, and the fixed pollution source management information is screened and counted according to the statistical selection instruction. Shown in FIG. 3 is the result of the statistics of the screening of the heavy point pollution sources in the wastewater release type of the food processing industry in Shenzhen Shentian.

The selection statistical instruction comprises a pollution source region selection statistical instruction, a user can select an administrative region through the pollution source region selection statistical instruction, for example, selection can be performed according to an aggregation level supported by fixed pollution source management information, for example, a city, a region and a street are selected, then a base map of a pollution source management map is a map of the selected administrative region or a map range automatically positioned to the selected administrative region is selected, and the boundary of the selected administrative region is highlighted. The pollution source quantity distribution information only displays fixed pollution source management information corresponding to the selected administrative region. The number of pollution sources of each polymerization unit can be obtained and displayed on a page through a histogram. For example, as shown in fig. 2 or fig. 3, the administrative regions shown in fig. 2 and fig. 3 are the results of the pollution source screening statistics of shenzhen city. The aggregated units are the various zones (e.g., southern mountain, baean, futian, etc.) whose number of fixed pollution sources are shown in a histogram on the page.

The selection statistic instruction also comprises a pollution source quantity statistic instruction, the total number of fixed pollution sources, the number of common pollution sources and the number of key pollution sources can be displayed on a page, and a user can feel more intuitively through numbers.

And selecting a statistical instruction, namely a pollutant discharge type statistical instruction, performing statistics on the types of the fixed pollution sources, and displaying the number or the proportion of the pollution sources of each type on a page through a ring diagram.

The selection statistic instruction further comprises an industry statistic instruction which can be used for counting the number of the fixed pollution sources of each industry, and the fixed pollution sources are displayed on a page through a ring diagram.

The selection statistical instruction further comprises a management facility statistical instruction, the number of the currently selected areas of the management facilities is counted, the management facilities comprise a refuse landfill plant, a refuse incineration plant, a water quality purification plant and a sludge treatment plant, and the management facilities are visually displayed on the page through numbers.

The selection statistical instruction further comprises a discharge license issuing statistical instruction, the number of discharge license issuing certificates of the discharge enterprises of all industries can be counted, and the discharge license issuing certificates are displayed on a page through a histogram.

In other implementation scenarios, the display manner of the pollutant source screening statistical result corresponding to the selection statistical instruction is not limited to the display manner shown in fig. 2 or fig. 3, and is not limited to the selection in the display manner, and may be a pie chart, a line chart, a percentage display, and the like, which is not limited herein.

S104: acquiring an emission statistical instruction input by a user, carrying out statistics on fixed pollution source information according to the emission statistical instruction to acquire a pollution source emission statistical result, and displaying the pollution source emission statistical result on a pollution source management map in two forms of point location distribution/area aggregation.

In a specific implementation scenario, the fixed pollutant source information includes emission characteristic information of each fixed pollutant source, such as emission type of the emission (e.g., wastewater, exhaust gas, etc.), pollutant type (each emission type may correspond to a plurality of different pollutants, e.g., the fixed pollutant source is a pollution source for emission of harmful wastewater, and the pollutants included in the harmful wastewater may be various, such as COD, ammonia nitrogen), emission time zone, emission amount of various pollutants per day/week/month/year, emission location, and so on. And counting the fixed pollution source information according to the emission counting instruction input by the user to obtain a pollution source emission counting result. For example, the amount of emissions of one or several types of stationary pollution sources in a certain area over a period of time (e.g., a certain day, a certain month, a certain year) may be captured.

The emission statistical instruction comprises an administrative region selection instruction, the administrative region selection instruction is used for selecting and counting a position range of emission of the fixed pollution source, and a corresponding aggregation level of the administrative region selection instruction can be designed according to current user requirements, for example, the emission of the fixed pollution source in Shenzhen city whole city is counted, or the emission of the fixed pollution source in Shenzhen city Baoan district is counted. The selection can be performed according to the aggregation level supported by the fixed pollution source management information, for example, a city, a district, and a street are selected, and then the base map of the pollution source management map is the map of the selected administrative area or the map range automatically positioned to the selected administrative area, so as to highlight the selected administrative area boundary.

The emission statistical instruction may further include a statistical time length instruction, the statistical time length instruction is used for indicating a time range for counting the emission amount of the fixed pollution source, and the emission amount of the fixed pollution source in a specific month or a specific year can be checked. The fixed pollution source information in the fixed pollution source management information can be sorted and counted in advance to obtain the fixed pollution source emission amount of each year and each month in the fixed pollution source information acquisition time, and an emission amount time axis is constructed according to the fixed pollution source emission amount of each year and each month. When the user does not specify to specifically view the fixed pollutant emission amount of a month or a year, the fixed pollutant emission amount of the month or the year is displayed by default. For example, the user can select the currently displayed statistical duration to be in a month unit through the statistical duration instruction, the emission amount of the fixed pollution source in the current month is displayed by default, an adjustable time axis is displayed at the same time, the time axis is a time scale of 12 months before the current month, and the user can select the emission amount of the fixed pollution source of the month to be specifically checked through the time control. For another example, the user can select the currently displayed statistical duration to take the year as a unit through the statistical duration instruction, the emission amount of the fixed pollution source in the current year is displayed by default, an adjustable time axis is displayed at the same time, the time axis is a time scale of 5 years before the current month, and the user can select the emission amount of the fixed pollution source in the specific year to be checked through the time control.

The emission statistical instruction can also comprise a pollutant emission statistical instruction, the pollutant emission statistical instruction is used for indicating the statistical emission of pollutants and the same ratio, the pollutants (including COD, ammonia nitrogen, SO2, NOx, particulate matters and VOCs) discharged by one or more specific fixed pollution sources can be appointed to be checked, and the emission of the fixed pollution sources in the current year/month and the emission of the fixed pollution sources in the same ratio as the emission of the fixed pollution sources in the previous year/month can also be counted. If the user does not select a specific pollutant, the total pollutant emission and the proportion can be displayed. If the user selects a specific pollutant, the amount and the proportion of the pollutant selected by the user are displayed.

The emission statistical instructions can also comprise pollutant emission region statistical instructions, the pollutant emission region statistical instructions can be used for counting the pollutant emission amount of a lower-level region of the current aggregation level, and each pollutant (including COD, ammonia nitrogen, SO2, NOx, particulate matters and VOC) can be displayed in turn or displayed according to pollutants selected by a user. For example, when the uppermost layer of the current aggregation level is a city, statistics on pollutant emission amount of each city and county district is performed, and when the uppermost layer of the current aggregation level is a certain district, statistics on pollutant emission amount of each street in the district is performed.

The emission statistical instructions can also comprise pollutant emission industry statistical instructions, and the pollutant emission industry statistical instructions are used for instructing and counting the first several other industry emission conditions of a certain pollutant, and each main pollutant (including COD, ammonia nitrogen, SO2, NOx, particulate matters and VOC) is displayed in turn or displayed according to the pollutant selected by a user.

