CN113656519B - Method and device for displaying pollution information of field - Google Patents

Abstract

The application provides a method and a device for displaying pollution information of a field, and belongs to the technical field of information. The method comprises the following steps: acquiring position information and first pollution information of a plurality of sites in a target area; for each field, determining a first rendering color of a field icon of the field according to the first pollution information of the field; displaying a field icon of the field in the electronic map according to the position information and the first rendering color; in response to a venue icon of a target venue being triggered, displaying a venue information list, the venue information list including an acquisition portal for first pollution information of the target venue; in response to the acquisition portal being triggered, first pollution information of the target site is presented. The application can not only rapidly acquire the approximate pollution conditions of a plurality of sites, but also rapidly acquire detailed pollution information of any site, thereby improving the efficiency of acquiring the pollution information of the sites.

Description

Method and device for displaying pollution information of field

Technical Field

The application relates to the technical field of information, in particular to a method and a device for displaying pollution information of a field.

Background

In recent years, with the rapid development of economy, the industrialization degree is higher and higher, and with the higher and higher industrialization degree, the serious environmental problems such as soil pollution, groundwater pollution and the like of the field are caused. In order to solve the increasingly serious environmental problems, pollution control and pollution remediation are required for a plurality of sites in a polluted area. Before pollution control and pollution remediation is performed on multiple sites, it is necessary to obtain pollution information for each site.

In the related art, a detection person detects a target pollutant in each site, and fills in a pollution detection statistical form with a detection result. The pollution detection table comprises a site name of each site and pollution information corresponding to each site name. When the pollution information of a certain place in the pollution area needs to be acquired, the pollution information corresponding to the place name is acquired by inquiring the place name in the pollution detection table.

However, in the above related art, when the number of sites counted in the pollution detection table is large, since the number of site names corresponding to the sites is large, it takes a long time to manually search for the site name of a certain site, so that the efficiency of acquiring the pollution information corresponding to the site is low.

Disclosure of Invention

The embodiment of the application provides a method and a device for displaying pollution information of a field, which can improve the efficiency of acquiring the pollution information corresponding to the field. The technical scheme is as follows:

In one aspect, the present application provides a method for displaying pollution information of a site, the method comprising:

Acquiring position information and first pollution information of a plurality of sites in a target area;

For each field, determining a first rendering color of a field icon of the field according to first pollution information of the field;

Displaying a field icon of the field in an electronic map according to the position information and the first rendering color;

Responsive to a venue icon of a target venue being triggered, displaying a venue information list comprising an acquisition portal for first pollution information of the target venue;

and in response to the acquisition portal being triggered, displaying first pollution information of the target site.

In one possible implementation, the first pollution information includes first concentration information of a target pollutant;

For each site, determining a first rendering color of a site icon of the site according to the first pollution information of the site, including:

Determining, for each site, a pollution level of the site according to first concentration information of target pollutants of the site;

And determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.

In another possible implementation, the first contamination information includes contamination processing stage information;

For each site, determining a first rendering color of a site icon of the site according to the first pollution information of the site, including:

for each site, determining a pollution treatment stage of the site according to the pollution treatment stage information of the site;

and determining a first rendering color corresponding to the pollution processing stage from the corresponding relation between the pollution processing stage and the rendering color according to the pollution processing stage, and obtaining the first rendering color of the field icon of the field.

In another possible implementation manner, the acquiring the location information and the first pollution information of the plurality of sites in the target area includes:

For each site, acquiring a site identifier of the site;

according to the site identification, acquiring position information and first pollution information corresponding to the site identification from a pollution information database;

And the pollution information database stores the corresponding relation among the site identification, the position information and the pollution information.

In another possible implementation manner, before the acquiring, for each site, the site identifier of the site, the method further includes:

determining, for each site, a type of the site, the type including at least one of a refinery, an oilfield, an oil pipeline, a gas station, and a reservoir;

Determining detection parameters corresponding to the types according to the types;

Detecting pollution information of the field according to the detection parameters to obtain first pollution information of the field;

determining location information of the venue;

The pollution information database is created based on the site identification, the location information, and the first pollution information of the site.

In another possible implementation, the detection parameters include basic data of the site and pollution treatment stage parameters of the site;

The basic data comprises at least one of site name, site number, administrative area where the site is located, site unit, occupied area, pollution degree, soil target pollutant, soil modification area, groundwater target pollutant, groundwater pollution area, repair cost, repair time and site coordinate information;

the pollution treatment stage parameters include one of completing a preliminary survey, completing a detailed survey, completing a risk assessment, completing a risk management, completing a treatment repair, completing an effect assessment, not conducting a survey, and having been renamed from a national management system.

