AERMOD: A Dispersion Model for Industrial Source Applications. Part I: General Model Formulation and Boundary Layer Characterization.

Journal of Applied Meteorology Pub Date : 2005-05-01 DOI:10.1175/JAM2227.1

A. Cimorelli, S. Perry, A. Venkatram, J. Weil, R. Paine, R. Wilson, Russell F. Lee, W. Peters, R. Brode

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引用次数: 558

Abstract

Abstract The formulation of the American Meteorological Society (AMS) and U.S. Environmental Protection Agency (EPA) Regulatory Model (AERMOD) Improvement Committee’s applied air dispersion model is described. This is the first of two articles describing the model and its performance. Part I includes AERMOD’s characterization of the boundary layer with computation of the Monin–Obukhov length, surface friction velocity, surface roughness length, sensible heat flux, convective scaling velocity, and both the shear- and convection-driven mixing heights. These parameters are used in conjunction with meteorological measurements to characterize the vertical structure of the wind, temperature, and turbulence. AERMOD’s method for considering both the vertical inhomogeneity of the meteorological characteristics and the influence of terrain are explained. The model’s concentration estimates are based on a steady-state plume approach with significant improvements over commonly applied regulatory dispersion models. Co...

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AERMOD:工业源应用的色散模型。第一部分:一般模型公式和边界层表征。

摘要介绍了美国气象学会(AMS)和美国环境保护署(EPA)监管模型(AERMOD)改进委员会的应用空气弥散模型的制定。本文是描述该模型及其性能的两篇文章中的第一篇。第一部分包括AERMOD对边界层的表征，计算了Monin-Obukhov长度、表面摩擦速度、表面粗糙度长度、感热通量、对流结垢速度以及剪切和对流驱动的混合高度。这些参数与气象测量一起用于表征风、温度和湍流的垂直结构。介绍了AERMOD同时考虑气象特征垂直不均匀性和地形影响的方法。该模型的浓度估计基于稳态羽流方法，与常用的调节分散模型相比有了显著改进。有限公司…

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Journal of Applied Meteorology

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