WRF-CHEM-based large point pollution source atmosphere environment influence evaluating method

A WRF-CHEM, atmospheric environment technology, applied in the field of atmospheric environmental impact assessment, can solve problems such as inability to apply large-scale point pollution source environmental impact assessment work, no parameterization scheme and method system for environmental impact assessment, poor simulation effect, etc.

Active Publication Date: 2016-03-16
ELECTRIC POWER PLANNING & ENG INST +1
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Problems solved by technology

Since the effect of the model in the regional simulation is closely related to the physical and chemical parameterization scheme, it is necessary to parameterize the radiation, land surface process, boundary layer, microphysics, cloud physics, gas phase chemistry, aerosol chemistry and other schemes to improve the effect of the system simulation. However, the current environmental impact assessment work lacks related work using WRF-CHEM, and there is no parametric scheme and method system that can

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  • WRF-CHEM-based large point pollution source atmosphere environment influence evaluating method
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  • WRF-CHEM-based large point pollution source atmosphere environment influence evaluating method

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[0033] The accompanying drawings are used to provide a further understanding of the present invention, and constitute a part of the description, and are used together with the embodiments of the present invention to explain the present invention, and do not constitute a limitation to the present invention.

[0034] figure 1 This embodiment is based on the flow chart of the method for assessing the atmospheric environment impact of large-scale point pollution sources based on WRF-CHEM. This embodiment mainly simulates the impact of a proposed power plant in Hebei on the atmospheric environment in the Beijing-Tianjin-Hebei region. The simulation time includes two parts: one is continuous In each month of the whole year for 5 years, the influence of inter-annual climate differences is eliminated by averaging the simulation results of 5 years. The second is a period of time under typical heavy pollution weather conditions in winter, for example, from November 17th to December 2nd f...

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Abstract

A WRF-CHEM-based large point pollution source atmosphere environment influence evaluating method comprises the following steps: acquiring meteorology data and landform data, arranging a simulation area, and preprocessing the meteorology data and the landform data; selecting different parameterization scheme combinations having large influences on simulation, and designing a contrast experiment scheme; acquiring artificial source discharge and natural source discharge lists, and carrying out space, time, discharge height and species division and other pretreatments; running a WRF-CHEM model, and comparing simulation results of the different parameterization scheme combinations with observation data to obtain an optimum simulation scheme; processing large point pollution source discharge data, adding the processed large point pollution source discharge data to the model under the optimum simulation scheme, and running the WRF-CHEM; comparing the large point pollution source considered simulation result with the result under the optimum simulation scheme, and evaluating the degree and range of influences of the large point pollution source on circumferential atmosphere environment; and visually displaying the simulation result, and providing management decision basis for environment influence evaluating reports.

Description

technical field [0001] The invention relates to the technical field of atmospheric environment impact assessment, in particular to an atmospheric environment impact assessment method for large point pollution sources. Background technique [0002] With the rapid development of my country's economic level, the continuous improvement of urbanization, the rapid growth of urban motor vehicles, and the increasing demand for energy consumption, my country's urban air pollution has changed from soot-type pollution to high-concentration PM 2.5 It is characterized by complex air pollution, and the smog problem has become a serious problem that plagues human development. [0003] The environmental impact assessment system is a basic environmental protection legal system in my country, which refers to the analysis, prediction and assessment of the environmental impacts that may be caused by the implementation of planning and construction projects, and to propose countermeasures and mea...

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Application Information

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IPC IPC(8): G01N33/00G06F17/50
CPCG01N33/0004G06F30/367
Inventor 苏燊燊赵锦洋
Owner ELECTRIC POWER PLANNING & ENG INST
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