Full text loading...
Review Article
Atmospheric Lee Waves
- M G Wurtele, R D Sharman, and A Datta
- Vol. 28:429-476 (Volume publication date January 1996) https://doi.org/10.1146/annurev.fl.28.010196.002241
-
© Annual Reviews
Atmospheric Lee Waves, Page 1 of 1
< Previous page | Next page > /docserver/preview/fulltext/fluid/28/1/annurev.fl.28.010196.002241-1.gifThere is no abstract available.
Article metrics loading...
/content/journals/10.1146/annurev.fl.28.010196.002241
1996-01-01
2024-04-27
/content/journals/10.1146/annurev.fl.28.010196.002241
Supplemental Material
Supplementary Data
-
Figure 10. Photograph of dust storm over Arvin and Bakersfield, CA, on December 20, 1977, taken from an altitude of 5000 feet (courtesy of UNIFO Enterprises). At the surface, wind gusts locally exceeded 100 mph.
Figure 11. Horizontal velocity field from simulation initialized with sounding upwind of dust storm of Figure 10. The (deformed) critical level can be seen at about 4.5 km, and there are local surface areas with speeds greater than 50 m s-1.
- Article Type: Review Article
Most Read This Month
Article
content/journals/fluid
Journal
5
3
false
en
Most Cited Most Cited RSS feed
-
-
-
-
Engineering Flows in Small Devices: Microfluidics Toward a Lab-on-a-Chip
H.A. Stone, A.D. Stroock, and A. AjdariVol. 36 (2004), pp. 381–411
-
-
-
The Proper Orthogonal Decomposition in the Analysis of Turbulent Flows
G Berkooz, P Holmes, and J L LumleyVol. 25 (1993), pp. 539–575
-
-
-
-
-
-
-
Particle-Imaging Techniques for Experimental Fluid Mechanics
Vol. 23 (1991), pp. 261–304
-
-
-
-
-
DROP IMPACT DYNAMICS: Splashing, Spreading, Receding, Bouncing…
Vol. 38 (2006), pp. 159–192
-
-
-
-
-
- More Less