Performance Characterization of Hollow Fiber Vacuum Membrane Distillation Module for Desalination

Justin Caspar, Guanyang Xue, Robert Krysko, A. Oztekin
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Abstract

3D laminar flow simulations were conducted using OpenFOAM to resolve the temperature, concentration, velocity, and pressure field for two hollow fiber vacuum membrane distillation configurations with feed solution flowing either inside or outside a single hollow fiber. The fiber has a circular cross-section, a fixed length of 120mm, and an inner diameter of 2 mm. The wall thickness was varied from 150 to 450μm, and the pore diameter was varied from 0.1 to 0.3μm based on commercial fibers. The feed solution is an aqueous solution of water and NaCl. The feed flow was simulated at a Reynolds number of 500 and vacuum pressure of 5,000 Pascals. It was found that there was a 75% increase in flux, from 9.58 to 41.41 kg/m2h, between the worst and the best case in membrane properties. Increasing the pore diameter or wall thickness while the other value was fixed resulted in a 45–57% flux increase depending on the fixed value. The module with the feed solution flowing outside a hollow fiber yields 24% higher flux than the module with the feed solution flowing inside the hollow fiber at the same conditions.
用于海水淡化的中空纤维真空膜蒸馏模块的性能表征
利用OpenFOAM软件进行了三维层流模拟,分析了两种中空纤维真空膜蒸馏配置下的温度、浓度、速度和压力场,其中进料溶液分别在单个中空纤维内部或外部流动。光纤截面为圆形,固定长度为120mm,内径为2mm。以商品纤维为基础,壁厚为150 ~ 450μm,孔径为0.1 ~ 0.3μm。进料液为水和NaCl的水溶液。模拟了雷诺数为500,真空压力为5000帕斯卡的进料流。结果表明,在膜性能最差和最佳情况下,通量从9.58 kg/m2h增加到41.41 kg/m2h,增加了75%。在另一个值固定的情况下,增加孔径或壁厚,根据固定值的不同,通量增加45-57%。在相同条件下,进料溶液在中空纤维外流动的模块比进料溶液在中空纤维内流动的模块的通量高24%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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