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contributor authorChuang, Hui-Ya
contributor authorSousounis, Peter J.
date accessioned2017-06-09T16:13:16Z
date available2017-06-09T16:13:16Z
date copyright2000/08/01
date issued2000
identifier issn0027-0644
identifier otherams-63581.pdf
identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4204599
description abstractA new idealized initialization technique has been developed for the Mesoscale Model version 5 modeling system. The technique allows the specification of baroclinic disturbances that feature vertical variations of the height, temperature, and wind fields in terms of phase lag, wavelength, and phase speed. The technique involves specifying a sounding profile at some reference point, generating the desired height fields using an analytic formulation, constructing the wind fields to be in geostrophic balance, and generating temperature fields using the hydrostatic relationship. A distinct advantage of this technique over existing ones is that the boundary conditions are not restricted to being specified as periodic. The flexibility means that 1) users do not have to specify a domain whose size is equal to an integer number of wavelengths of the specified flow; 2) users can specify a flow that consists of different wavelengths at different heights, as is typically observed; and 3) any responses that are generated orographically or thermally in the domain and which leave the eastern boundary will not reenter the western boundary. This last item is particularly advantageous because it allows users to study the effects of a preconditioned environment on subsequent development of a featured disturbance rather than studying the repetitive effects of the same forcing mechanism on the same disturbance. Examples of simulations using initial conditions that are generated with this technique are shown for 1) zonal flow and 2) continuous sinusoidal waves. Flat terrain was adopted for both examples. In example 1, the boundary layer parameterization scheme and surface fluxes were turned off for a simplified zonal flow situation to demonstrate the stability of this technique. During the simulations, the flow remained zonal, exactly as specified, even after 48 h. In example 2, a situation consisting of continuous sinusoidal waves moving across an array of four warm circular lakes was created to demonstrate the utility of the technique for examining how disturbances may be affected by the Great Lakes. Realistic-looking highs, lows, and fronts, along with individual and lake-aggregate enhancements developed by 48 h. Good stability and lack of distortion throughout the domain in both examples add credibility to the technique.
publisherAmerican Meteorological Society
titleA Technique for Generating Idealized Initial and Boundary Conditions for the PSU–NCAR Model MM5
typeJournal Paper
journal volume128
journal issue8
journal titleMonthly Weather Review
identifier doi10.1175/1520-0493(2000)128<2875:ATFGII>2.0.CO;2
journal fristpage2875
journal lastpage2884
treeMonthly Weather Review:;2000:;volume( 128 ):;issue: 008
contenttypeFulltext


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