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Mountain Atmospherics
Authore(s) : Kern E. Kenyon || professeur
Volume : (13), Issue : (8), June - 2020
Abstract :
The purpose of the work is to examine the effects of compressibility on air properties when a wind blows against a sloping mountain surface. Previous research of air compression effects include the low speed wing and the crests of surface gravity waves propagating in the wind. In both cases, an algebraic expression was obtained for the lift force. When wind blows across a mountain and the assumption is made that a boundary layer of compressed air forms and remains attached to the mountain, a physical-chemical theory predicts that the wind will have no shear and the pressure and density will decrease with increasing altitude at the same rate. Combining Bernoulli’s law along streamlines with the cross-stream force balance, pressure gradient equals centrifugal force, and the perfect gas law for air, is the model used here.
Keywords :Mountain Winds, Compressed Air, Upward Decreases of Pressure and Density
Article: Download PDF Journal DOI : 121/320
Cite This Article:
Mountain Atmospherics
Vol.I (13), Issue.I (8)
Article No : 11587
Number of Downloads : 100
References :
Kenyon, K.E. (2021) Lift on a Low Speed Circular Arc Wing Due to Air Compression. Natural Science, 13, 88-90. https://doi.org/10.4236/ns.2021.133008
Kenyon, K.E. (2021) Wind Wave Growth. Natural Science, 13, 137-139.
https://doi.org/10.4236/ns.2021.135013
Kenyon, K.E. (2021) Lift Force at Equatorial Sea Level Due to Compressed Air Dynamics of the Trade Wind’s Boundary Layer. Natural Science, 13,... More
- Kenyon, K.E. (2021) Lift on a Low Speed Circular Arc Wing Due to Air Compression. Natural Science, 13, 88-90. https://doi.org/10.4236/ns.2021.133008
- Kenyon, K.E. (2021) Wind Wave Growth. Natural Science, 13, 137-139.
https://doi.org/10.4236/ns.2021.135013
- Kenyon, K.E. (2021) Lift Force at Equatorial Sea Level Due to Compressed Air Dynamics of the Trade Wind’s Boundary Layer. Natural Science, 13, 191-193.
https://doi.org/10.4236/ns.2021.136015
- Kenyon, K.E. (2020) Atmosphere’s Scale-Height: A Comment. European International Journal of Science and Technology, 9, 33-35.
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- Kenyon, K.E. (2021) Lift on a Low Speed Circular Arc Wing Due to Air Compression. Natural Science, 13, 88-90. https://doi.org/10.4236/ns.2021.133008
- Kenyon, K.E. (2021) Wind Wave Growth. Natural Science, 13, 137-139. https://doi.org/10.4236/ns.2021.135013
- Kenyon, K.E. (2021) Lift Force at Equatorial Sea Level Due to Compressed Air Dynamics of the Trade Wind’s Boundary Layer. Natural Science, 13, 191-193. https://doi.org/10.4236/ns.2021.136015
- Kenyon, K.E. (2020) Atmosphere’s Scale-Height: A Comment. European International Journal of Science and Technology, 9, 33-35.