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Forecasting method for influence of ship waste on bathing beach environment under strong wind condition

A beach bathing and environmental impact technology, applied in the direction of forecasting, instrumentation, data processing applications, etc., can solve the problem of not distinguishing the types of pollutants

Inactive Publication Date: 2018-11-06
镇江海物信息技术有限公司
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Problems solved by technology

Numerical model methods have been widely used in the simulation of marine oil spills and the dispersion of pollutants, but most numerical models do not distinguish the types of pollutants when simulating the movement of pollutants, but generally treat pollutants as a class of substances

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  • Forecasting method for influence of ship waste on bathing beach environment under strong wind condition
  • Forecasting method for influence of ship waste on bathing beach environment under strong wind condition
  • Forecasting method for influence of ship waste on bathing beach environment under strong wind condition

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Embodiment Construction

[0006] The present invention will be based on a set of three-dimensional wave-flow-sediment coupling model that integrates the SWAN wave model, the FVCOM flow field model and the FVCOM sediment model to calculate the flow field and wave field information required by the pollutant diffusion model . The three-dimensional wave-current-sediment coupling model uses the wind field data calculated by the WRF atmospheric model as the surface forcing, and the tidal information calculated by the TPXO tidal model as the driving condition of the model boundary. The pollutant diffusion model will be based on the Lagrangian example tracking technology, and integrate a variety of pollutant diffusion sub-models corresponding to different types of pollutants, and fully consider the influence of wind on the movement of different types of pollutants in the oil pollution diffusion model .

[0007] The specific implementation steps of the present invention are as follows: 1. The wind field data i...

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Abstract

The invention provides a forecasting method for influence of ship waste on a bathing beach environment under a strong wind condition. On the basis of a set of three-dimensional wave-flow-sediment coupled model on which an SWAN wave model, an FVCOM flow field model and an FVCOM sediment model are integrated, flow field and wave field information required by a pollutant diffusion model is calculated. According to the three-dimensional wave-flow-sediment coupled model, wind field data calculated through adoption of a WRF atmosphere model is taken as surface force, and tide information calculatedthrough utilization of a TPXO tide model is taken as a model boundary drive condition. According to the pollutant diffusion model, on the basis of a Lagrange particle tracking technology, various pollutant diffusion submodels corresponding to different pollutant types are integrated, and the influence of wind on motion of different types of pollutants is taken into full consideration in an oil pollutant diffusion model.

Description

technical field [0001] The invention relates to the field of beach environment forecasting, in particular to a method for forecasting the impact of ship waste on the beach environment under strong wind conditions. Background technique [0002] Pollutants that affect the beach environment include floating debris, fecal coliform bacteria, and petroleum, and the discharge of ship waste is also one of the main sources of these pollutants. After the ship waste is discharged from the hull, it can follow the ocean current for a long distance and cause serious impact on the environment of the passing beach. Numerical model methods have been widely used in the simulation of marine oil spills and the dispersion of pollutants, but most numerical models do not distinguish the types of pollutants when simulating the movement of pollutants, but generally treat pollutants as a class of substances . Obviously, different types of pollutants have different properties in the process of movem...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/04G06Q10/06
CPCG06Q10/04G06Q10/06393
Inventor 黄云柯科腾陈伟
Owner 镇江海物信息技术有限公司
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