An equation of atomization quantity from energy dissipation by hydraulic jumpwas derived from dimensional analysis. Applying the Gauss diffusion equation, the spray diffusionin valley was studied under the conditions ...An equation of atomization quantity from energy dissipation by hydraulic jumpwas derived from dimensional analysis. Applying the Gauss diffusion equation, the spray diffusionin valley was studied under the conditions of continuous line source and random wind direction.Considering the spray-rain switching process, coagulation, condensation and evaporation of droplets,the authors calculated the air temperature, air relative humidity, spray density and the rainfallintensity in the lower reaches. The 3-D numerical results agree well with portotype monitoring data.展开更多
文摘An equation of atomization quantity from energy dissipation by hydraulic jumpwas derived from dimensional analysis. Applying the Gauss diffusion equation, the spray diffusionin valley was studied under the conditions of continuous line source and random wind direction.Considering the spray-rain switching process, coagulation, condensation and evaporation of droplets,the authors calculated the air temperature, air relative humidity, spray density and the rainfallintensity in the lower reaches. The 3-D numerical results agree well with portotype monitoring data.
