Modeling the effect of humidity on the threshold friction velocity of coal particles

Coal particles emission could cause serious air pollution in coal production region and transport region. In coal mining industry, large amounts of water are regularly spayed to coal piles to prevent dust emission from the coal particles. The mechanism behind this measure is to manage the threshold friction velocity, which is an important parameter in controlling wind erosion and dust emission. Bagnold has developed a threshold friction velocity model for soil particles. However, the Bagnold model cannot be applied directly to coal particles as coal particles are quite different from soils in physical and chemical properties. We studied and modeled threshold friction velocity of coal particles under different humidities by using a wind tunnel. Results showed that the effects of humidity on coal particles’ threshold friction velocity are related to the hydrophilic effect and adhesive effect. Bagnold model can be corrected by two new parameter items which explained the two effects. The new model, agreed well with wind tunnel measurements for coal particles with different size categories. Despite the fact the new model was developed for coal particles, its physical basis may allow the model application to other wind susceptible particles.

► We modeled threshold friction velocity for humidity influenced coal particles. ► It is questionable to apply the soil TFV model to coal, as different properties. ► Humidity effects on coal TFV are attributed to hydrophilic and adhesive effects. ► Hydrophilic and adhesive effect were explained by two new parameter items. ► The new model performances well for coal particles.