Experimental and CFD Studies on the Performance of Microfiltration Enhanced by a Turbulence Promoter

• Published in: Chinese journal of chemical engineering Vol. 20; no. 4; pp. 617 - 624
• Main Author: 刘元法 贺高红 丁路辉 窦红 鞠佳 李保军
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.08.2012
• Subjects: CFD; Computational fluid dynamics; Fluid flow; flux enhancement; Helical; Mathematical models; membrane fouling; Performance enhancement; Screws; Turbulence; turbulence promoter; Turbulent flow; 壁面剪切应力; 实验; 强湍流; 水动力特性; 计算流体动力学; 过滤性能; 错流微滤; membrane fouling; turbulence promoter; computational fluid dynamics; flux enhancement
• ISSN: 1004-9541; 2210-321X
• DOI: 10.1016/S1004-9541(11)60226-7

This paper reports experimental and computational fluid dynamics （CFD） studies on the performance of microfiltration enhanced by a helical screw insert. The experimental results show that the use of turbulence pro- moter can improve the permeate flux of membrane in the crossflow microfiltration of calcium carbonate suspension, and flux improvement efficiency is strongly influenced by operation conditions. The energy consumption analysis indicates that the enhanced membrane system is more energy saving at higher feed concentrations. To explore the intrinsic mechanism of flux enhancement by a helical screw insert, three-dimensional CFD simulation of fluid flow was implemented. It reveals that hydrodynamic characteristics of fluid flow inside the channel are entirely changed by the turbulence promoter. The rotational flow pattern increases the scouring effect on the tube wall, reducing theparticle deposition on the membrane surface. The absence of stagnant regions and high wall shear stress are respon- sible for the enhanced filtration performance. No secondary flow is generated in the channel, owing to the streamline shape of helical screw insert, so that theenhanced perform, ance is achieved at relatively low energy consumption.