A Class of Finite-Volume Models for Atmospheric Flows Across Scales

2018 Atmospheric and Space Environments Conference Pub Date : 2018-06-24 DOI:10.2514/6.2018-3497

J. Szmelter, M. Gillard, P. Smolarkiewicz, C. Kühnlein

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Abstract

The paper examines recent advancements in the class of Nonoscillatory Forward-in-Time (NFT) schemes that exploit the implicit LES (ILES) properties of Multidimensional Positive Definite Advection Transport Algorithm (MPDATA). The reported developments address both global and limited area models spanning a range of atmospheric flows, from the hydrostatic regime at planetary scale, down to mesoscale and microscale where flows are inherently nonhydrostatic. All models operate on fully unstructured (and hybrid) meshes and utilize a median dual mesh finite volume discretisation. High performance computations for global flows employ a bespoke hybrid MPI-OpenMP approach and utilise the ATLAS library. Simulations across scales—from a global baroclinic instability epitomising evolution of weather systems down to stratified orographic flows rich in turbulent phenomena due to gravity-wave breaking in dispersive media, verify the computational advancements and demonstrate the efficacy of ILES both in regularizing large scale flows at the scale of the mesh resolution and taking a role of a subgrid-scale turbulence model in simulation of turbulent flows in the LES regime.

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一类跨尺度大气流动的有限体积模型

本文研究了利用多维正定平流传输算法(MPDATA)的隐式LES (ILES)特性的非振荡时向(NFT)方案的最新进展。报告的发展涉及全球和有限区域模型，涵盖一系列大气流动，从行星尺度的流体静力学制度，到中尺度和微观尺度的流动本质上是非流体静力学的。所有模型都在完全非结构化(和混合)网格上运行，并利用中位数双网格有限体积离散化。全球流的高性能计算采用定制的MPI-OpenMP混合方法，并利用ATLAS库。跨尺度的模拟——从全球斜压不稳定的天气系统演变，到由于重力波破坏的非分散介质而产生的富含湍流现象的分层地形流——验证了计算上的进步，并证明了iles在网格分辨率尺度上规范大尺度流动的有效性，以及在LES制度下的湍流模拟中扮演亚网格尺度湍流模型的角色。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Atmospheric and Space Environments Conference

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