CFD在反渗透膜组件进水流道中的优化研究

doi:10.19784/j.cnki.issn1672-0172.2022.99.103

家电科技 ›› 2022, Vol. 0 ›› Issue (zk): 470-474.doi: 10.19784/j.cnki.issn1672-0172.2022.99.103

• 第四部分材料与零部件 • 上一篇下一篇

CFD在反渗透膜组件进水流道中的优化研究

杜永涛¹, 王晔^1,2, 李建¹, 范汇武¹

1.青岛海尔智能技术研发有限公司山东青岛 266101;
2.数字化家电国家重点实验室山东青岛 266101

发布日期:2023-03-28
作者简介:杜永涛,硕士。研究方向：膜分离技术。地址：青岛市崂山区海尔路1号海尔信息产业园A10。E-mail：duyt@haier.com。

Optimization research of CFD in the inlet water channel of reverse osmosis membrane module

DU Yongtao¹, WANG Ye^1,2, LI Jian¹, FAN Huiwu¹

1. Qingdao Haier Smart Technology R & D Co., Ltd. Qingdao 266101;
2. State Key Laboratory of Digital Household Appliances Qingdao 266101

Published:2023-03-28

摘要/Abstract

摘要： 反渗透膜内部的走水流道对膜表面的膜污染具有较大的影响。现对市面四款主流的反渗透膜进行拆解,分析总结了不同的反渗透膜走水方式。采用计算流体力学模拟了不同的流道,对比了进水流道对流速、传质效率、能耗等参数的影响。结果显示：减小进、出水口长度有利于提高进水流速和壁面剪切应力,降低膜污染速率。

关键词: 反渗透膜, 进水流道, 膜污染

Abstract: Feed channel configuration within reverse osmosis (RO) membrane element greatly impacts the membrane fouling rate. Through analyzing four trending RO membrane, this paper summarized the membrane element with different feed channels. Computational fluid dynamics was used to simulate different flow channels, and their influences on parameters such as flow velocity, mass transfer efficiency and energy consumption were compared. The results showed that, when reducing water inlet and outlet widths, influent flow rate and wall shear stress was increased so that the membrane fouling rate was decreased.

Key words: Reverse osmosis membrane, Influent channel, Membrane fouling

中图分类号:

TU996.7+5

杜永涛, 王晔, 李建, 范汇武. CFD在反渗透膜组件进水流道中的优化研究[J]. 家电科技, 2022, 0(zk): 470-474.

DU Yongtao, WANG Ye, LI Jian, FAN Huiwu. Optimization research of CFD in the inlet water channel of reverse osmosis membrane module[J]. Journal of Appliance Science & Technology, 2022, 0(zk): 470-474.

CFD在反渗透膜组件进水流道中的优化研究

Optimization research of CFD in the inlet water channel of reverse osmosis membrane module

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