点击次数：

发布时间：2019-03-11

论文类型：期刊论文

发表时间：2017-10-01

发表刊物：DESALINATION AND WATER TREATMENT

收录刊物：Scopus、SCIE

卷号：92

页面范围：9-19

ISSN号：1944-3994

关键字：Tubular membrane; Filtration enhancement; Baffle promoter; Computational fluid dynamics

摘要：Baffle promoter is commonly used structure to reduce fouling and increase flux in tubular membrane filtration. Its function is attributed to the hydrodynamic enhancement for the flow field. The arrangement and size are important structure parameters that influence the performance of baffle promoter. In this paper, filtration improvement performance of baffle promoter was experimentally studied considering two arrangement parameters including phase angle and fan angle, as well as two size parameters including radius and space. Flow fields in the tubular membranes with corresponding baffle promoters were analyzed by computational fluid dynamics (CFD) method. The results showed that baffle arrangement type determined the eddy direction in the tubular membrane module, which accounts for the scouring effect for the particle deposition. Baffle structure sizes influenced the eddy shape and size between the baffles, which accounts for the local shear and turbulence intensity on the membrane surface. Within the scope of this study, baffle promoter with phase angle of 90 degrees, fan angle of 180 degrees, radius of 20 mm and dimensionless space of 2.50 obtained relatively high filtration improvement and low pressure drop, which was also consistent with the CFD result. This study can be useful for the optimal design of baffle promoter in tubular membrane filtration.