The emission statistical instruction can also comprise a pollution discharge account statistical instruction, wherein the pollution discharge account statistical instruction is used for instructing a plurality of enterprises in front of a pollution discharge account for counting one or more pollutants, and the pollution discharge account of each pollutant is displayed in turn or displayed according to pollutants selected by a user.

Referring to fig. 4 and 5 in combination, fig. 4 is a pollution source management map showing pollution emission in a point distribution form according to an embodiment of the present invention, and fig. 5 is a pollution source management map showing pollution emission in a regional aggregation form according to an embodiment of the present invention.

When the pollution discharge amount is displayed in a point location distribution mode, coordinates and discharge amount of the fixed pollution source screened and counted according to the discharge counting instruction are obtained, points are located on a pollution source management map according to the coordinates, and the corresponding discharge amount of the fixed pollution source is displayed in a histogram.

When the pollutant emission statistical results screened and counted according to the emission statistical instructions are displayed in a regional aggregation mode, the corresponding aggregation levels (aggregation to county and city areas or aggregation to streets) are obtained according to the scaling of the current pollution source management map, the emission amount of the fixed pollutant of each aggregation unit (such as each district, each county or each street) corresponding to the aggregation levels is obtained, and the emission amount is displayed in a bar graph mode. If the current pollution source management map is the size of a whole city map, displaying the aggregation quantity of city areas of each county; and if the current pollution source management map is the size of the map below the region or the region level, displaying the aggregation number of the streets.

The user may choose to display the total pollutant emissions, including the wastewater pollution equivalent, the exhaust pollution equivalent, and/or the pollutants (e.g., COD, ammonia nitrogen, NOx, SO2, VOCs, particulate matter) that the user chooses to display. The user may also choose to display the amount of pollutant emissions for a given emission type. When the discharge type is wastewater, only the discharge amount related to the wastewater is displayed, including the wastewater pollution equivalent + the wastewater pollutants (such as COD, ammonia nitrogen) selected and displayed by the user. When the emission type is exhaust, only exhaust-related options are presented, including exhaust pollution equivalent + user-selected exhaust pollutants (e.g., SO2, NOx, VOCs, particulate matter) presented.

If the emission equivalent of a certain emission type is selected, the histogram shows not the emission equivalent of a pollutant but the emission of a region containing a pollution factor of the pollution equivalent in a plurality of histograms. If the element selects the equivalent amount of wastewater pollution, the discharge amount of wastewater factors such as COD and ammonia nitrogen in each polymerization unit or each point position is displayed. The bar chart in fig. 4 shows the amount of the various pollutants discharged, and the bar chart in fig. 5 shows the amount of the two discharge modes (exhaust gas and waste water).

As shown in fig. 4, on the display page of the pollution source management map, the user can select and input the emission statistical instruction in the drop-down selection boxes of "belonging area", "belonging industry", "pollution type", "supervision level", and the like, and the fixed pollution source management information is screened and counted according to the emission statistical instruction. Shown in FIG. 4 is the result of the statistics of the emissions of heavy pollutants in the type of wastewater release in the food processing industry in Shenzhen Shentian region.

The pollution source management maps shown in fig. 2,3, 4, and 5 support a zoom-in and zoom-out operation that affects the aggregation level (i.e., aggregation to county and city areas or aggregation to streets) when the pollution source management map shows the results in the form of regional aggregation and the size of a coordinate point when the results are shown in the form of point distribution.

As can be seen from the above description, in this embodiment, fixed pollution source management information is obtained, a selection statistical instruction input by a user is obtained, the fixed pollution source information is screened and counted according to the statistical instruction to obtain a pollution source screening statistical result, the pollution source screening statistical result is displayed in two forms of point location distribution/area aggregation on a pollution source management map, an emission statistical instruction input by the user is obtained, the fixed pollution source information is counted according to the emission statistical instruction to obtain a pollution source emission statistical result, the pollution source emission statistical result is displayed in two forms of point location distribution/area aggregation on the pollution source management map, statistical information of a fixed pollution source can be displayed according to an individualized requirement of the user, the user can directly obtain a required statistical result through simple operation, and a fixed pollution source supervision level and work efficiency are effectively improved.

Referring to fig. 6, fig. 6 is a flowchart illustrating a full life cycle information management method for a fixed pollution source according to a second embodiment of the present invention. The whole life cycle information management method of the fixed pollution source provided by the invention comprises the following steps:

s201: acquiring fixed pollution source management information, and constructing a fixed pollution source management database, wherein the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information.

In a specific implementation scenario, step S201 is substantially the same as step S101 in the first embodiment of the method for managing full-life-cycle information of a fixed pollution source provided by the present invention, and details thereof are not repeated here.

S202: and acquiring characteristic information of each fixed pollution source, and adding a label for the fixed pollution source according to the characteristic information, wherein the characteristic information comprises emission characteristic information, position characteristic information and supervision characteristic information.

In a specific implementation scenario, characteristic information of each fixed pollution source is acquired, and a label is added to the fixed pollution source according to the characteristic information. The labels can help a user to search the corresponding at least one fixed pollution source through the labels, so that the efficiency of searching the fixed pollution source by the user is effectively improved, and various consumption requirements of the user are met.

In this implementation scenario, the feature information includes emission feature information, location feature information, and supervision feature information, and the corresponding tags also include an emission feature tag, a location feature tag, and a supervision feature tag. Referring to table 1, table 2, and table 3 in combination, table 1 is a tag name-tag description-discharge feature information and remark information comparison table of the discharge feature tag, table 2 is a tag name-tag description-discharge feature information and remark information comparison table of the location feature tag, and table 3 is a tag name-tag description-discharge feature information and remark information comparison table of the location supervision feature.

TABLE 1

TABLE 2

TABLE 3

In the implementation scenario, fixed pollution source management information is acquired or updated at preset intervals, relevant information and data of each fixed pollution source are acquired according to the current latest fixed pollution source management information, whether each fixed pollution source meets the condition of adding a certain label or not is judged according to the calculation rules in the table, and if the condition is met, the label is added to the fixed pollution source. It should be noted that a fixed pollution source may have one or more of the emissions signature, the location signature, and the regulatory signature simultaneously. For example, labels for certain stationary sources of contamination include: high night discharge, COD discharge top5, pollution discharge permit and ecological protection peripheral area.

S203: and acquiring the label of each pollution discharge enterprise, and acquiring problem enterprises in the pollution discharge enterprises according to the label.