In another possible implementation, the first pollution information of the target site includes second pollution information of a plurality of detection points within the target site;

The displaying the first pollution information of the target site includes:

for each detection point, determining a second rendering color matched with second pollution information of the detection point according to the second pollution information of the detection point;

Determining a three-dimensional cylinder corresponding to the detection point based on a second rendering color and second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information;

and displaying the three-dimensional column corresponding to the detection point.

In another possible implementation, the method further includes:

the first pollution information comprises the current first concentration of target pollutants in the target site, and risk early warning is carried out on the target site in response to the first concentration being greater than a preset concentration value; or alternatively

The first pollution information comprises a first concentration change value of target pollutants detected by the target site in a first preset time, and risk early warning is carried out on the target site in response to the first concentration change value being larger than a preset concentration change value.

In another aspect, the present application provides a pollution information display device for a site, the device comprising:

The acquisition module is used for acquiring the position information and the first pollution information of a plurality of sites in the target area;

A first determining module, configured to determine, for each site, a first rendering color of a site icon of the site according to first pollution information of the site;

The first display module is used for displaying the field icons of the fields in the electronic map according to the position information and the first rendering color;

the second display module is used for responding to the triggering of the site icon of the target site and displaying a site information list, wherein the site information list comprises an acquisition inlet of first pollution information of the target site;

and the third display module is used for displaying the first pollution information of the target site in response to the triggering of the acquisition entrance.

In one possible implementation, the first pollution information includes first concentration information of a target pollutant; the first determining module is used for determining the pollution level of each site according to the first concentration information of the target pollutants of the site; and determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.

In another possible implementation, the first contamination information includes contamination processing stage information; the first determining module is used for determining a pollution treatment stage of each site according to the pollution treatment stage information of the site; and determining a first rendering color corresponding to the pollution processing stage from the corresponding relation between the pollution processing stage and the rendering color according to the pollution processing stage, and obtaining the first rendering color of the field icon of the field.

In another possible implementation manner, the acquiring module is configured to acquire, for each site, a site identifier of the site; according to the site identification, acquiring position information and first pollution information corresponding to the site identification from a pollution information database; and the pollution information database stores the corresponding relation among the site identification, the position information and the pollution information.

In another possible implementation, the apparatus further includes:

A second determination module for determining, for each site, a type of the site, the type including at least one of a refinery, an oilfield, an oil pipeline, a gas station, and a reservoir;

the third determining module is used for determining detection parameters corresponding to the type according to the type;

The detection module is used for detecting pollution information of the field according to the detection parameters to obtain first pollution information of the field;

A fourth determining module, configured to determine location information of the venue;

and the creation module is used for creating the pollution information database based on the site identification, the position information and the first pollution information of the site.

In another possible implementation, the detection parameters include basic data of the site and pollution treatment stage parameters of the site; the basic data comprises at least one of site name, site number, administrative area where the site is located, site unit, occupied area, pollution degree, soil target pollutant, soil modification area, groundwater target pollutant, groundwater pollution area, repair cost, repair time and site coordinate information; the pollution treatment stage parameters include one of completing a preliminary survey, completing a detailed survey, completing a risk assessment, completing a risk management, completing a treatment repair, completing an effect assessment, not conducting a survey, and having been renamed from a national management system.

In another possible implementation, the first pollution information of the target site includes second pollution information of a plurality of detection points within the target site; the third display module is used for determining a second rendering color matched with the second pollution information of each detection point according to the second pollution information of the detection point; determining a three-dimensional cylinder corresponding to the detection point based on a second rendering color and second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information; and displaying the three-dimensional column corresponding to the detection point.

In another possible implementation, the apparatus further includes:

The early warning module is used for carrying out risk early warning on the target site in response to the fact that the first concentration is larger than a preset concentration value, wherein the first pollution information comprises the first concentration of the current target pollutants of the target site; or alternatively

The early warning module is used for carrying out risk early warning on the target site in response to the fact that the first concentration change value is larger than a preset concentration change value.

