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Interactions between gravity waves and cold air outflows in a stably stratified uniform flowInteractions between gravity waves and cold air outflows in a stably stratified uniform flow forced by various combinations of prescribed heat sinks and sources are studied using a hydrostatic two-dimensional nonlinear numerical model. The formation time for the development of a stagnation point or reversed flow at the surface is not always directly proportional to the Froude number when wave reflections exist from upper levels. A density current is able to form by the wave-otuflow interaction, even though the Froude number is greater than a critical value. This is the result of the wave-outflow interaction shifting the flow response to a different location in the characteristic parameter space. A density current is able to form or be destroyed due to the wave-outflow interaction between a traveling gravity wave and cold air outflow. This is proved by performing experiments with a steady-state heat sink and an additional transient heat source. In a quiescent fluid, a region of cold air, convergence, and upward motion is formed after the collision between two outflows produced by two prescribed heat sinks. After the collision, the individual cold air outflows lose their own identity and merge into a single, stationary, cold air outflow region. Gravity waves tend to suppress this new stationary cold air outflow after the collision. The region of upward motion associated with the collision is confined to a very shallow layer. In a moving airstream, a density current produced by a heat sink may be suppressed or enhanced nonlinearly by an adjacent heat sink due to the wave-outflow interaction.
Document ID
19950044396
Acquisition Source
Legacy CDMS
Document Type
Reprint (Version printed in journal)
Authors
Lin, Yuh-Lang
(North Carolina State Univ. Raleigh, NC, United States)
Wang, Ting-An
(North Carolina State Univ. Raleigh, NC, United States)
Weglarz, Ronald P.
(North Carolina State Univ. Raleigh, NC, United States)
Date Acquired
August 16, 2013
Publication Date
November 15, 1993
Publication Information
Publication: Journal of the Atmospheric Sciences
Volume: 50
Issue: 22
ISSN: 0022-4928
Subject Category
Geophysics
Accession Number
95A75995
Funding Number(s)
CONTRACT_GRANT: NAG5-1790
CONTRACT_GRANT: NOAA-GC-91-112
Distribution Limits
Public
Copyright
Other

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