In a specific implementation scenario, labels of all fixed pollution sources of each pollution discharge enterprise are obtained, and problem enterprises in the pollution discharge enterprises in the fixed pollution source management information are obtained according to the labels. For example, a pollution discharge enterprise has two stationary pollution sources, one is a stationary pollution source a discharging exhaust gas, and one is a stationary pollution source B discharging waste water, and the label of the stationary pollution source a includes: "high night emission", "SO2 emission top5", "pollution discharge permit", "ecological protection peripheral area", "persistent complaint hot spot", the label of the stationary pollution source B includes: "discharge high night", "ammonia nitrogen discharge top5", "blowdown permit", "ecological protection peripheral area", "administrative penalty", then this blowdown enterprise's label includes: "night discharge high". About.2 "," SO2 discharge top5"," pollution discharge permit ". About.2", "ecological protection peripheral area". About.2 "," continuous complaint hot spot "," ammonia nitrogen discharge top5", and" administrative penalty ".

Different levels can be set for each label in advance, when the number of labels of each level exceeds a corresponding preset threshold value, the pollution discharge enterprise is taken as a problem enterprise, for example, "ammonia nitrogen discharge top5", "COD discharge top5", "SO2 discharge top5", "NOx discharge top5", "particulate matter discharge top5", "VOCs discharge top5" are taken as first level labels, the problem enterprise is taken as the problem enterprise when the number of the first level labels of each pollution discharge enterprise is greater than 0, and therefore the problem enterprise is taken as the pollution discharge enterprise in the implementation scene.

According to the above description, in this embodiment, the characteristic information of each fixed pollution source is acquired, the label is added to the fixed pollution source according to the characteristic information, the label of each pollution discharge enterprise is acquired, problem enterprises in the pollution discharge enterprises are acquired according to the label, the pollution discharge enterprises can be rapidly and autonomously monitored and prompted, convenience is brought to management of the pollution discharge enterprises by users, and management efficiency and management effect are improved.

Referring to fig. 7, fig. 7 is a flowchart illustrating a third embodiment of a method for managing full-life cycle information of a fixed pollution source according to the present invention. The whole life cycle information management method of the fixed pollution source provided by the invention comprises the following steps:

s301: acquiring fixed pollution source management information, and constructing a fixed pollution source management database, wherein the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information.

S302: and acquiring characteristic information of each fixed pollution source, and adding a label for the fixed pollution source according to the characteristic information, wherein the characteristic information comprises emission characteristic information, position characteristic information and supervision characteristic information.

In a specific implementation scenario, steps S301 to S302 are substantially the same as steps S201 to S202 in the second embodiment of the method for managing full-life-cycle information of a fixed pollution source provided by the present invention, and are not described herein again.

S303: the method comprises the steps of obtaining a label query instruction input by a user, wherein the label query instruction comprises at least one target label, carrying out point location distribution display on a fixed pollution source with the target label on a pollution source management map, and displaying a pollution source list of the fixed pollution source with the target label.

In a specific implementation scenario, the tag query instruction obtained from the user input includes at least one target tag. Referring to fig. 8, fig. 8 is a schematic diagram of a tag query interface according to an embodiment of the present invention. As shown in fig. 8, the emission characteristic label, the position characteristic label, and the supervision characteristic label acquired in the above steps are respectively displayed above the base map of the pollution source management map. The user may select at least one target tag from the emission feature tag, the location feature tag, and the regulatory feature tag by clicking, checking, and the like.

And acquiring the fixed pollution source with the target label and the position information of the fixed pollution source, performing point location distribution display on a pollution source management map according to the position information, and displaying a pollution source list of the fixed pollution source with the target label. Referring to fig. 9, fig. 9 is a schematic view of a page showing a fixed pollution source with a target tag according to an embodiment of the present invention.

In this implementation scenario, when a user mouse hovers over a tag, the hit rate and the effective rate of the tag may be displayed, where the hit rate of the tag = the proportion of the number of pollution discharge enterprises having the tag to all the pollution discharge enterprises, and the effective rate of the tag = the number of pollution discharge enterprises having/having the tag in the number of pollution discharge enterprises having both the tag and the illegal pollution discharge tag.

S304: and acquiring a viewing instruction input by a user, wherein the viewing instruction comprises a pollution source to be viewed, and the pollution source to be viewed comprises a fixed pollution source selected by the user in a pollution source list or a fixed pollution source corresponding to a point position selected by the user on a pollution source management map.

In a specific implementation scenario, a user may select a fixed pollution source in a pollution source list as a substitute for viewing the pollution source, or select a certain point on a pollution source management map to select the fixed pollution source as a pollution source to be viewed, and the user may input a viewing instruction for the selected fixed pollution source, so as to view related data and information of the fixed pollution source.

S305: and displaying the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information, wherein the pollution discharge enterprise information corresponding to the pollution source to be checked comprises at least one of enterprise basic information, pollution discharge license information, construction project information, production management information, emission and emission standard information, environment supervision information and monitoring information.

In a specific implementation scenario, when a user hovers a mouse over a point on a pollution source management map or a name of a fixed pollution source in a pollution source list, basic information of the fixed pollution source, such as at least one of position information, an administrative region to which the fixed pollution source belongs, the name of the fixed pollution source, and an identification code, is displayed.

In another implementation scenario, the user may view the pollution discharge enterprise information corresponding to the pollution source to be viewed through the viewing instruction. The sewage disposal enterprise information comprises enterprise basic information, sewage disposal license information, construction project information, production management information, emission amount and emission standard information, environment supervision information and monitoring information. Referring to fig. 10 in combination, fig. 10 is a schematic page view of the pollution discharge enterprise information according to an embodiment of the present invention. The pollution discharge license information comprises at least one item of certificate number, issuing organization, issuing date and validity period information; the construction project information comprises at least one item of project name, environmental assessment criticism number and project state information; the production management information comprises: at least one item of information on the number of production facilities, the type of products, the number of waste gas treatment facilities, and the number of waste water treatment facilities; the emission amount and emission standard information includes: at least one of the number of waste gas discharge ports, main atmospheric pollutants, the number of waste water discharge ports and main waste water pollutants, the allowable discharge amount of various pollutants of a pollution discharge enterprise and pollution discharge Shen Baoliang; the monitoring information comprises monitoring data of each discharge port, including at least one of a discharge port name, monitoring time, a detection factor, a monitoring value and a monitoring unit; and at least one of the amount of law enforcement information, the amount of penalty information and the amount of complaints accumulated by the environment supervision information history. The pollution discharge enterprise information is obtained from fixed pollution source management information.

As shown in fig. 10, corresponding option boxes are provided for the enterprise basic information, the pollution discharge license information, the construction project information, the production management information, the emission amount and emission standard information, the environmental supervision information, and the monitoring information, and the user can refer to the specific content of each pollution discharge enterprise information item by selecting the option boxes.

Referring to fig. 11 in combination, fig. 11 is a schematic diagram of a page of basic enterprise information according to an embodiment of the present invention. As shown in fig. 11, the page shows information such as basic information of the enterprise, certificate information of the enterprise, and other attachments, and the certificate information of the enterprise also shows all attachments in the form of pictures of the enterprise, including but not limited to: enterprise licenses, pollution discharge licenses, process flow diagrams, plant structural diagrams, and the like.

