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适用于非静力大气模式的近似黎曼求解器应用研究

魏杰姝陈春刚张寅钲唐杰沈学顺肖锋李兴良

气象学报2024，Vol.82Issue(3)：371-384,14.

气象学报2024，Vol.82Issue(3)：371-384,14.DOI:10.11676/qxxb2024.20230130

适用于非静力大气模式的近似黎曼求解器应用研究

Application of the approximate Riemann solver to vertical motion of air in nonhydrostatic atmospheric models

魏杰姝 ¹陈春刚 ²张寅钲 ³唐杰 ⁴沈学顺 ⁴肖锋 ⁵李兴良⁴

作者信息

1. 中国气象科学研究院,北京,100081||中国气象局地球系统数值预报中心,北京,100081
2. 西安交通大学,西安,710049
3. 成都市温江区气象局,成都,610072
4. 中国气象局地球系统数值预报中心,北京,100081
5. 东京工业大学机械工程系,东京,152-8850
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摘要

Abstract

An application study of three kinds of vertical approximate Riemann solvers have been carried out based on a multi-moment nonhydrostatic atmospheric model,which has the characteristics of high accuracy and numerical conservation.The conservative finite difference scheme is used in the vertical direction and the numerical flux in the cell boundary is realized by solving the Riemann problem,which plays a key role in accurately simulating vertical motion in the nonhydrostatic atmosphere.LLF(Local Lax-Friderich),LMARS(Low Mach Approximate Riemann Solver)and HLLC(Harten-Lax-van Leer Contact)are three kinds of approximate Riemann solvers commonly used in the computational fluid dynamics(CFD),and their computational cost and complexity are gradually increasing.One-dimensional standard numerical test show that the cost of LLF solver is the lowest,yet it has strong dissipation.LMARS is assumed to be suitable for atmospheric flow,and its numerical viscosity is not so large and the cost of computation is modest.The inclusion of the third wave in HLLC can avoid excessive numerical dissipation of the intermediate characteristic field.By adjusting the coefficient of the largest eigenvalue of different eigenwaves in LLF solver,the optimized LLF solver can achieve the same performance as that by the relatively complex LMARS and HLLC approximate Riemann solvers,and remain the lowest computational cost.Two-dimensional nonhydrostatic numerical test indicate that the optimized LLF approximate Riemann solver correctly simulates small-scale nonhydrostatic vertical motion and is competitive with the more complex LMARS and HLLC approximate Riemann solvers without increasing the amount of computation.This result provides a good reference for the study of nonhydrostatic atmospheric numerical models.

关键词

近似黎曼求解器/守恒型有限差分方法/多矩约束有限体积方法/非静力大气模式

Key words

Approximate Riemann solver/Conservative finite difference scheme/Multi-moment constrained finite volume method/Nonhydrostatic atmosphere model

分类

天文与地球科学

引用本文复制引用

魏杰姝,陈春刚,张寅钲,唐杰,沈学顺,肖锋,李兴良..适用于非静力大气模式的近似黎曼求解器应用研究[J].气象学报,2024,82(3):371-384,14.

基金项目

国家自然科学基金项目(42275168、42105002). （42275168、42105002）

气象学报

OA北大核心CSTPCD

ISSN：0577-6619

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