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Electrodialysis Technology in Zero Liquid Discharge
Authors: Zijun Xia
Units: SUEZ Water Technologies and Solutions
KeyWords: zero liquid discharge; electrodialysis; bipolar electrodialysis
ClassificationCode:X703.1
year,volume(issue):pagination: 2021,41(4):129-137

Abstract:
 Zero liquid discharge has been the trend in China industrial wastewater treatment. There are two main units in zero liquid discharge process: membrane concentration and thermal evaporation/crystallization. The normal membrane concentration technologies include reverse osmosis, forward osmosis and electrodialysis. Electrodialysis and bipolar electrodialysis are promising in membrane pre-concentration for ZLD due to their special advantages: ED can achieve high concentration at ambient temperature and normal pressure; while BPED can produce related acid and caustic from waste salt solution without any chemical addition. The pilot at Zhangjiagang Industrial Park demonstrated that ED can reduce the wastewater volume effectively. The acid and caustic generated from BPED can be reuse onsite and achieve waste-to-value successfully.

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AuthorIntro:
夏子君:苏伊士水务技术(上海)有限公司

Reference:
 [] Shifting tides in China make for challenges and opportunities for water technology. GWI Oct. 2018.
[] Xiong Rihua, Wei Chang. Current status and technology trends of zero liquid discharge at coal chemical industry in China [J]. Journal of Water Process Engineering, 2017 (19): 346-351.
[] 王玉,高矿化度矿井水处理技术概述[J]。资源节约与环保,2019 (005):110-110。
[] R.K. McGovern et al. On the cost of electrodialysis for the desalination of high salinity feeds. Applied Energy, 2014 (136): 649–661.
[] 何灿,刘兆峰,熊日华。膜浓缩技术在高盐废水零排放处理中的应用[J]。现代化工,2019 (10): 42-45。
[] 张军,任相坤。煤化工项目废水零排放及含盐废水处理技术经济分析研究[J]。煤炭加工与综合利用,2018 (8): 27-31, 48。
[] 张永红,连伟,何化。天然气行业污水零排放新型工艺[J]。天然气与石油,2016 (1): 18-22。
[] 张泉,赵剑锋,兰建伟,徐文军,单长庆,刘浪。电渗析处理某垃圾填埋场高盐渗滤液中试研究[J]。工业用水与废水,2018 (5): 35-38。
[] 卢剑,李亚娟,许臻,胡大龙,降晓艳。海水直流冷却电厂烟气脱硫废水处理工艺的研究[J]。中国电力,2018 (11): 179-184。
[] 熊日华。常温结晶分盐零排放脱硫废水处理技术[J]。水处理技术,2019 (6): 10-14。
[] 朱春燕,杨俊,陈一欢,黄伟平。双极膜电渗析在硫酸铵废水资源化中的应用[J]。水工业市场,2015 (12): 66-69。
[] 王丹,童富良,王滟,杨晓娇。电渗析技术处理LNG工厂循环冷却系统排污水研究[J]。石油与天然气化工,2014(43): 689-692, 704。
[] 朱安民,滕厚开,郑书忠,陈军,陶蕾。电渗析器处理循环冷却系统排污水的试验研究[J]。工业水处理,2012 (32): 22-25。
[] 赵敏娟。造纸废水回用工程设计方案的研究[J]。北方环境,2011,23 (04): 121-123。
[] 刘汝东,王允坤,苏谦,王曙光。电渗析深度处理二级出水实现零排放和资源回收[J]。工业水处理,2017 (10): 82-85。
[] Panel Discussion at the Standard Chartered Earth Conference. June 2013 on the Coal –endless over-supply session.
[] Debra Tan. Water for Coal: Thirsty Miners? China Water Risk, May 9, 2013.
[] Desal History - A history of incremental improvements, Water desalination report, Mar. 2020.
[] Fernando Gonçalves, Cristina Fernandes, Paulo Cameira dos Santos, Maria Norberta de Pinho. Wine tartaric stabilization by electrodialysis and its assessment by the saturation temperature[J]. Journal of Food Engineering, 2003 (59): 229-235.
[] 颜海洋,汪耀明,蒋晨啸,王晓林,李传润,吴亮,徐铜文。离子膜电渗析在高盐废水“零排放”中的应用、机遇与挑战[J]。化工进展,2019 (1): 672-681。
[] 陈富强,池勇志,田秉晖等。高盐工业废水零排放技术研究进展[J]。工业水处理,2018,38 (08): 1-5.
[] 郑长乐,晋银佳,张爱军,史春霞。燃煤电厂高盐废水深度浓缩处理 系统设计及技术经济分析[J]。发电技术,2019 (40): 58-63。
[] 金可勇,胡鉴耿,金水玉,高从堦。中水回用RO浓水的零排放工艺比较及优化研究[J]。水处理技术,2015 (1): 103-106。
[]  韩洪军。煤化工结晶盐如何合理处理[J]。环境影响评价,2015 (3): 97 -98。
[]  陈庆,张伟明,基于膜分离的电极箔行业减排降耗过程研究[J]。水处理技术,2014 (3), 44-48。
[]  吴颖,楼琼慧,郦和生等。钠碱脱硫液再生工艺研究[J]。工业水处理,2018,38(03): 86-88+99。
[] 彭雪娇 ,牛建国,周勇。双极膜电渗析法处理钨冶炼碱性废水的研究[J]。东华理工大学学报自然科学版, 2008 (31), 283-286。

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