In this implementation scenario, the user may review the exhaust port, the waste drain port, the unorganized exhaust, the emissions, and the emission standard. Referring to fig. 12-15, fig. 12 is a schematic page view showing a list of exhaust ports according to an embodiment of the present invention. Information of the exhaust ports is shown in fig. 12 in the form of a list, and the list field includes: discharge port number, discharge port name, discharge port height, discharge standard. The user can click any exhaust emission port in the exhaust emission port list, obtains the specific information of the exhaust emission port, including pollutant, emission concentration limit value and emission limit value, and shows all pollutants of the exhaust emission port. Fig. 13 is a schematic page view of an exhaust port list showing specific information of an exhaust port in an embodiment of the present invention. Similarly, in the present embodiment, the information of the wastewater discharge port can be displayed in a list form, and the list field includes: discharge port number, discharge port name, discharge standard. The user can click any wastewater discharge port in the wastewater discharge port list, specific information of the wastewater discharge port is obtained, the specific information comprises pollutants, a discharge concentration limit value and a discharge limit value of the wastewater discharge port, and all pollutants of the wastewater discharge port are displayed. FIG. 14 is a schematic diagram of a page of a waste drain list showing details of a waste drain in an embodiment of the present invention. FIG. 15 is a schematic diagram of a page showing the unorganized emission of exhaust gases in an embodiment of the present invention. The page shows pollutants, emission concentration limit values and emission limit values of the exhaust gas of the pollution discharge enterprise in the unorganized emission mode, and shows all pollutants in the unorganized emission mode.

In a specific implementation scenario, the wastewater discharge flow direction of each discharge port is drawn according to the monitoring data and pipe network data of each discharge port. And the user selects one of the waste water discharge ports as a target discharge port in the waste water discharge port list, and displays the waste water discharge flow direction route map of the target discharge port according to the geographical position of the target discharge port, the basin information of the position of the target discharge port, the monitoring data obtained by monitoring and the pipe network data of each waste water discharge port. Referring to fig. 16, fig. 16 is a schematic diagram illustrating a waste water discharge flow route according to an embodiment of the present invention. The wastewater discharge flow roadmap can be obtained through a pre-trained neural network model.

In one particular implementation scenario, the user selects one of the exhaust emission lists as the target emission and selects the pollutant (e.g., SO) to be simulated ₂ ) The wind field data can be set through manual input or a compass, and can also be set according to real-time wind field data, and the simulated wind field data comprises wind direction data and wind speed data. And displaying a pollution diffusion model under corresponding pollutants and wind field data, performing pollution diffusion simulation according to the time-average discharge amount and time-average discharge concentration of the selected pollutants and set wind speed and wind direction data, and drawing on a map by using colors and isochrones to represent concentrations. And displaying the time-average discharge amount, the time-average discharge concentration, the set wind direction and the set wind speed data of the selected pollutants, and superposing the set wind field map layer on the map. Referring to fig. 17, fig. 17 is a schematic page view of an exhaust pollution diffusion model according to an embodiment of the present invention.

The production treatment information comprises product and productivity information, raw material information, auxiliary material information and fuel information. Referring to fig. 18-21, fig. 18 is a schematic diagram of pages showing products and production capacity according to an embodiment of the present invention. Displaying the enterprise products and the capacity information in a list form, wherein a list field comprises: serial number, product name, design annual output, unit. FIG. 19 is a schematic diagram of a page of a list of materials in an embodiment of the present invention. The method comprises the following steps of displaying raw material information required by enterprise production in a list form, wherein a list field comprises the following steps: serial number, name of raw material, maximum usage amount per year and unit. Fig. 20 is a schematic page diagram of a supplementary material list in an embodiment of the present invention. The auxiliary material information required by enterprise production is displayed in a list form, and the list field comprises: serial number, name of auxiliary materials, maximum usage amount per year and unit. FIG. 21 is a page schematic of a fuel list in an embodiment provided by the present invention. Displaying the fuel information required by the enterprise production in a list form, wherein a list field comprises: serial number, fuel name, maximum annual usage, unit.

The production management information includes production facility information, exhaust gas management facility information, wastewater management facility information, and the like. Referring to fig. 22-24, fig. 22 is a schematic diagram of a page showing production facility information according to an embodiment of the present invention. All production facility archives of the enterprise are shown in a list form, and a list field comprises: production facility number, production facility name, design power (kw). FIG. 23 is a schematic diagram of a page showing exhaust treatment facility information in an embodiment of the invention. Show all exhaust gas treatment facility archives of enterprise in the form of a list, the list field includes: facility number, treatment facility name, specification model, design treatment capacity m3/d, design treatment efficiency%, design power kW, and associated discharge port. FIG. 24 is a schematic diagram of a page showing wastewater treatment facility information in an embodiment of the invention. All wastewater treatment facility archives of the enterprise are displayed in a list form, and the list fields comprise: the method comprises the following steps of facility number, treatment facility name, specification and model, design treatment capacity m3/d, design treatment efficiency%, design power kW, associated discharge port and sludge treatment method.

The environmental regulatory information includes the records of supervision enforcement, complaints and administrative penalties, please refer to fig. 25-27, and fig. 25 is a schematic page diagram showing the records of supervision enforcement in an embodiment of the present invention. And displaying the supervision and law enforcement records of the enterprise in a list form, wherein the records comprise information such as law enforcement time, law enforcement departments, law executives, law enforcement records, feedback states, details and the like. The user can click and view the supervision law enforcement details, including law enforcement information and feedback information, and the picture preview and amplification function is supported. The law enforcement information includes: law enforcement, law enforcement time, law enforcement personnel, site description, and site photograph; the feedback situation comprises the following steps: feeding back a person, feeding back time, feeding back condition and a picture after rectification, and judging whether rectification is finished or not. FIG. 26 is a schematic diagram of a page showing complaint records in an embodiment of the invention. And displaying an administrative penalty record list according to the prototype, wherein the administrative penalty record list comprises a penalty time, a penalty department and a penalty document. FIG. 27 is a schematic diagram of a page showing administrative penalty records in an embodiment of the present invention. And displaying the complaint records in a list form, wherein the complaint records comprise complaint time, complaint content, processing units, processing states and processing time.

The monitoring information includes monitoring data trends and monitoring data lists. According to the fixed pollution source discharge port selected by the user, the data type (hour data and day data) and the monitoring time (if the hour data is selected, the default is about 24 hours, and if the day data is selected, the default is about 7 days). Referring to fig. 28 to 29 in combination, fig. 28 is a schematic view of a page showing a monitoring data trend in an embodiment of the present invention, where online monitoring information is shown in the form of a trend line graph, and after a user selects a monitoring point on the trend line graph, a monitoring value and monitoring time corresponding to the monitoring point are displayed. Fig. 29 is a schematic diagram of a page showing a monitoring data list in an embodiment of the present invention. The monitoring time and the monitoring value of all pollutants in the discharge port are shown in a table form.

