EQUATIONS OF THERMOHYDRODYNAMICS OF A QUASI-GEOSTROPHIC AND HYDROSTATIC ATMOSPHERE IN THE PROBLEMS OF REGIONAL ECOLOGY

Успехи современного естествознания (Advances in Current Natural Sciences) Pub Date : 1900-01-01 DOI:10.17513/use.37411

K. Kalazhokov, F. Uvizheva

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Abstract

Sciences», Nalchik, e-mail: iipru@rambler.ru This article considers the main directions of the analysis of the ecological characteristics of the atmosphere of local and global scales. Based on the analysis of the results of computational experiments to study the dynamics of large-scale atmospheric processes in the framework of the equations of a quasi-geostrophic and hydrostatic model of the atmosphere, the possibility of their application to solve problems of regional ecology is shown. Ecological problems on a regional scale are considered, where mathematical models of the dynamics of atmospheric processes in quasi-geostrophic and hydrostatic approximations are used to determine flow fields and turbulent characteristics of the atmosphere. The boundary conditions are given in the first approximation on the earth’s surface and on the upper boundary of the troposphere for the vertical velocity component. The mathematical formulation of the problem of the transfer of environmentally harmful impurities in the atmosphere of the region in the form of three-phase aerosols is presented, under the assumption that the dispersed component of the aerosols is liquid droplets and solid particles of the polydisperse spectrum in size, particle size. The mathematical formulation of the problem of a joint short-term weather forecast and environmental forecast in the region is proposed. The methodological basis for the numerical implementation of the proposed approach to the formulation of problems of forecasting the environmental situation in the region is based on various versions of the original complex problem in the form of a sequence of simple problems using the so-called methods of splitting complex problems. To solve the main problems of regional ecology, the Galerkin spectral computational method is proposed also, which allow obtaining approximate solutions for a wide class of problems under study using fewer RAM and in fewer steps without

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区域生态问题中准地转和静水大气的热流体动力学方程

《科学》，Nalchik, e-mail: iipru@rambler.ru本文考虑了局部和全球尺度大气生态特征分析的主要方向。通过分析在准地转-流体静力大气模式方程框架下研究大尺度大气过程动力学的计算实验结果，指出了它们应用于解决区域生态问题的可能性。考虑了区域尺度上的生态问题，其中使用准地转和流体静力近似的大气过程动力学的数学模型来确定大气的流场和湍流特征。给出了垂直速度分量在地球表面和对流层上界的第一近似边界条件。在假定气溶胶的分散组分为大小、粒径均为多分散光谱的液滴和固体颗粒的前提下，给出了该地区大气中环境有害杂质以三相气溶胶形式转移问题的数学表达式。提出了该地区短期天气预报与环境预报联合问题的数学公式。采用所谓的分解复杂问题的方法，以一系列简单问题的形式将原来的复杂问题加以不同的形式，从而在数值上实现预测该地区环境状况的方法的方法基础上。为了解决区域生态学的主要问题，还提出了Galerkin谱计算方法，该方法可以使用更少的RAM和更少的步骤获得所研究的广泛问题的近似解

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Успехи современного естествознания (Advances in Current Natural Sciences)

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