An analytic solution for linear gravity waves in a channel as a test for numerical models using the non-hydrostatic, compressible Euler equations

Michael Baldauf; Slavko Brdar

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An analytic solution for linear gravity waves in a channel as a test for numerical models using the non-hydrostatic, compressible Euler equations

机译：通道中线性重力波的解析解，作为使用非静液压可压缩欧拉方程的数值模型的检验

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A slightly modified version of the idealized test set-up used by Skamarock and Klemp is proposed: the quasi linear two-dimensional expansion of sound and gravity waves in a flat channel induced by a weak warm bubble. For this test case an exact analytic solution of the linearized compressible, non-hydrostatic Euler equations for a shallow atmosphere has been derived. This solution can be used as a benchmark to assess compressible, non-hydrostatic dynamical cores which are the basis for many of today's, and probably most of the future, atmospheric models. Comparisons and convergence studies of two quite differently designed numerical limited-area simulation models, COSMO and DUNE, against this analytic solution are performed.

机译：提出了Skamarock和Klemp使用的理想化测试设置的略微修改版本：由弱温泡引起的平坦通道中的声波和重力波的准线性二维扩展。对于该测试案例，已经得出了针对浅层大气的线性化可压缩非静液压欧拉方程的精确解析解。该解决方案可以用作评估可压缩的非静液压动力核心的基准，而这些核心是当今以及未来大多数大气模型的基础。针对此解析解，对两个设计完全不同的数值有限区域仿真模型COSMO和DUNE进行了比较和收敛研究。

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《Quarterly Journal of the Royal Meteorological Society》 |2013年第677期|共13页
作者
Michael Baldauf; Slavko Brdar;
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正文语种 eng
中图分类大气科学（气象学）;
关键词
dynamical core; idealized test; limited-area numerical simulations;

机译：动态核心;理想化测试;有限区域数值模拟;

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1. An analytic solution for linear gravity waves in a channel as a test for numerical models using the non-hydrostatic, compressible Euler equations [J] . Michael Baldauf, Slavko Brdar Quarterly Journal of the Royal Meteorological Society . 2013,第677期

机译：通道中线性重力波的解析解，作为使用非静液压可压缩欧拉方程的数值模型的检验
2. Singular convergence to nonlinear diffusion waves for solutions to the Cauchy problem for the compressible Euler equations with damping [J] . Di Francesco M., Marcati P. Mathematical models and methods in applied sciences . 2002,第9期

机译：具有阻尼的可压缩Euler方程Cauchy问题解的非线性扩散波的奇异收敛性。
3. Gravity wave momentum flux in directional shear flows over three-dimensional mountains: Linear and nonlinear numerical solutions as compared to linear analytical solutions [J] . Xu X., Xue M., Wang Y. Journal of Geophysical Research, D. Atmospheres: JGR . 2013,第14期

机译：三维山上定向剪切流中的重力波动量通量：与线性解析解相比的线性和非线性数值解
4. Analytical Solutions of Non-linear Flow and Transport Equations to Test Numerical Models for Simulating Flow and Transport in Unsaturated Soils [C] . Jan Vanderborght, Roy Kasteel, Mihael Ciocanaru, Workshop on mathematical modelling of environmental problems . 2002

机译：非线性流动和输送方程的分析解，以试验模拟仿真和运输在不饱和土壤中的数值模型
5. Strong wave interactions, exact solutions and singularity formations for the compressible Euler equations. [D] . Chen, Geng. 2010

机译：可压缩的欧拉方程的强波相互作用，精确解和奇异性形成。
6. Blowup Phenomenon of Solutions for the IBVP of the Compressible Euler Equations in Spherical Symmetry [O] . Ka Luen Cheung, Sen Wong 2016

机译：球形对称可压缩Euler方程IBVP解的爆破现象。
7. Curl free pressure gradients over orography in a solution of the fully compressible Euler equations with implicit treatment of acoustic and gravity waves [O] . Weller Hilary, Shahrokhi Ava 2014

机译：在完全可压缩的Euler方程的解决方案中对地形进行卷曲的自由压力梯度，并对声波和重力波进行隐式处理

An analytic solution for linear gravity waves in a channel as a test for numerical models using the non-hydrostatic, compressible Euler equations

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