The production management information comprises production facility operation accounts, management facility operation accounts and self-monitoring accounts. Please refer to fig. 30-33. FIG. 30 is a schematic diagram of a page showing a production facility operating ledger in an embodiment provided by the present invention. In a list form, the operation ledger filling condition of the enterprise production facility of nearly 30 days is displayed by default, and a list field comprises: serial number, name, filling time, filling state, running state and details. Fig. 31 is a schematic diagram of a page showing details of a production facility running ledger in an embodiment of the present invention. The basic information of the operation standing accounts of all the production facilities on the day is displayed in a list form, and a list field comprises: facility number, facility name, run time, status. And clicking the list, and popping up detailed information of the running machine account, including product yield, raw material consumption and energy consumption information. FIG. 32 is a schematic view of a page showing an exhaust treatment facility in an embodiment of the present invention. The basic information of all exhaust gas treatment facility operation standing accounts on the day is shown in a list form, and the list field comprises: facility number, facility name, operating time, average flow, total electricity usage on the day, status. FIG. 33 is a schematic diagram of a page showing a wastewater treatment facility in an embodiment of the invention. The basic information of all the wastewater treatment facility operation standing accounts on the same day is displayed in a list form, and the list field comprises: facility number, facility name, running time, average flow, total electricity consumption on the day, sludge production amount and state.

In a specific implementation scene, the emission amount of each fixed pollution source of each discharge port of a pollution discharge enterprise, emission standard information and monitoring information are used for drawing a pollution discharge rule scatter diagram. The abscissa of the pollution discharge law scatter diagram shows a 24-hour time scale, and the ordinate shows the amount discharged per hour. And in the selected time period, the hourly emission amount of each hour corresponding to each day is scattered. The user may select all vents, or a certain vent. According to the selected discharge port, the discharge amount statistics of certain pollutants corresponding to the discharge port can be selected, statistics of about 1 month, about 1 quarter, about 1 year, unlimited or other time periods (without range limitation) can be selected, the granularity is day, and the default is about 1 year. Referring to fig. 34, fig. 34 is a schematic view of a pollution discharge law scatter diagram according to an embodiment of the present invention.

In a specific implementation scenario, an industry annual output value-emission amount scatter diagram is made according to the annual output values and emission amount and emission standard information of all pollution discharge enterprises in the industry. The abscissa of the industry annual output value-emission scatter diagram displays the annual output value scale, the ordinate displays the annual emission scale, and the annual output value-annual emission scatter diagram of all enterprises in the industry is determined according to the selected year. Statistics on the amount of wastewater or exhaust gas (or some type of pollutant therein) may be selected. Referring to fig. 35, fig. 35 is a schematic diagram of an industry annual output value-emission amount scatter diagram according to an embodiment of the invention.

According to the above description, in this embodiment, at least one target tag input by the user is acquired, the fixed pollution source with the target tag is displayed in the pollution source management map in a point location distribution manner, the pollution source list of the fixed pollution source with the target tag is displayed, the pollution source to be checked selected by the user is acquired, the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information is displayed, the user can conveniently and quickly acquire the relevant information of the pollution discharge enterprise, and the supervision work efficiency is effectively improved.

Referring to fig. 36, fig. 36 is a flowchart illustrating a third embodiment of a method for managing full-life-cycle information of a fixed pollutant according to the present invention. The whole life cycle information management method of the fixed pollution source provided by the invention comprises the following steps:

s401: and acquiring an enterprise query instruction input by a user, wherein the enterprise query instruction comprises at least one of an enterprise name, a unified social credit code, an address and a registration state.

In a specific implementation scenario, the user search box inputs a query instruction to query the enterprise, where the query instruction includes an enterprise name, a unified social credit code, an address, a registration status, and the like.

S402: and displaying at least one pollution discharge enterprise matched with the enterprise query instruction.

In one specific implementation scenario, the query results are displayed in a list, and the list display information includes a business name, a unified social credit code, an address, a registration status, and the like.

S403: and acquiring a target inquiry enterprise selected by a user from at least one pollution discharge enterprise, and displaying the pollution discharge enterprise information of the target inquiry enterprise.

In a specific implementation scenario, the pollution discharge enterprise information includes enterprise organization information, supervision dynamic conditions of the pollution discharge enterprise, and a pollution discharge enterprise pollution source list, the supervision dynamic conditions include at least one of enterprise establishment, construction project approval, pollution discharge license approval, administrative penalty, and complaint, and an event axis of the pollution discharge enterprise is drawn according to the supervision dynamic conditions.

A user selects a target query enterprise from at least one pollution discharge enterprise in a clicking, checking and other modes, and enterprise summary information of the pollution discharge enterprise of the target query enterprise is displayed. The enterprise summary information of the pollution discharge enterprise comprises enterprise organization information, a pollution source list and an event axis. Referring to fig. 37 in combination, fig. 37 is a schematic diagram illustrating a page showing summary information of an enterprise according to an embodiment of the present invention.

S404: the method comprises the steps of obtaining a target query pollution source selected by a user from a pollution source list of the pollution discharge enterprise information, and displaying at least one of summary information, basic files, pollution discharge license summary information, pollution discharge information, pollution monitoring information, pollution supervision information, a data updating time axis and a dynamic management flow chart of the target query pollution source.

In a specific implementation scenario, a user selects a target query pollution source from a pollution source list of the pollution discharge enterprise information by clicking, checking and the like, and displays at least one of summary information, management attributes, pollution discharge license summary information, a data update time axis and a dynamic management flow chart of the target query pollution source.

Referring to fig. 38 in combination, fig. 38 is a display page of the contamination source summary information according to an embodiment of the present invention. The method for briefly displaying the file condition of the target query pollution source comprises the following steps: basic information, management attributes, drainage license summary information, a data update time axis, a dynamic management flow chart and the like. The basic information of the pollution source comprises: pollution source name, pollution source address, legal person representative, administrative area, industry, supervision type and the like, and if certain information does not exist, the display is empty. Clicking the enterprise to which the user belongs to jump to an enterprise information page, and clicking the space positioning icon to position the position of the pollution source on the target query pollution source management map. The management property tag includes: pollution discharge permit, supervision type, administrative penalty, credit evaluation, automatic monitoring, supervised monitoring, etc. And the data updating time axis displays the latest data updating time and the updating content of various service data of the pollution source. The drainage license summary information includes: license codes, issuing authorities, validity periods, main wastewater pollutants, main exhaust gas pollutants and the like. If some information does not exist, a null is displayed. Pollution source dynamic process management diagram: displaying business processes related to the pollution source files, including construction project approval flow charts and business processes related to supervision and law enforcement, pollution source monitoring and hazardous waste management; clicking a certain service type, and jumping to a pollution source file, namely a service type detailed data page.