The technical scheme provided by the embodiment of the application has the beneficial effects that at least:

The embodiment of the application provides a method for displaying pollution information of a field, which is characterized in that field icons of a plurality of fields in a target area are displayed through a first rendering color of each field in an electronic map, so that the pollution information of the plurality of fields can be displayed to a user in a visualized manner through field icons of different rendering colors, and the user can quickly know the approximate pollution condition of the plurality of fields in the electronic map. When a user wants to acquire detailed pollution information of a certain site, the computer equipment can be triggered to display the detailed pollution information of the site directly by triggering the site map, so that the detailed pollution information of the site can be acquired. Therefore, the application can not only rapidly acquire the approximate pollution conditions of a plurality of sites, but also rapidly acquire detailed pollution information of any site, thereby improving the efficiency of acquiring the pollution information of the sites.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a method for displaying pollution information of a site according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a venue icon within an electronic map showing a plurality of venues within a target area according to an embodiment of the present application;

FIG. 3 is a schematic diagram of a field map for indicating a pollution treatment stage of a field, according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a field map for indicating the pollution level of a field according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a statistical result of counting the number of field icons in different areas according to an embodiment of the present application;

FIG. 6 is a diagram of a statistical result of counting the number of field icons at different stages of pollution treatment according to an embodiment of the present application;

FIG. 7 is a schematic diagram showing first pollution information of a target site according to an embodiment of the present application;

FIG. 8 is a schematic diagram showing the contamination level of a target site according to an embodiment of the present application;

FIG. 9 is a schematic diagram showing a pollution level contour of a target site according to an embodiment of the present application;

fig. 10 is a block diagram of a pollution information display device for a site according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a flowchart of a pollution information display method according to an embodiment of the present application. Referring to fig. 1, the method includes:

101. the computer device obtains location information and first pollution information for a plurality of sites within a target area.

The target area may be divided by administrative area, e.g., XX province, XX city, etc. The target area may also be a user-defined area, such as a coastal area, a western area, or the like. The first pollution information includes first concentration information of the target pollutant. Target contaminants include groundwater target contaminants and soil target contaminants. In another possible implementation, the first pollution information comprises pollution treatment stage information for the site.

In one possible implementation, the computer device obtains location information and first pollution information for the site from a locally stored pollution information database. Correspondingly, the method comprises the following steps: the method comprises the steps that for each site, the computer equipment acquires a site identifier of the site; according to the site identification, acquiring position information and first pollution information corresponding to the site identification from a pollution information database; the pollution information database stores the corresponding relation among the site identification, the position information and the pollution information.

The site identifier may be a site name or a site number corresponding to the site. Such as XX factory floor, etc.

In another possible implementation, the computer device obtains location information and first pollution information for the site from a pollution information database stored by the server. Correspondingly, the method comprises the following steps: the computer equipment acquires the site identification of each site for each site in the target area, and sends a pollution information acquisition request to the server, wherein the pollution information acquisition request carries the site identification of each site. The server receives the pollution information acquisition request, acquires the position information and the first pollution information corresponding to the site identification from the pollution information database according to the site identification, and returns the position information and the first pollution information to the computer equipment. The computer device obtains location information and first pollution information for a plurality of sites within the target area.

It should be noted that, the computer device may obtain the position information and the first pollution information of each site in the target area, so that the number of site icons of a plurality of sites in the target area is increased, and the richness of obtaining the pollution information of the sites is improved.

The computer device may also acquire only location information and first pollution information of the same type of site within the target area. Correspondingly, the method comprises the following steps: the method comprises the steps that for each site in a target area, the computer equipment acquires the type and the site identification of each site; and determining the target type, and acquiring position information and first pollution information corresponding to the target type and the site identification from a pollution information database according to the target type and the site identification to obtain the position information and the first pollution information of a plurality of sites in the target area.

Among the types of sites include refineries, oil fields, oil pipelines, gas stations, and reserves. The target types include at least one of refineries, oil fields, oil pipelines, gas stations, and reserves.

In the embodiment of the application, the computer equipment only acquires the position information and the first pollution information of the sites of the same type in the target area, so that the site icons of the same type can be prominently displayed, the pertinence of the site icons is improved, and the contrast of the acquired pollution information of the sites is improved.

Another point to be described is that the computer equipment needs to build a pollution information database before acquiring the site identification of the site for each site. The pollution information database can be stored locally on the computer equipment or can be stored in a server connected with the computer equipment through a network.

The computer equipment establishes a pollution information database by the steps of: the computer device determining, for each site, a type of site, the type including at least one of a refinery, an oilfield, an oil pipeline, a gas station, and a reservoir; determining detection parameters corresponding to the types according to the types; detecting pollution information of the field according to the detection parameters to obtain first pollution information of the field; determining location information of a venue; a pollution information database is created based on the site identification, the location information, and the first pollution information for the site.

