The paper deals with numerical investigation of heat and mass transfer in the process of direct evaporative air cooling by forced laminar convection in a channel between two infinite parallel plates with wetted walls. The system of Navier-Stokes equations and diffusion and energy equations in a 2D approach is solved. At the channel inlet all thermal-gas dynamic parameters are constant across section, and the channel walls are adiabatic. The investigations were carried out with variation of the Reynolds number Re = 50-1000 and the relative humidity at the inlet I center dot (0) = 0-50% at constant incoming air temperature T (0) = 30A degrees C. The emphasis is on the optimization analysis of the evaporative cell characteristics. It is shown that the saturation zone displaces down the flow as the Reynolds number grows. The parameter of thermal hydraulic efficiency decreases with growing Re and relative air humidity at the inlet.

• 出版日期2015-4