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    Mechanisms of Along-Valley Winds and Heat Exchange over Mountainous Terrain

    Source: Journal of the Atmospheric Sciences:;2010:;Volume( 067 ):;issue: 009::page 3033
    Author:
    Schmidli, Juerg
    ,
    Rotunno, Richard
    DOI: 10.1175/2010JAS3473.1
    Publisher: American Meteorological Society
    Abstract: The physical mechanisms leading to the formation of diurnal along-valley winds are investigated over idealized three-dimensional topography. The topography used in this study consists of a valley with a horizontal floor enclosed by two isolated mountain ridges on a horizontal plain. A diagnostic equation for the along-valley pressure gradient is developed and used in combination with numerical model simulations to clarify the relative role of various forcing mechanisms such as the valley volume effect, subsidence heating, and surface sensible heat flux effects. The full diurnal cycle is simulated using comprehensive model physics including radiation transfer, land surface processes, and dynamic surface?atmosphere interactions. The authors find that the basic assumption of the valley volume argument of no heat exchange with the free atmosphere seldom holds. Typically, advective and turbulent heat transport reduce the heating of the valley during the day and the cooling of the valley during the night. In addition, dynamically induced valley?plain contrasts in the surface sensible heat flux can play an important role. Nevertheless, the present analysis confirms the importance of the valley volume effect for the formation of the diurnal along-valley winds but also clarifies the role of subsidence heating and the limitations of the valley volume effect argument. In summary, the analysis brings together different ideas of the valley wind into a unified picture.
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      Mechanisms of Along-Valley Winds and Heat Exchange over Mountainous Terrain

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4212027
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    contributor authorSchmidli, Juerg
    contributor authorRotunno, Richard
    date accessioned2017-06-09T16:34:31Z
    date available2017-06-09T16:34:31Z
    date copyright2010/09/01
    date issued2010
    identifier issn0022-4928
    identifier otherams-70265.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4212027
    description abstractThe physical mechanisms leading to the formation of diurnal along-valley winds are investigated over idealized three-dimensional topography. The topography used in this study consists of a valley with a horizontal floor enclosed by two isolated mountain ridges on a horizontal plain. A diagnostic equation for the along-valley pressure gradient is developed and used in combination with numerical model simulations to clarify the relative role of various forcing mechanisms such as the valley volume effect, subsidence heating, and surface sensible heat flux effects. The full diurnal cycle is simulated using comprehensive model physics including radiation transfer, land surface processes, and dynamic surface?atmosphere interactions. The authors find that the basic assumption of the valley volume argument of no heat exchange with the free atmosphere seldom holds. Typically, advective and turbulent heat transport reduce the heating of the valley during the day and the cooling of the valley during the night. In addition, dynamically induced valley?plain contrasts in the surface sensible heat flux can play an important role. Nevertheless, the present analysis confirms the importance of the valley volume effect for the formation of the diurnal along-valley winds but also clarifies the role of subsidence heating and the limitations of the valley volume effect argument. In summary, the analysis brings together different ideas of the valley wind into a unified picture.
    publisherAmerican Meteorological Society
    titleMechanisms of Along-Valley Winds and Heat Exchange over Mountainous Terrain
    typeJournal Paper
    journal volume67
    journal issue9
    journal titleJournal of the Atmospheric Sciences
    identifier doi10.1175/2010JAS3473.1
    journal fristpage3033
    journal lastpage3047
    treeJournal of the Atmospheric Sciences:;2010:;Volume( 067 ):;issue: 009
    contenttypeFulltext
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