Wherein the detection parameters comprise the basic data of the site and the pollution treatment stage parameters of the site. The base data includes at least one of site name, site number, administrative area where the site is located, site unit, occupied area, pollution level, soil target pollutant, soil modification area, groundwater target pollutant, groundwater pollution area, repair cost, repair time, and site coordinate information. The pollution treatment stage parameters include one of completing a preliminary survey, completing a detailed survey, completing a risk assessment, completing a risk management, completing a treatment repair, completing an effect assessment, not conducting a survey, and having been renamed from a national management system.

102. For each venue, the computer device determines a first rendering color of a venue icon for the venue based on the first pollution information for the venue.

The field icon may be a positioning icon for positioning the position of the field, may be a circular icon, or may be a star icon, and in the embodiment of the present application, the shape of the field icon is not particularly limited, and may be set and changed as required. The color of the field icons may be one of white, gray, blue, yellow, orange, bluish, red and green. Wherein the computer device may represent the different first contamination information by field icons of different colors.

In one possible implementation, the first pollution information includes first concentration information of the target pollutant. Correspondingly, the method comprises the following steps: for each site, the computer equipment determines the pollution level of the site according to the first concentration information of the target pollutants of the site; and determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.

In another possible implementation, the first contamination information includes contamination process stage information. Correspondingly, the computer equipment determines the first rendering color of the field map object according to the first pollution information by the steps of: for each site, the computer equipment determines the pollution treatment stage of the site according to the pollution treatment stage information of the site; and determining a first rendering color corresponding to the pollution processing stage from the corresponding relation between the pollution processing stage and the rendering color according to the pollution processing stage, and obtaining the first rendering color of the field icon of the field.

103. The computer device displays a field icon of the field in the electronic map according to the position information and the first rendering color.

In one possible implementation manner, the location information is coordinate information of a field, and accordingly, the steps are as follows: the computer equipment determines the display position of the field map object in the electronic map according to the coordinate information of each field, and determines the rendering color of the field map object according to the first rendering color of each field; and displaying the field icons of the multiple fields in the target area in the electronic map according to the display position and the rendering color of each field icon. The electronic map comprises at least one of a topographic map, an elevation map, a ground image map and a Chinese county division map.

In one possible implementation, the computer device directly displays field icons of a plurality of fields in the target area in the electronic map according to the position information and the first rendering color; or the computer equipment displays a main interface of the pollution information display system, and only displays the field icons of the plurality of fields in the electronic map in response to the display icons in the main interface being triggered.

The display icon may be any icon, and in the embodiment of the present application, the shape and name of the display icon are not particularly limited, and may be set and changed as required. For example, referring to FIG. 2, the name of the presentation icon may be "resource navigational tree". Correspondingly, the method comprises the following steps: the computer device presents a main interface of the pollution information presentation system, and presents field icons of a plurality of fields in the electronic map in response to a "resource navigational tree" icon in the main interface being triggered.

It is noted that the first contamination information includes first concentration information of the target contaminant or the first contamination information includes contamination processing stage information.

In one possible implementation, the user may present different first pollution information according to the need. Correspondingly, the step of displaying the field icons of the plurality of fields in the target area in the electronic map by the computer equipment comprises the following steps: the computer equipment displays a main interface of the pollution information display system, and responds to the display icon in the main interface to be triggered, and displays a pollution degree icon and a pollution processing stage icon; displaying field icons of a plurality of fields in the electronic map in response to the pollution level icon being triggered, wherein the field icons are used for representing the pollution levels of the fields; in response to the contamination process stage icon being triggered, site icons for a plurality of sites are presented within the electronic map, the site icons being used to represent the contamination process stages of the sites.

For example, with continued reference to FIG. 2, the name of the presentation icon may be "layer management". Correspondingly, the method comprises the following steps: the computer device displays a main interface of the pollution information display system, and displays a pollution degree icon and a pollution processing stage icon in the electronic map in response to the icon of the picture layer management in the main interface being triggered.

In one possible implementation, referring to fig. 3, the computer device presents venue icons for a plurality of venues in response to a "contaminated process stage" icon being triggered, the venue icons being used to represent contaminated process stages for the venue. In an embodiment of the application, the computer device represents different contamination treatment phases by different colors. For ease of distinction, different colors are respectively assigned different numbers. The method comprises the steps of completing a preliminary survey by a white representative, completing a detailed survey by a gray representative, completing risk assessment by a blue representative, completing risk management by a yellow representative, completing treatment and repair by an orange representative, completing effect assessment by a light blue representative, not performing a survey by a red representative, and removing names from a national management system by a green representative.