Referring to fig. 39, fig. 39 is a display page of the basic file of the contamination source according to an embodiment of the present invention. The pollution source basic file comprises basic information, product capacity, raw and auxiliary materials and fuel information, production equipment, treatment facilities, discharge port information, production water and the like, when the pollution source has pollution discharge license data, the data source is a pollution discharge license and is marked, and the pollution source basic file data without the pollution discharge license comes from service data such as a ring system and the like.

Referring to fig. 40 in combination, fig. 40 is a display page of the blowdown license summary information in an embodiment of the present invention. The sewage discharge license information includes: the system comprises a pollution discharge license, an execution report and an environment standing book, wherein the pollution discharge license comprises original information and copy information, the original information and the copy information are downloaded and checked or linked with a corresponding service system through an accessory, the execution report comprises a monthly report, a quarterly report and an annual report, the execution report is downloaded and checked or linked with the corresponding service system for checking through the accessory, and the environment management standing book is downloaded and checked or linked with the corresponding service system for checking through the accessory.

Referring to fig. 41 in combination, fig. 41 is a display page of the pollutant discharge information according to an embodiment of the present invention. The pollutant emission information includes: emission capacity allowable limit, waste water pollutant emission information, waste gas pollutant emission information and solid waste pollutant emission information. The emission permitted limit is derived from a license, and includes a wastewater pollutant emission permitted limit and an exhaust pollutant emission permitted limit. The waste water discharge information generally comes from environmental statistics, including waste water discharge amount, chemical oxygen demand and ammonia nitrogen annual discharge amount; exhaust emissions information is typically derived from environmental statistics, including wastewater emissions and annual emissions of exhaust pollutants. The solid waste discharge information is typically derived from environmental statistics, including annual discharge of solid waste.

Referring to fig. 42, fig. 42 is a display page of the contamination monitoring information according to an embodiment of the disclosure. The pollution monitoring information comprises automatic monitoring data of a pollution source, supervised monitoring data, self-monitoring data and a pollutant concentration change trend. The monitoring data types comprise waste water and waste gas data, the system can automatically list a monitoring data list, and related monitoring data can be inquired according to conditions such as the name of a discharge port, a monitoring time period, pollutant types and the like.

Referring to fig. 43, fig. 43 is a display page of pollution monitoring information in an embodiment of the present invention, which is mainly used for querying and displaying business data such as critique, environmental monitoring, complaint, and administrative penalty.

As can be seen from the above description, in this embodiment, enterprise summary information of a target query enterprise that a user wants to query is displayed, the enterprise summary information includes enterprise organization information, a pollution source list and an event axis, a target query pollution source selected by the user from a pollution source list of the pollution discharge enterprise information is acquired, at least one of the summary information of the target query pollution source, a basic file, the summary information of a pollution discharge license, pollution discharge information, pollution monitoring information, pollution supervision information, a data update time axis and a dynamic management flowchart is displayed, which can facilitate the user to monitor and manage the pollution source, and improve the working efficiency of the user.

Referring to fig. 44, fig. 44 is a flowchart illustrating a fifth embodiment of a method for managing full-life-cycle information of a fixed pollutant according to the present invention. The whole life cycle information management method of the fixed pollution source provided by the invention comprises the following steps:

s501: and acquiring a target query area and statistical dimensions selected by a user on the pollution source management map, wherein the statistical dimensions comprise any one of administrative areas, key drainage basins and key industries.

In a specific implementation scenario, a user selects a target query area on a pollution source management map and sets statistical dimensions. And (3) framing a range on the pollution source management map by a user through a mouse, displaying fixed pollution sources in the framed range on a list, dotting on the pollution source management map, and checking the file information of the fixed pollution sources when the user clicks point location details. The pollution sources in the frame selection range selected by the user are positioned, the selection mode of the analysis range supports various forms, such as mouse click, line segment frame selection, rectangular dragging selection and the like, the buffer range is default to 5000 meters, and the buffer range can be adjusted as required.

S502: and displaying the target statistical result of the target query area in the statistical dimension.

In a specific implementation scenario, when the statistical dimension includes administrative regions, the target statistical result includes a fixed pollution source total number of each administrative region; when the statistical dimension comprises a key drainage basin, the target statistical result comprises the number of fixed pollution sources in each drainage basin range in the target query area; when the statistical dimension comprises key industries, the target statistical result comprises the top 10 industries with the largest number of fixed pollution sources in the target query area, and the number of the fixed pollution sources of each industry is displayed. Referring to fig. 45, fig. 45 is a schematic page diagram showing a target statistical result of an industry statistical dimension according to an embodiment of the present invention. And meanwhile, positioning is carried out on the map in different colors on the administrative region map layer. For the analysis and statistics of the key industry, different layers can be switched, including industry distribution layers, point maps, thermodynamic diagrams and the like. And selecting a single positioning icon on the pollution source management map of the user, acquiring the target positioning icon selected by the user, displaying the basic information of the fixed pollution source corresponding to the target positioning icon, and checking the detailed archive information of the pollution source.

As can be seen from the above description, in this embodiment, a target query area and a statistical dimension selected by a user on a pollution source management map are obtained, where the statistical dimension includes any one of an administrative area, a key drainage basin, and a key industry; the target statistical result of the target query area in the statistical dimension is displayed, so that the unified maintenance and management of the pollution sources can be effectively facilitated for users, and the working efficiency is improved.

Referring to fig. 46, fig. 46 is a schematic structural diagram of an embodiment of a full life cycle information management system for a fixed pollution source according to the present invention. The whole life cycle information management system 10 of the fixed pollution source provided by the invention comprises: an acquisition module 11, a distribution module 12, a statistics module 13, and an emissions module 14.

The acquisition module 11 is configured to acquire fixed pollution source management information and construct a fixed pollution source management database, where the fixed pollution source management information includes pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information includes enterprise location information. The distribution module 12 is configured to generate pollution source number distribution status information according to the fixed pollution source management information, and display the pollution source number distribution status information in two forms, namely point location distribution/area aggregation, on the pollution source management map. The statistical module 13 is configured to obtain a statistical instruction input by a user, perform statistics on the fixed pollution source information according to the statistical instruction to obtain a pollution source statistical result, and display the pollution source statistical result in two forms, namely point location distribution/area aggregation, on a pollution source management map. The emission module 14 is configured to obtain an emission statistical instruction input by a user, perform statistics on fixed pollution source information according to the emission statistical instruction to obtain a pollution source emission statistical result, and display the pollution source emission statistical result in two forms, namely point location distribution/area aggregation, on a pollution source management map. The statistical instruction comprises at least one of a pollution source quantity statistical instruction, a pollution source region statistical instruction, a pollution emission type statistical instruction, an industry statistical instruction, a treatment facility statistical instruction and an emission permission issuing statistical instruction; the emission statistical instructions include: at least one of an administrative region selection instruction, a statistical duration instruction, a pollutant emission statistical instruction, a pollutant emission region statistical instruction, a pollutant emission industry statistical instruction and a pollutant discharge household statistical instruction.

