Wave propagation through a stationary field of clouds: a homogenisation approach

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
E. J. Goldsmith, James G. Esler
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引用次数: 0

Abstract

The effect of a sub‐grid scale cloud field on the propagation of long atmospheric waves is investigated using a new scale‐consistent formulation based upon the asymptotic theory of homogenisation. A key aim is to quantify potential model errors in wave propagation speeds, introduced by using averaged fields in place of the fully resolved circulation, in the setting of a simple stratified Boussinesq mid‐latitude β‐channel model. The effect of the cloud field, represented here by a random array of strongly nonlinear axisymmetric circulations, is found to appear in the large‐scale governing equations through new terms which redistribute the large‐scale buoyancy and horizontal momentum fields in the vertical. These new terms, which have the form of non‐local integral operators, are linear in the cloud number density, and are fully determined by the solution of a linear elliptic equation known as a cell problem. The cell problem in turn depends upon the details of the nonlinear cloud circulations. The integral operators are calculated explicitly for example cloud fields and then dispersion relations are compared for different waves in the presence of clouds at realistic densities. The main finding is that baroclinic Rossby waves are significantly slowed and damped by the clouds, whilst inertia‐gravity waves are affected almost exclusively by damping, most strongly at the lowest frequencies. In contrast, all waves with a barotropic structure are found to be almost unaffected by the presence of clouds, even at the highest realistic cloud densities.An important consequence of this study is a new approach to the closure of sub‐grid scale cloud fields in the parameterisation of convection in large‐scale atmospheric models.This article is protected by copyright. All rights reserved.
波浪在静止云场中的传播:一种均匀化方法
采用基于均匀化渐近理论的新尺度一致公式,研究了亚网格尺度云场对大气长波传播的影响。一个关键的目标是在简单分层Boussinesq中纬度β通道模型的设置下,通过使用平均场代替完全分解环流引入波传播速度的潜在模型误差。云场的影响,在这里表现为强非线性轴对称环流的随机阵列,发现通过新的项出现在大尺度控制方程中,这些新项在垂直方向上重新分配了大尺度浮力和水平动量场。这些新项具有非局部积分算子的形式,在云数密度中是线性的,并且完全由称为单元问题的线性椭圆方程的解决定。单元问题反过来又取决于非线性云环流的细节。以云场为例,明确地计算了积分算符,然后比较了实际密度下云存在下不同波的色散关系。主要发现是斜压罗斯比波被云层显著地减缓和阻尼,而惯性重力波几乎完全受到阻尼的影响,在最低频率上最强烈。相反,所有具有正压结构的波被发现几乎不受云存在的影响,即使在最高的实际云密度下也是如此。这项研究的一个重要结果是为大尺度大气模式对流参数化中亚网格尺度云场的闭合提供了一种新方法。这篇文章受版权保护。版权所有。
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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来源期刊
CiteScore
16.80
自引率
4.50%
发文量
163
审稿时长
3-8 weeks
期刊介绍: The Quarterly Journal of the Royal Meteorological Society is a journal published by the Royal Meteorological Society. It aims to communicate and document new research in the atmospheric sciences and related fields. The journal is considered one of the leading publications in meteorology worldwide. It accepts articles, comprehensive review articles, and comments on published papers. It is published eight times a year, with additional special issues. The Quarterly Journal has a wide readership of scientists in the atmospheric and related fields. It is indexed and abstracted in various databases, including Advanced Polymers Abstracts, Agricultural Engineering Abstracts, CAB Abstracts, CABDirect, COMPENDEX, CSA Civil Engineering Abstracts, Earthquake Engineering Abstracts, Engineered Materials Abstracts, Science Citation Index, SCOPUS, Web of Science, and more.
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