In another possible implementation, referring to fig. 4, the computer device displays a venue icon for a plurality of venues in response to the "pollution level" icon being triggered, the venue icon being used to represent the pollution level of the venue. In an embodiment of the application, the computer device indicates different pollution levels through different colors. Wherein green represents clean, blue represents clean, yellow represents light contamination, orange represents moderate contamination, and red represents heavy contamination.

In another possible implementation, the computer device presents a venue icon for a venue of a category within the target area within the electronic map based on the location information and the first rendering color. Correspondingly, the computer equipment displays field icons of a plurality of fields in the target area in the electronic map according to the position information and the first rendering color, and the field icons comprise: the computer device displays category icons of the plurality of sites in the electronic map, and displays the category icons in the electronic map according to the position information and the first rendering color of the sites of the category in response to any category icon being triggered.

Wherein the category icons include at least one of refinery icons, oilfield icons, oil pipeline icons, gas station icons, and reservoir icons.

In one possible implementation, each category corresponds to a presentation layer within which the field icons for that category are presented. Correspondingly, the computer equipment displays the field map icon of the category in the electronic map according to the position information and the first rendering color of the field of the category, and the computer equipment comprises: the computer equipment creates a display layer corresponding to the category according to the position information and the first rendering color of the field of the category, and the display layer comprises a field icon of the category; and displaying the category corresponding display layers in the electronic map.

For example, in response to a refinery icon being triggered, the computer device creates a refinery site corresponding display layer according to the location information and the first rendering color of the refinery site, and displays the refinery site corresponding display layer in an electronic map; the display includes a site icon for the refinery site.

In another possible implementation, after the computer device displays the field icons of the plurality of fields in the target area in the electronic map, the computer device also counts the number of field icons in different areas, and displays the counted result.

For example, referring to fig. 5, different areas are different provinces, which are respectively a, B, C, D, E, F, G, H, I, J, K, L, M, N, and H. The computer device displays the statistics through a histogram. The number of field icons corresponding to the province A is 1, the number of field icons corresponding to the province B is 1, the number of field icons corresponding to the province C is 1, the number of field icons corresponding to the province D is 2, the number of field icons corresponding to the province E is3, the number of field icons corresponding to the province F is 1, the number of field icons corresponding to the province G is 1, the number of field icons corresponding to the province H is 1, the number of field icons corresponding to the province I is 1, the number of field icons corresponding to the province J is 1, the number of field icons corresponding to the province K is3, the number of field icons corresponding to the province L is 1, the number of field icons corresponding to the province M is 1, the number of field icons corresponding to the province N is 6, and the number of field icons corresponding to the province H is 1.

In another possible implementation, after the computer device displays the field icons of the plurality of sites within the target area within the electronic map, the computer device also counts the number of field icons of different stages of pollution processing within the target area and displays the statistics.

For example, referring to fig. 6, the computer device presents the statistics via a histogram. The number of field icons corresponding to the preliminary investigation stage is 1, the number of field icons corresponding to the detailed investigation is 1, the number of field icons corresponding to the risk assessment is 4, the number of field icons corresponding to the risk management is 3, the number of field icons corresponding to the treatment and repair is 2, the number of field icons corresponding to the effect assessment is 3, the number of field icons corresponding to the non-investigation is 5, and the number of field icons corresponding to the names removed from the national management system is 6.

104. The computer device displays a site information list in response to the site icon of the target site being triggered, the site information list including an acquisition portal for first pollution information of the target site.

The first pollution information of the site can be acquired by one or more access points.

105. The computer device displays first pollution information of the target site in response to the acquisition portal being triggered.

In one possible implementation, the first pollution information of the target site includes second pollution information of a plurality of detection points within the target site. Correspondingly, the computer equipment displays the first pollution information of the target site by the steps of: for each detection point, the computer equipment determines a second rendering color matched with the second pollution information according to the second pollution information of the detection point; determining a three-dimensional cylinder corresponding to the detection point based on the second rendering color and the second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information; and displaying the three-dimensional column corresponding to the detection point.

For example, referring to fig. 7, the computer device obtains the area information of the target site as a wire-frame area, determines second pollution information of a plurality of detection points in the target site according to the area information, and determines display information of a three-dimensional column corresponding to the detection points according to the second concentration information. Wherein the three-dimensional columns of different heights at the detection point represent second concentration information of different target pollutants.

