Handojo L, Wardani A K, Regina D, Bella C, Kresnowati M T A P, Wenten I G
Department of Chemical Engineering, Institut Teknologi Bandung Jl. Ganesha 10 Bandung 40132 Indonesia
Research Center for Nanosciences and Nanotechnology, Institut Teknologi Bandung Jl. Ganesha 10 Bandung 40132 Indonesia.
RSC Adv. 2019 Mar 11;9(14):7854-7869. doi: 10.1039/c8ra09227c. eCollection 2019 Mar 6.
With an increase in the organic acid requirement, the production of organic acids has been increased over the years. To achieve cost-effective production of organic acids, efficient recovery processes are needed. Electro-membrane processes, including electrodialysis (ED), electrometathesis (EMT), electro-ion substitution (EIS), electro-electrodialysis (EED), electrodialysis with bipolar membrane (EDBM), and electrodeionization (EDI), are promising technologies for the recovery of organic acids. In the electro-membrane processes, organic acids are separated from water and other impurities based on the electro-migration of ions through ion-exchange membranes. These processes can recover various types of organic acids from the fermentation broth with high recovery yield and low energy consumption. In addition, the integration of fermentation and the electro-membrane process can improve the acid recovery with lower byproduct concentration and energy consumption.
随着对有机酸需求的增加,多年来有机酸的产量一直在提高。为了实现有机酸的经济高效生产,需要高效的回收工艺。电膜工艺,包括电渗析(ED)、电复分解(EMT)、电离子交换(EIS)、电电渗析(EED)、双极膜电渗析(EDBM)和电去离子(EDI),是回收有机酸的有前景的技术。在电膜工艺中,基于离子通过离子交换膜的电迁移,有机酸与水及其他杂质分离。这些工艺能够从发酵液中回收各种类型的有机酸,回收率高且能耗低。此外,发酵与电膜工艺的整合可以在更低的副产物浓度和能耗情况下提高酸的回收率。