2001
DOI: 10.1016/s0169-555x(00)00038-6
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The distribution of velocity and energy of saltating sand grains in a wind tunnel

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Cited by 116 publications
(121 citation statements)
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“…(2) fits well to the observed data with R 2 z 0.94. Wind tunnel experiments by Zou et al (2001) also show that the increase in the velocity of windblown sand particles with height can be expressed by a power function. The difference between their results and ours is that their results focus on resultant particle velocity, whereas ours concern mean downwind velocity.…”
Section: Variations Of the Mean Downwind Velocity Of A Blowing Sand Cmentioning
confidence: 95%
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“…(2) fits well to the observed data with R 2 z 0.94. Wind tunnel experiments by Zou et al (2001) also show that the increase in the velocity of windblown sand particles with height can be expressed by a power function. The difference between their results and ours is that their results focus on resultant particle velocity, whereas ours concern mean downwind velocity.…”
Section: Variations Of the Mean Downwind Velocity Of A Blowing Sand Cmentioning
confidence: 95%
“…There are complex mass and energy exchanges among saltating grains, grains on the surface, and the airflow. Moreover, there are processes difficult to consider in theoretical models such as the Magnus effect and Saffman lifting force (White and Schulz, 1977;Zou et al, 2001).…”
Section: Introductionmentioning
confidence: 99%
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“…The sand movement in a saltation cloud is very complex. Sand velocity is a key factor in studying the vertical distribution of its kinetic energy, which determines the variation of abrasion intensity with height (e.g., Sharp, 1964;Suzuki and Takahashi, 1981;Greeley and Iversen, 1985;Anderson, 1986;Zou et al, 2001;Dong et al, 2004a). Hence, the sand velocity is an important parameter in the study of sand transport by wind.…”
Section: Introductionmentioning
confidence: 99%
“…Most observations of sand movement on a bed surface are from high-speed photography in a wind tunnel (e.g., Mitha et al, 1986;Willetts and Rice, 1986;Rice et al, 1995Rice et al, , 1996Nalpanis et al, 1993). In general, the grain-bed collision process is difficult to measure directly from the high-speed photography because the grains are crowded at the very low height (e.g., Nalpanis et al, 1993;Zou et al, 2001). But recently, by using the advanced high-speed CMOS camera with very high frame rate of 2000 fps, Zhang et al (2007a,b) captured the trajectories and velocities of sand grains in the region very close to the ground surface at the lower free-stream wind velocity (less than 10 m/s).…”
Section: Introductionmentioning
confidence: 99%