In another possible implementation, the first pollution information of the target site is acquired by a plurality of access points. The first pollution information acquisition inlet comprises at least one of an area region acquisition inlet of the target site, a pollution degree contour line acquisition inlet of the target site and a pollution treatment stage acquisition inlet of the target site.

For example, referring to fig. 8, the computer device may be triggered to display the contamination level of the target site in response to the contamination level acquisition portal of the target site. Wherein different colors represent different degrees of contamination. Optionally, the colors A, B, C and D represent different pollution levels.

For another example, referring to fig. 9, the computer device displays the pollution level contour of the target site in response to the pollution level contour acquisition portal of the target site being triggered. Wherein the same curve represents the same contamination level.

It should be noted that, the computer device may also perform risk early warning on the target site with high pollution concentration. In one possible implementation, the first pollution information includes a first concentration of a current target pollutant at the target site. Correspondingly, the computer equipment performs risk early warning steps as follows: and the computer equipment carries out risk early warning on the target site in response to the first concentration being larger than a preset concentration value. The preset concentration value may be a national standard value of the target pollutant concentration, or may be any value between 0.8 and 1.1 times the national standard value. In the embodiment of the present application, the numerical value of the preset concentration value is not particularly limited, and may be set and changed as needed.

In another possible implementation, the first pollution information includes a first concentration variation value of the target pollutant detected by the target site within a first preset time. Correspondingly, the computer equipment performs risk early warning steps as follows: and the computer equipment carries out risk early warning on the target site in response to the first concentration change value being larger than the preset concentration change value. The first concentration change value may be any value between 30% and 50%, for example, 35%, 40%, 45%, etc., and in the embodiment of the present application, the value of the first concentration change value is not particularly limited, and may be set and changed as needed.

In another possible implementation, the first pollution information includes a first concentration of the target pollutant detected by the target site multiple times within a first preset time. The computer device performs risk early warning on the target site in response to the plurality of detected consecutive increases in the first concentration of the target contaminant. The number of times of the plurality of tests may be any number between 1 and 5 times.

The risk early warning method for the target site by the computer equipment is various. For example, the computer device performs risk early warning by displaying a field icon of the target field in red, or performs risk early warning by flashing a field icon of the target field.

The embodiment of the application provides a method for displaying pollution information of a field, which is characterized in that field icons of a plurality of fields in a target area are displayed through a first rendering color of each field in an electronic map, so that the pollution information of the plurality of fields can be displayed to a user in a visualized manner through field icons of different rendering colors, and the user can quickly know the approximate pollution condition of the plurality of fields in the electronic map. When a user wants to acquire detailed pollution information of a certain site, the computer equipment can be triggered to display the detailed pollution information of the site directly by triggering the site map, so that the detailed pollution information of the site can be acquired. Therefore, the application can not only rapidly acquire the approximate pollution conditions of a plurality of sites, but also rapidly acquire detailed pollution information of any site, thereby improving the efficiency of acquiring the pollution information of the sites.

Fig. 10 is a block diagram of a pollution information display device for a site according to an embodiment of the present application, the device including:

an acquiring module 1001, configured to acquire location information and first pollution information of a plurality of sites in a target area;

a first determining module 1002, configured to determine, for each site, a first rendering color of a site icon of the site according to first pollution information of the site;

a first display module 1003, configured to display a field icon of a field in the electronic map according to the location information and the first rendering color;

a second display module 1004, configured to display a site information list in response to a site icon of the target site being triggered, where the site information list includes an acquisition entry of first pollution information of the target site;

a third display module 1005 is configured to display the first pollution information of the target site in response to the acquisition portal being triggered.

In one possible implementation, the first pollution information includes first concentration information of the target pollutant; a first determining module 1002, configured to determine, for each site, a pollution level of the site according to first concentration information of a target pollutant of the site; and determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.

In another possible implementation, the first contamination information includes contamination process stage information; a first determining module 1002, configured to determine, for each site, a pollution treatment stage at which the site is located according to pollution treatment stage information of the site; and determining a first rendering color corresponding to the pollution processing stage from the corresponding relation between the pollution processing stage and the rendering color according to the pollution processing stage, and obtaining the first rendering color of the field icon of the field.

In another possible implementation, an obtaining module 1001 is configured to obtain, for each site, a site identifier of the site; according to the site identification, acquiring position information and first pollution information corresponding to the site identification from a pollution information database; the pollution information database stores the corresponding relation among the site identification, the position information and the pollution information.

