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Storm surge simulation method combining concentric circle grids and novel typhoon field mode

A simulation method, the technology of concentric circles, applied in the field of storm surge simulation, can solve the problems of poor accuracy, lower overall grid quality, and low calculation accuracy of wind velocity field, and achieve good orthogonality and smoothness, fast overall calculation speed, The effect of high accuracy in near-field calculations

Pending Publication Date: 2021-03-02
OCEAN RES CENT OF ZHOUSHAN ZHEJIANG UNIV
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Problems solved by technology

Since a typhoon is an ocean-scale event with a migration span of hundreds to thousands of kilometers, it is difficult to describe the migration process of a typhoon and the high-precision calculation of storm surges in small sea areas in the same set of grids with orthogonal curved grids. When the grid is refined, the calculation efficiency will be greatly reduced, and it is even difficult to forecast storm surges; while the grid refinement of the local sea area will greatly reduce the overall grid quality, affecting the accuracy of the calculation results
The triangular grid needs to be re-interpolated when calculating the hydrodynamic elements of the section, resulting in poor accuracy and difficult to meet the requirements of storm surge forecasting
The air pressure field calculated by the commonly used typhoon field model in the world is relatively accurate, but the calculation accuracy of the wind speed field is very low, and it cannot be used to accurately simulate the storm tidal velocity. Therefore, the previous storm surge simulation only focused on the storm surge water increase, and the typhoon storm tidal velocity was hardly involved.

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  • Storm surge simulation method combining concentric circle grids and novel typhoon field mode
  • Storm surge simulation method combining concentric circle grids and novel typhoon field mode
  • Storm surge simulation method combining concentric circle grids and novel typhoon field mode

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Embodiment Construction

[0036] In order to describe the technical features and effects of the present invention more clearly, the specific implementation manners of the present invention will now be described in detail according to the accompanying drawings.

[0037] refer to figure 1 , figure 1 It is a flow chart of a storm surge simulation method combining a concentric circle grid and a new typhoon field model according to the present invention, which specifically includes the following steps:

[0038] 1. According to the research questions, determine the overall scope of the ocean dynamics model, collect water depth data in the sea area, coastline data, and data such as typhoon path, typhoon center pressure, and maximum wind speed required for storm surge simulation.

[0039] 2. According to the requirements of the concentric circle grid, select the research area as the center of the circle to establish a cylindrical coordinate system, and determine the open boundary of the model at sea and the c...

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Abstract

The invention provides a storm surge simulation method combining concentric circle grids and a novel typhoon field mode. The storm surge simulation method is achieved through concentric circle orthogonal grids, the novel parameterized typhoon field mode and a storm surge simulation method. The concentric circle grids can give consideration to the offshore large-scale typhoon migration process andthe high-precision calculation of the small-scale typhoon storm surge, and in combination with the novel parameterized typhoon field mode, the storm surge simulation method can quickly simulate the typhoon storm surge, and the simulation precision of the storm surge flow velocity is remarkably improved. The concentric circle grid technology researched and developed by the invention has the advantages of wide coverage area, high local resolution, equal grid length and width, good orthogonality and smoothness, high near-field calculation precision, high overall calculation speed and the like; the novel typhoon field mode can accurately provide a typhoon air pressure field and a wind speed field; a storm surge model combining concentric circle grids and a novel typhoon field mode can accurately simulate storm surge flow velocity.

Description

technical field [0001] The invention belongs to the field of marine disaster prevention and mitigation, and in particular relates to a storm surge simulation method combining concentric circle grids and a new typhoon field model. Background technique [0002] my country's coastal areas are heavily affected by typhoon disasters, accounting for more than 90% of marine disasters, and Zhejiang Province is the province with the most frequent typhoon surges. Storm surges caused by strong typhoons lead to catastrophic events such as flooding of seawater dikes and collapse of seawalls, causing huge losses to the lives and property of residents in coastal cities, and severely restricting the economic and social development of coastal areas. In order to make reasonable use of marine resources and space, accurate simulation and forecasting of typhoon surges is crucial to reduce marine disaster losses and achieve sustainable development of marine economy. [0003] With the development ...

Claims

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Application Information

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IPC IPC(8): G06F30/20
CPCG06F30/20Y02A90/10
Inventor 孙志林丁凯璇李宗宇郑榕孟鑫
Owner OCEAN RES CENT OF ZHOUSHAN ZHEJIANG UNIV
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