Electrochemical Acidification of Kraft Black Liquor: Effect of Fouling and Chemical Cleaning on Ion Exchange Membrane Integrity

黑液 电渗析 结垢 化学 膜污染 牛皮纸 生物炼制 离子交换 化学工程 清洁剂 制浆造纸工业 木质素 有机化学 离子 原材料 生物化学 工程类
作者
Maryam Haddad,Sergey Mikhaylin,Laurent Bazinet,O. Savadogo,Jean Paris
出处
期刊:ACS Sustainable Chemistry & Engineering [American Chemical Society]
卷期号:5 (1): 168-178 被引量:23
标识
DOI:10.1021/acssuschemeng.6b01179
摘要

In the essence of the green biorefinery concept an interest in further implementations of wood compounds has gained a lot of attention. Therefore, it is crucial to identify and develop efficient and eco-friendly extraction processes. In particular in a lignin biorefinery plant, electrochemical acidification of Kraft black liquor via electrodialysis with bipolar membrane is considered as a sustainable avenue to acidify the Kraft black liquor and subsequently extract lignin. Even though the application of this acidification technique results in less chemical consumption than the acid precipitation method, the colloidal fouling of the ion exchange (bipolar and cation exchange) membranes, adversely affects its performance. This study was performed to determine the influence of the colloidal fouling and chemical cleaning process on the integrity of the membranes. Four commercially available cation exchange membranes and one bipolar membrane were examined. Membrane analyses, such as thickness, contact angle, ion exchange capacity and electrical resistance measurements, as well as scanning electron microscopy with energy dispersive X-ray analysis, were carried out. It was found that changing the type of the cation-exchange membrane cannot eliminate the fouling phenomenon and a chemical cleaning cycle is required. Caustic soda and fresh diluted black liquor were tested as the cleaning solutions. The initial properties of the bipolar membrane and two cation-exchange membranes (CMB and Nafion 324) were reestablished after the chemical cleaning step. Furthermore, in terms of sustainability concept, the utilization of in situ and free of charge fresh diluted black liquor, as the cleaning agent, can be an interesting eco-efficient approach.
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