Wind tunnel experiments of air flow patterns over nabkhas modeled after those from the Hotan River basin, Xinjiang, China (I): non-vegetated
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- 作者:Zhizhong Li (1)
Shengli Wu (1)
Janis Dale (2)
Lin Ge (1)
Mudan He (1)
Xiaofeng Wang (1)
Jianhui Jin (1)
Rong Ma (1)
Jinwei Liu (1)
Wanjuan Li (1) - 关键词:nabkha ; sand mounds ; wind tunnel experiment ; wind flow pattern
- 刊名:Frontiers of Earth Science
- 出版年:2008
- 出版时间:September 2008
- 年:2008
- 卷:2
- 期:3
- 页码:333-339
- 全文大小:823KB
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Shengli Wu (1)
Janis Dale (2)
Lin Ge (1)
Mudan He (1)
Xiaofeng Wang (1)
Jianhui Jin (1)
Rong Ma (1)
Jinwei Liu (1)
Wanjuan Li (1)
1. School of Geography Science and Tourism, Xinjiang Normal University, Urumqi, 830054, China
2. Department of Geology, University of Regina, Regina, SK, Canada, S4S 0A2 - ISSN:2095-0209
文摘
A nabkha is a vegetated sand mound, which is typical of the aeolian landforms found in the Hotan River basin in Xinjiang, China. This paper compares the results of a series of wind tunnel experiments with an on-site field survey of nabkhas in the Hotan River basin of Xinjiang. Wind tunnel experiments were conducted on semi-spherical and conical sand mounds without vegetation or shadow dunes. Field mounds were 40 times as large as the size of the wind tunnel models. In the wind tunnel experiments, five different velocities from 6 to 14 m/s were selected and used to model the wind flow pattern over individual sand mound using clean air without additional sand. Changes in the flow pattern at different wind speeds resulted in changes to the characteristic structure of the nabkha surface. The results of the experiments for the semi-spherical sand mound at all wind velocities show the formation of a vortex at the bottom of the upwind side of the mound that resulted in scouring and deposition of a crescentic dune upwind of the main mound. The top part of the sand mound is strongly eroded. In the field, these dunes exhibited the same scouring and crescentic dune formation and the eroded upper surface was often topped by a layer of peat within the mound suggesting destroyed vegetation due to river channel migration or by possible anthropogenic forces such as fuel gathering, etc. Experiments for the conical mounds exhibit only a small increase in velocity on the upwind side of the mound and no formation of a vortex at the bottom of the upwind side. Instead, a vortex formed on the leeward side of the mound and overall, no change occurred in the shape of the conical mound. In the field, conical mounds have no crescentic dunes on the upwind side and no erosion at the top exposed below peat beds. Therefore, the field and laboratory experiments show that semi-spherical and conical sand mounds respond differently to similar wind conditions with different surface configuration and development of crescent-shaped upwind deposits when using air devoid of additional sediment.