Effects of Temperature and Humidity upon the Entrainment of Sedimentary Particles by Wind |
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| Authors: | Cheryl Mckenna Neuman |
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| Institution: | (1) Department of Geography, Trent University, Peterborough, Ontario, Canada, K9J 7B8 |
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| Abstract: | Aeolian transport of sedimentary particles is a well-recognized phenomenon in cold regions, but the effect of low temperature (T) and specific humidity (q) upon particle entrainment has not previously been investigated. This study reports on wind-tunnel experiments (-12 °C  T 32 °C, and 1 g kg-1 q 10 g kg-1) that suggest the aerodynamic drag required to entrain sand sized particles can be 30% lower in cold or high latitude settings, as compared to hot deserts. For any given regional wind velocity, this effect will increase the wind strength index and thereby the proportion of time a surface is active at low temperature.The influence of air temperature and humidity upon the threshold for particle motion is determined by three physical processes: (1) The effect of air viscosity and density on the fluid drag force acting to dislodge sedimentary particles; (2) the effect of viscosity on the turbulent wake shed from these particles, and the frequency and magnitude of burst-sweep events; and (3) the development of inter-particle cohesion via adsorbed water. This study considers the relative importance of each of these processes. The threshold friction velocity model of Shao and Lu is revised to incorporate the inter-particle force associated with hygroscopic water. It is found to perform well when tested against the experimental data obtained for this study. |
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| Keywords: | Aeolian transport Cold regions Threshold friction velocity Wind-tunnel simulation |
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