The acquisition module 11 is configured to acquire feature information of each fixed pollution source, and add a label to the fixed pollution source according to the feature information, where the feature information includes emission feature information, location feature information, and supervision feature information, and the label includes an emission feature label, a location feature label, and a supervision feature label.

The obtaining module 11 is configured to obtain a label of each pollution discharge enterprise, and obtain problem enterprises in the pollution discharge enterprises according to the label.

The acquisition module 11 is configured to acquire a tag query instruction input by a user, where the tag query instruction includes at least one target tag, perform point location distribution display on a pollution source management map on a fixed pollution source with the target tag, and display a pollution source list of the fixed pollution source with the target tag; acquiring a viewing instruction input by a user, wherein the viewing instruction comprises a pollution source to be viewed, and the pollution source to be viewed comprises a fixed pollution source selected by the user in a pollution source list or a fixed pollution source corresponding to a point position selected by the user on a pollution source management map; and displaying the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information, wherein the pollution discharge enterprise information corresponding to the pollution source to be checked comprises at least one of enterprise basic information, pollution discharge license information, construction project information, production treatment information, emission and emission standard information, environment supervision information and monitoring information.

The pollution discharge license information comprises at least one item of certificate number, issuing authority, issuing date and validity period information; the construction project information comprises at least one item of project name, environmental assessment criticism number and project state information; the production management information comprises: at least one item of information on the number of production facilities, the type of products, the number of waste gas treatment facilities, and the number of waste water treatment facilities; the emission amount and emission standard information includes: at least one of the number of waste gas discharge ports, main atmospheric pollutants, the number of waste water discharge ports and main waste water pollutants, and the allowable discharge amount of various pollutants of a pollution discharge enterprise and pollution discharge Shen Baoliang; the monitoring information comprises monitoring data of each discharge port, including at least one of a discharge port name, monitoring time, a detection factor, a monitoring value and a monitoring unit; the environment supervision information comprises at least one of historical accumulated law enforcement information quantity, penalty information quantity and complaint quantity.

The acquisition module 11 is used for drawing the wastewater discharge flow direction of each discharge port according to the monitoring data and the pipe network data of each discharge port; or acquiring simulated wind field data, wherein the simulated wind field data comprises wind direction data and wind speed data, the pollutant discharge amount and the pollutant discharge concentration are obtained, and the waste gas pollution diffusion model is obtained according to the simulated wind field data and the pollutant discharge amount and the pollutant discharge concentration.

The monitoring information comprises online monitoring information; the acquisition module 11 is configured to acquire online monitoring information according to a user instruction, and display the online monitoring information in a trend line graph or data list form; and when the online monitoring information is displayed in the form of the trend line graph, acquiring monitoring points selected by the user on the trend line graph, and displaying the monitoring values and the monitoring time corresponding to the monitoring points.

The acquisition module 11 is used for drawing a pollution discharge law scatter diagram according to the discharge amount of each fixed pollution source of each discharge outlet of a pollution discharge enterprise, the discharge standard information and the monitoring information; and/or making an industry annual output value-emission amount scatter diagram according to the annual output values and emission amount and emission standard information of all pollution discharge enterprises in the industry.

The pollution discharge enterprise information comprises enterprise organization information, supervision dynamic conditions of the pollution discharge enterprise and a pollution source list of the pollution discharge enterprise, wherein the supervision dynamic conditions comprise at least one of establishment of the enterprise, examination and approval of construction projects, examination and approval of pollution discharge licenses, administrative punishment and complaint. The acquisition module 11 is used for drawing an event axis of the pollution discharge enterprise according to the supervision dynamic condition.

The acquisition module 11 is configured to acquire an enterprise query instruction input by a user, where the enterprise query instruction includes at least one of an enterprise name, a unified social credit code, an address, and a registration status; displaying at least one pollution discharge enterprise matched with the enterprise query instruction; acquiring a target inquiry enterprise selected by a user from at least one pollution discharge enterprise, and displaying enterprise summary information of the target inquiry enterprise, wherein the enterprise summary information comprises enterprise organization information, a pollution source list and an event axis; the method comprises the steps of obtaining a target query pollution source selected by a user from a pollution source list of the pollution discharge enterprise information, and displaying at least one of summary information, basic files, pollution discharge license summary information, pollution discharge information, pollution monitoring information, pollution supervision information, a data updating time axis and a dynamic management flow chart of the target query pollution source.

The acquisition module 11 is configured to acquire a target query area and statistical dimensions selected by a user on a pollution source management map, where the statistical dimensions include any one of an administrative area, a key drainage basin, and a key industry; displaying a target statistical result of the target query area in a statistical dimension; when the statistical dimension comprises an administrative region, the target statistical result comprises the total number of the fixed pollution sources of each administrative region; when the statistical dimension comprises the key watershed, the target statistical result comprises the number of the fixed pollution sources in each watershed range in the target query area; when the statistical dimension comprises key industries, the target statistical result comprises the top 10 industries with the largest number of fixed pollution sources in the target query area, and the number of the fixed pollution sources of each industry is displayed.

The acquisition module 11 is used for displaying a positioning icon of a fixed pollution source in a target query area; and acquiring a target positioning icon selected by a user, and displaying basic information or detailed archive information of the fixed pollution source corresponding to the positioning icon.

Referring to fig. 47, fig. 47 is a schematic structural diagram of a computer device according to an embodiment of the present invention. The computer device 20 comprises a processor 21, a memory 22. The processor 21 is coupled to a memory 22. The memory 22 has stored therein a computer program which is executed by the processor 21 when in operation to implement the method as shown in any one of fig. 1, 6, 7, 36, 44. The detailed methods can be referred to above and are not described herein.

Referring to fig. 48, fig. 48 is a schematic structural diagram of a storage medium according to an embodiment of the present invention. The storage medium 30 stores at least one computer program 31, and the computer program 31 is used for being executed by the processor to implement any one of the methods shown in fig. 1, fig. 6, fig. 7, fig. 36, and fig. 44, and the detailed methods can be referred to above and are not described herein again. In one embodiment, the computer readable storage medium 30 may be a memory chip in a terminal, a hard disk, or other readable and writable storage tool such as a removable hard disk, a flash disk, an optical disk, or the like, and may also be a server or the like.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, and the program can be stored in a non-volatile computer readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A full life cycle information management method of a fixed pollution source is characterized by comprising the following steps:

acquiring a selection statistical instruction input by a user, screening and counting the fixed pollution source information according to the statistical instruction to acquire a pollution source screening statistical result, and displaying the pollution source screening statistical result in a point location distribution/area aggregation mode on a pollution source management map;

the emission statistical instructions include: at least one of an administrative region selection instruction, a counting time length instruction, a pollutant discharge amount statistical instruction, a pollutant discharge region statistical instruction, a pollutant discharge industry statistical instruction and a pollutant discharge household statistical instruction.

