Study on the heat and mass transfer in ultrasonic assisting vacuum membrane distillation

Abstract

An ultrasonic assisting vacuum membrane distillation (VMD) system was designed to promote the heat and mass transfer in membrane distillation (MD) process. Both the effects of operating conditions and ultrasonic parameters to permeation flux in this process were investigated; the heat and mass transfer mechanism was also being discussed in this paper. The results showed that the performance of VMD process was improved significantly by ultrasonic assisting. The permeation flux was boosted at a certain feed solution temperature, pressure at permeate side and feed solution velocity whether or not to PP and PTFE. The results also indicated that ultrasonic power and frequency also was the key factor affecting the mass and transfer efficiencies. The feed side transfer coefficient (Kf), corresponding to ultrasonic power (Kf=4.406−0.026xP+7.824x10-5xP2) and ultrasonic frequency (Kf=0.941+0.598xf−0.012xf2+6.283x10-5f3), was obtained and employed in the modeling of ultrasonic assisting VMD process. The modeling results showed that the calculated value of Kf aligned with experimental results well. Both variations of temperature polarization coefficient (TPC) and concentration polarization coefficient (CPC) were studied based on the obtained data. The results showed that both TPC and CPC were improved obviously by the ultrasonic parameters.