CN116663703A - Atmospheric pollutant diffusion prediction method and system - Google Patents
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- 238000003912 environmental pollution Methods 0.000 description 3
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Abstract
The invention discloses an atmospheric pollutant diffusion prediction method and system. The atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices; the atmospheric pollutant diffusion prediction method comprises the following steps: the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time; and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result. The invention can simulate the physical displacement process of pollutant diffusion and predict the movement trend of the pollutant so as to predict the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting related departments in controlling and preventing the atmospheric pollution.
Description
Technical Field
The invention relates to the technical field of electronic information, in particular to an atmospheric pollutant diffusion prediction method and system.
Background
Because the industrialization and town degree of each region are inconsistent, the atmospheric environmental pollution condition of each region is different. Among the typical contaminant particulates responsible for atmospheric pollution are sulfur dioxide (SO 2) and nitrogen dioxide (NO 2).
Therefore, in order to monitor the atmospheric environmental pollution of each region, monitoring devices are arranged in many regions, and the monitoring devices can measure the concentration of pollutant particles in the atmospheric environment so as to obtain the local atmospheric environmental pollution. However, the existing monitoring equipment can only monitor the concentration of pollutant particles in the current atmospheric environment, and cannot predict the pollution degree in the atmospheric environment for a period of time in the future, so that related departments cannot be effectively assisted in effectively controlling and preventing the atmospheric pollution.
Disclosure of Invention
In order to solve the problems, the invention provides an atmospheric pollutant diffusion prediction method and an atmospheric pollutant diffusion prediction system, which can simulate the physical displacement process of pollutant diffusion and predict the movement trend of pollutants so as to predict the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting related departments in controlling and preventing the atmospheric pollution.
In order to achieve the above purpose, the invention adopts the following technical scheme:
an atmospheric contaminant diffusion prediction method is applied to an atmospheric contaminant diffusion prediction system,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
Further, on-line monitoring equipment includes treater, atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit, the treater with atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit are connected.
Further, the meteorological information acquisition component comprises a temperature and humidity sensor, a wind power and wind direction sensor, a rainfall sensor and an atmospheric pressure sensor.
Further, the atmospheric contaminant diffusion prediction center includes: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly.
Further, the different pollutant discharge zones include residential communities, malls, schools, factories, roads, restaurants, and construction sites.
An atmospheric contaminant diffusion prediction system for performing an atmospheric contaminant diffusion prediction method,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
Further, on-line monitoring equipment includes treater, atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit, the treater with atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit are connected.
Further, the meteorological information acquisition component comprises a temperature and humidity sensor, a wind power and wind direction sensor, a rainfall sensor and an atmospheric pressure sensor.
Further, the atmospheric contaminant diffusion prediction center includes: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly.
Further, the different pollutant discharge zones include residential communities, malls, schools, factories, roads, restaurants, and construction sites.
The invention has the beneficial effects that:
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices; the atmospheric pollutant diffusion prediction method comprises the following steps: the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time; and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result. The invention can simulate the physical displacement process of pollutant diffusion and predict the movement trend of the pollutant so as to predict the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting related departments in controlling and preventing the atmospheric pollution. In short, the invention can predict the atmospheric environment condition of a period of time in the future and give corresponding alarm according to the current atmospheric pollution condition, thereby providing a data base for related departments, facilitating the related departments to take intervention measures in advance and effectively controlling and preventing the atmospheric pollution.
Drawings
FIG. 1 is a flow chart of a method for predicting atmospheric contaminant diffusion according to the present invention.
Detailed Description
Referring to fig. 1, the present invention relates to a method and a system for predicting atmospheric contaminant diffusion, which can simulate the physical displacement process of contaminant diffusion and predict the movement trend of the contaminant, so as to predict the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting the related departments to control and prevent the atmospheric contaminant.
Example 1
An atmospheric contaminant diffusion prediction method is applied to an atmospheric contaminant diffusion prediction system,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
The embodiment 1 of the invention can simulate the physical displacement process of pollutant diffusion and forecast the movement trend of the pollutant so as to forecast the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting related departments in controlling and preventing the atmospheric pollution. In short, the invention can predict the atmospheric environment condition of a period of time in the future and give corresponding alarm according to the current atmospheric pollution condition, thereby providing a data base for related departments, facilitating the related departments to take intervention measures in advance and effectively controlling and preventing the atmospheric pollution.
Further, on-line monitoring equipment includes treater, atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit, the treater with atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit are connected. Further, the meteorological information acquisition component comprises a temperature and humidity sensor, a wind power and wind direction sensor, a rainfall sensor and an atmospheric pressure sensor. Further, the atmospheric contaminant diffusion prediction center includes: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly. Further, the different pollutant discharge zones include residential communities, malls, schools, factories, roads, restaurants, and construction sites.