2. The method for managing the full life cycle information of the fixed pollution source according to claim 1, wherein after the steps of obtaining the management information of the fixed pollution source and constructing the management database of the fixed pollution source, the method further comprises:

the method comprises the steps of obtaining characteristic information of each fixed pollution source, and adding labels to the fixed pollution sources according to the characteristic information, wherein the characteristic information comprises emission characteristic information, position characteristic information and supervision characteristic information, and the labels comprise emission characteristic labels, position characteristic labels and supervision characteristic labels.

3. The method for full-life-cycle information management of stationary pollution sources according to claim 2, wherein after the step of tagging the stationary pollution sources according to the characteristic information,

and acquiring the label of each pollution discharge enterprise, and acquiring problem enterprises in the pollution discharge enterprises according to the labels.

4. The method for full-life cycle information management of stationary pollution sources according to claim 3,

acquiring a label query instruction input by a user, wherein the label query instruction comprises at least one target label, performing point location distribution display on a fixed pollution source with the target label on the pollution source management map, and displaying a pollution source list of the fixed pollution source with the target label;

acquiring a viewing instruction input by a user, wherein the viewing instruction comprises a pollution source to be viewed, and the pollution source to be viewed comprises a fixed pollution source selected by the user in the pollution source list or a fixed pollution source corresponding to a point position selected by the user on the pollution source management map;

and displaying the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information, wherein the pollution discharge enterprise information corresponding to the pollution source to be checked comprises at least one of enterprise basic information, pollution discharge license information, construction project information, production treatment information, emission and emission standard information, environment supervision information and monitoring information.

5. The method for full-life cycle information management of stationary pollution sources according to claim 4,

the pollution discharge license information comprises at least one item of certificate number, certificate issuing authority, certificate issuing date and valid period information;

the construction project information comprises at least one item of project name, environmental assessment criticism number and project state information;

the production management information includes: at least one item of information on the number of production facilities, the type of products, the number of waste gas treatment facilities, and the number of waste water treatment facilities;

the emission amount and emission standard information includes: at least one of the number of waste gas discharge ports, main atmospheric pollutants, the number of waste water discharge ports and main waste water pollutants, the allowable discharge amount of various pollutants of the pollution discharge enterprise and the pollution discharge Shen Baoliang;

the monitoring information comprises monitoring data of each discharge port, including at least one of a discharge port name, monitoring time, a detection factor, a monitoring value and a monitoring unit;

the environment supervision information comprises at least one of historically accumulated law enforcement information quantity, punishment information quantity and complaint quantity.

6. The method for managing the whole life cycle information of the fixed pollution source according to claim 5, wherein the step of displaying the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information is followed by:

drawing the wastewater discharge flow direction of each discharge port according to the monitoring data and the pipe network data of each discharge port; or

Acquiring simulated wind field data, wherein the simulated wind field data comprises wind direction data and wind speed data, acquiring time-average emission amount and time-average emission concentration of pollutants, and acquiring a waste gas pollution diffusion model according to the simulated wind field data, the time-average emission amount and the time-average emission concentration.

7. The method for full lifecycle information management of stationary pollution sources according to claim 5, wherein the monitoring information comprises online monitoring information;

the step of displaying the pollution discharge enterprise information corresponding to the pollution source to be checked in the fixed pollution source management information comprises the following steps:

acquiring the online monitoring information according to user instructions, and displaying the online monitoring information in a trend line graph or data list form;

and when the online monitoring information is displayed in the form of a trend line graph, acquiring a monitoring point selected by a user on the trend line graph, and displaying a monitoring value and monitoring time corresponding to the monitoring point.

8. The method for full-life cycle information management of stationary pollution sources according to claim 5,

drawing a pollution discharge law scatter diagram according to the discharge amount and discharge standard information of each fixed pollution source of each discharge port of the pollution discharge enterprise and the monitoring information; and/or

And making an industry annual output value-emission amount scatter diagram according to the annual output values of all the pollution discharge enterprises in the industry and the emission amount and emission standard information.

9. The full-life-cycle information management method for the fixed pollution sources according to claim 1, wherein the pollution discharge enterprise information comprises enterprise organization information, regulatory dynamic conditions of the pollution discharge enterprise, and the pollution discharge enterprise pollution source list, wherein the regulatory dynamic conditions comprise at least one of enterprise establishment, construction project approval, pollution discharge license approval, administrative penalty, and complaint;

the full life cycle information management method of the fixed pollution source further comprises the following steps:

and drawing an event axis of the pollution discharge enterprise according to the supervision dynamic condition.

10. The method of managing full-life cycle information of a stationary pollution source according to claim 9, further comprising:

acquiring an enterprise query instruction input by a user, wherein the enterprise query instruction comprises at least one of an enterprise name, a unified social credit code, an address and a registration state;

displaying at least one pollution discharge enterprise matched with the enterprise query instruction;

acquiring a target query enterprise selected by a user from the at least one pollution discharge enterprise, and displaying enterprise summary information of the target query enterprise, wherein the enterprise summary information comprises enterprise organization information, a pollution source list and an event axis;

and acquiring a target query pollution source selected by a user from the pollution source list of the pollution discharge enterprise information, and displaying at least one of summary information, basic files, pollution discharge license summary information, pollution discharge information, pollution monitoring information, pollution supervision information, a data updating time axis and a dynamic management flow chart of the target query pollution source.

11. The method of managing full lifecycle information of stationary pollution sources according to claim 1, further comprising:

acquiring a target query area and statistical dimensions selected by a user on the pollution source management map, wherein the statistical dimensions comprise any one of an administrative area, a key drainage basin and a key industry;

displaying a target statistical result of the target query area on the statistical dimension;

when the statistical dimension comprises administrative regions, the target statistical result comprises the total number of fixed pollution sources of each administrative region; when the statistical dimension comprises a key drainage basin, the target statistical result comprises the number of fixed pollution sources in each drainage basin range in the target query area; when the statistic dimension comprises major industries, the target statistic result comprises the top 10 major industries with the largest number of fixed pollution sources in the target query area, and the number of the fixed pollution sources in each industry is displayed.

12. The method for full lifecycle information management of stationary pollution sources according to claim 11, wherein the step of displaying the target statistics of the target query area in the statistical dimension comprises:

displaying a positioning icon of a fixed pollution source in the target query area;

and acquiring a target positioning icon selected by a user, and displaying basic information or detailed archive information of the fixed pollution source corresponding to the positioning icon.

13. A full lifecycle information management system for stationary pollution sources, comprising:

the pollution control system comprises an acquisition module, a data processing module and a data processing module, wherein the acquisition module is used for acquiring fixed pollution source management information and constructing a fixed pollution source management database, the fixed pollution source management information comprises pollution discharge enterprise information and fixed pollution source information, and the pollution discharge enterprise information comprises enterprise position information;

14. A storage medium, characterized in that a computer program is stored which, when being executed by a processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 13.

15. A computer arrangement comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to carry out the steps of the method according to any one of claims 1 to 13.