In another possible implementation, the apparatus further includes:

A second determination module for determining, for each site, a type of site, the type including at least one of a refinery, an oilfield, an oil pipeline, a gas station, and a reservoir;

the third determining module is used for determining detection parameters corresponding to the types according to the types;

the detection module is used for detecting pollution information of the field according to the detection parameters to obtain first pollution information of the field;

A fourth determining module, configured to determine location information of a site;

The creation module is used for creating a pollution information database based on the site identification, the position information and the first pollution information of the site.

In another possible implementation, the detection parameters include base data of the site and pollution treatment stage parameters of the site; the basic data comprises at least one of site name, site number, administrative area where the site is located, site unit, occupied area, pollution degree, soil target pollutant, soil modification area, groundwater target pollutant, groundwater pollution area, repair cost, repair time and site coordinate information; the pollution treatment stage parameters include one of completing a preliminary survey, completing a detailed survey, completing a risk assessment, completing a risk management, completing a treatment repair, completing an effect assessment, not conducting a survey, and having been renamed from a national management system.

In another possible implementation, the first pollution information of the target site includes second pollution information of a plurality of detection points within the target site; a third display module 1005, configured to determine, for each detection point, a second rendering color matching the second pollution information according to the second pollution information of the detection point; determining a three-dimensional cylinder corresponding to the detection point based on the second rendering color and the second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information; and displaying the three-dimensional column corresponding to the detection point.

In another possible implementation, the apparatus further includes:

The early warning module is used for carrying out risk early warning on the target site in response to the fact that the first pollution information comprises the current first concentration of the target pollutant of the target site and the first concentration is larger than a preset concentration value; or alternatively

The early warning module is used for carrying out risk early warning on the target site in response to the fact that the first concentration change value is larger than the preset concentration change value, wherein the first pollution information comprises a first concentration change value of target pollutants detected by the target site in a first preset time.

The embodiment of the application provides a method for displaying pollution information of a field, which is characterized in that field icons of a plurality of fields in a target area are displayed through a first rendering color of each field in an electronic map, so that the pollution information of the plurality of fields can be displayed to a user in a visualized manner through field icons of different rendering colors, and the user can quickly know the approximate pollution condition of the plurality of fields in the electronic map. When a user wants to acquire detailed pollution information of a certain site, the computer equipment can be triggered to display the detailed pollution information of the site directly by triggering the site map, so that the detailed pollution information of the site can be acquired. Therefore, the application can not only rapidly acquire the approximate pollution conditions of a plurality of sites, but also rapidly acquire detailed pollution information of any site, thereby improving the efficiency of acquiring the pollution information of the sites.

The foregoing description of the preferred embodiments of the present application is not intended to limit the application, but rather, the application is to be construed as limited to the appended claims.

Claims (9)

1. A method for displaying pollution information of a site, the method comprising:

Acquiring position information and first pollution information of a plurality of sites in a target area;

For each field, determining a first rendering color of a field icon of the field according to first pollution information of the field;

Displaying a field icon of the field in an electronic map according to the position information and the first rendering color;

Responsive to a venue icon of a target venue being triggered, displaying a venue information list, the venue information list including an acquisition portal for first pollution information of the target venue, the acquisition portal for first pollution information being one or more;

If the first pollution information acquisition entrance is one, the first pollution information comprises second pollution information of a plurality of detection points in the target site; in response to the acquisition portal of the first pollution information being triggered, for each detection point, determining a second rendering color matching the second pollution information according to the second pollution information of the detection point; determining a three-dimensional cylinder corresponding to the detection point based on a second rendering color and second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information; displaying a three-dimensional column corresponding to the detection point;

If the plurality of the first pollution information acquisition inlets are provided, the first pollution information acquisition inlet comprises at least one of an area region acquisition inlet of the target site, a pollution degree contour acquisition inlet of the target site and a pollution treatment stage acquisition inlet of the target site; responding to the pollution degree acquisition inlet of the target site to be triggered, displaying the pollution degree of the target site, wherein different colors represent different pollution degrees; responding to the triggering of a pollution degree contour line acquisition inlet of the target site, and displaying the pollution degree contour line of the target site, wherein the same curve represents the same pollution degree;

after displaying the field map of the field within the electronic map, the method further comprises:

Counting the number of the field icons in different areas, and displaying the counting result; or counting the number of field icons of different pollution treatment stages in the target area, and displaying the counting result.

2. The method of claim 1, wherein the first pollution information comprises first concentration information of a target pollutant;

For each site, determining a first rendering color of a site icon of the site according to the first pollution information of the site, including:

Determining, for each site, a pollution level of the site according to first concentration information of target pollutants of the site;

And determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.