Example 2
An atmospheric contaminant diffusion prediction system for performing an atmospheric contaminant diffusion prediction method,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
The embodiment 2 of the invention can simulate the physical displacement process of pollutant diffusion and forecast the movement trend of the pollutant so as to forecast the atmospheric environment condition of a certain area for a period of time in the future, thereby assisting related departments in controlling and preventing the atmospheric pollution. In short, the invention can predict the atmospheric environment condition of a period of time in the future and give corresponding alarm according to the current atmospheric pollution condition, thereby providing a data base for related departments, facilitating the related departments to take intervention measures in advance and effectively controlling and preventing the atmospheric pollution.
Further, on-line monitoring equipment includes treater, atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit, the treater with atmospheric pollution thing information acquisition subassembly, meteorological information acquisition subassembly, big dipper positioning component, first communication subassembly, power supply unit are connected. Further, the meteorological information acquisition component comprises a temperature and humidity sensor, a wind power and wind direction sensor, a rainfall sensor and an atmospheric pressure sensor. Further, the atmospheric contaminant diffusion prediction center includes: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly. Further, the different pollutant discharge zones include residential communities, malls, schools, factories, roads, restaurants, and construction sites.
The above embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the scope of protection defined by the claims of the present invention without departing from the spirit of the design of the present invention.
Claims (10)
1. An atmospheric pollutant diffusion prediction method is characterized in that the atmospheric pollutant diffusion prediction method is applied to an atmospheric pollutant diffusion prediction system,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
2. The atmospheric contaminant diffusion prediction method according to claim 1, wherein the on-line monitoring device comprises a processor, an atmospheric contaminant information acquisition component, a weather information acquisition component, a Beidou positioning component, a first communication component and a power supply component, and the processor is connected with the atmospheric contaminant information acquisition component, the weather information acquisition component, the Beidou positioning component, the first communication component and the power supply component.
3. The atmospheric contaminant diffusion prediction method according to claim 2, wherein said weather information gathering component comprises a temperature and humidity sensor, a wind direction sensor, a rainfall sensor, and an atmospheric pressure sensor.
4. The atmospheric contaminant diffusion prediction method according to claim 1, wherein said atmospheric contaminant diffusion prediction center comprises: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly.
5. The atmospheric contaminant diffusion prediction method according to claim 1, wherein said different contaminant discharge areas comprise residential communities, malls, schools, factories, roads, restaurants, and construction sites.
6. An atmospheric contaminant diffusion prediction system, characterized in that the atmospheric contaminant diffusion prediction system is configured to perform an atmospheric contaminant diffusion prediction method,
the atmospheric pollutant diffusion prediction system comprises an atmospheric pollutant diffusion prediction center and a plurality of on-line monitoring devices, wherein the atmospheric pollutant diffusion prediction center is connected with the on-line monitoring devices;
the atmospheric pollutant diffusion prediction method comprises the following steps:
the on-line monitoring equipment collects the atmospheric pollutant information and the meteorological information of different pollutant emission areas and transmits the information and the meteorological information to an atmospheric pollutant diffusion prediction center in real time;
and the atmospheric pollutant diffusion prediction center predicts the atmospheric pollutant diffusion condition of each pollutant discharge area according to the atmospheric pollutant information and the meteorological information, and performs early warning according to a prediction result.
7. The atmospheric contaminant diffusion prediction system according to claim 6, wherein the on-line monitoring device comprises a processor, an atmospheric contaminant information collection assembly, a weather information collection assembly, a Beidou positioning assembly, a first communication assembly, and a power supply assembly, wherein the processor is connected with the atmospheric contaminant information collection assembly, the weather information collection assembly, the Beidou positioning assembly, the first communication assembly, and the power supply assembly.
8. The atmospheric contaminant diffusion prediction system according to claim 7, wherein said weather information gathering component comprises a temperature and humidity sensor, a wind direction sensor, a rain sensor, and an atmospheric pressure sensor.
9. The atmospheric contaminant diffusion prediction system according to claim 6, wherein said atmospheric contaminant diffusion prediction center comprises: the device comprises a pollutant diffusion prediction processing assembly, a second communication assembly and an early warning assembly, wherein the pollutant diffusion prediction processing assembly is connected with the second communication assembly and the early warning assembly, and the second communication assembly is connected with the first communication assembly.
10. The atmospheric contaminant diffusion prediction system according to claim 6, wherein said different contaminant discharge areas comprise residential communities, malls, schools, factories, roads, restaurants, and construction sites.
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| CN202310392500.3A CN116663703A (en) | 2023-04-12 | 2023-04-12 | Atmospheric pollutant diffusion prediction method and system |
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Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109932988A (en) * | 2019-03-27 | 2019-06-25 | 四川瞭望工业自动化控制技术有限公司 | A kind of city raised dust contamination forecasting system and method |
| CN111461405A (en) * | 2020-03-09 | 2020-07-28 | 平安国际智慧城市科技股份有限公司 | Pollutant diffusion prediction method, device, equipment and storage medium |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109932988A (en) * | 2019-03-27 | 2019-06-25 | 四川瞭望工业自动化控制技术有限公司 | A kind of city raised dust contamination forecasting system and method |
| CN111461405A (en) * | 2020-03-09 | 2020-07-28 | 平安国际智慧城市科技股份有限公司 | Pollutant diffusion prediction method, device, equipment and storage medium |
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