3. The method of claim 1, wherein the first contamination information comprises contamination process stage information;

For each site, determining a first rendering color of a site icon of the site according to the first pollution information of the site, including:

for each site, determining a pollution treatment stage of the site according to the pollution treatment stage information of the site;

and determining a first rendering color corresponding to the pollution processing stage from the corresponding relation between the pollution processing stage and the rendering color according to the pollution processing stage, and obtaining the first rendering color of the field icon of the field.

4. The method of claim 1, wherein the acquiring location information and first pollution information for a plurality of sites within the target area comprises:

For each site, acquiring a site identifier of the site;

according to the site identification, acquiring position information and first pollution information corresponding to the site identification from a pollution information database;

And the pollution information database stores the corresponding relation among the site identification, the position information and the pollution information.

5. The method of claim 4, wherein, for each venue, prior to acquiring the venue identification for the venue, the method further comprises:

determining, for each site, a type of the site, the type including at least one of a refinery, an oilfield, an oil pipeline, a gas station, and a reservoir;

Determining detection parameters corresponding to the types according to the types;

Detecting pollution information of the field according to the detection parameters to obtain first pollution information of the field;

determining location information of the venue;

The pollution information database is created based on the site identification, the location information, and the first pollution information of the site.

6. The method of claim 5, wherein the detection parameters include site base data and site pollution treatment stage parameters;

The basic data comprises at least one of site name, site number, administrative area where the site is located, site unit, occupied area, pollution degree, soil target pollutant, soil modification area, groundwater target pollutant, groundwater pollution area, repair cost, repair time and site coordinate information;

the pollution treatment stage parameters include one of completing a preliminary survey, completing a detailed survey, completing a risk assessment, completing a risk management, completing a treatment repair, completing an effect assessment, not conducting a survey, and having been renamed from a national management system.

7. The method according to claim 1, wherein the method further comprises:

the first pollution information comprises the current first concentration of target pollutants in the target site, and risk early warning is carried out on the target site in response to the first concentration being greater than a preset concentration value; or alternatively

The first pollution information comprises a first concentration change value of target pollutants detected by the target site in a first preset time, and risk early warning is carried out on the target site in response to the first concentration change value being larger than a preset concentration change value.

8. A pollution information display device for a site, the device comprising:

The acquisition module is used for acquiring the position information and the first pollution information of a plurality of sites in the target area;

A first determining module, configured to determine, for each site, a first rendering color of a site icon of the site according to first pollution information of the site;

The first display module is used for displaying the field icons of the fields in the electronic map according to the position information and the first rendering color;

The second display module is used for responding to the triggering of the site icon of the target site, displaying a site information list, wherein the site information list comprises one or more acquisition inlets of first pollution information of the target site;

the third display module is used for obtaining the first pollution information, wherein the first pollution information comprises second pollution information of a plurality of detection points in the target site if the first pollution information is obtained in one mode; in response to the acquisition portal of the first pollution information being triggered, for each detection point, determining a second rendering color matching the second pollution information according to the second pollution information of the detection point; determining a three-dimensional cylinder corresponding to the detection point based on a second rendering color and second pollution information of the detection point, wherein the color of the three-dimensional cylinder is the second rendering color, and the height of the three-dimensional cylinder is matched with the second pollution information; displaying a three-dimensional column corresponding to the detection point; if the plurality of the first pollution information acquisition inlets are provided, the first pollution information acquisition inlet comprises at least one of an area region acquisition inlet of the target site, a pollution degree contour acquisition inlet of the target site and a pollution treatment stage acquisition inlet of the target site; responding to the pollution degree acquisition inlet of the target site to be triggered, displaying the pollution degree of the target site, wherein different colors represent different pollution degrees; responding to the triggering of a pollution degree contour line acquisition inlet of the target site, and displaying the pollution degree contour line of the target site, wherein the same curve represents the same pollution degree;

The third display module is further used for counting the number of the field icons in different areas and displaying the counting result; or counting the number of field icons of different pollution treatment stages in the target area, and displaying the counting result.

9. The apparatus of claim 8, wherein the first pollution information comprises first concentration information of a target pollutant;

The first determining module is used for determining the pollution level of each site according to the first concentration information of the target pollutants of the site; and determining a first rendering color corresponding to the pollution level from the corresponding relation between the pollution level and the rendering color according to the pollution level, and obtaining the first rendering color of the field icon of the field.