Pressure-driven membrane processes for the recovery and recycling of deep eutectic solvents: A seaweed biorefinery case study.

Q1 Immunology and Microbiology

Biotechnology Reports Pub Date : 2024-06-25 DOI:10.1016/j.btre.2024.e00849

Oscar M. Elizondo Sada , Isa S.A. Hiemstra , Nattawan Chorhirankul , Michel Eppink , Rene H. Wijffels , Anja E.M. Janssen , Antoinette Kazbar

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Abstract

Deep eutectic solvents (DES) are green alternatives for conventional solvents. They have gained attention for their potential to extract valuable compounds from biomass, such as seaweed. In this framework, a case study was developed to assess the feasibility of pressure-driven membrane processes as an efficient tool for the recovery of deep eutectic solvents and targeted biomolecules. For this purpose, a mixture composed of the DES choline chloride – ethylene glycol (ChCl-EG) 1:2, water and alginate was made to mimic a DES extraction from seaweed. An integrated separation process design was proposed where ultrafiltration-diafiltration-nanofiltration (UF-DF-NF) was coupled. UF and DF were found to be effective for the separation of alginate with an 85 % yield. DES was likewise recovered by 93 %, proving the membrane filtrations’ technical feasibility. The NF performance to separate the DES from the water, for its recycling, laid by a 45 %-50 % retention and a final concentrated DES solution of 18 %(v/v).

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用于回收和循环利用深共晶溶剂的压力驱动膜工艺：海藻生物精炼案例研究。

深共晶溶剂（DES）是传统溶剂的绿色替代品。它们因具有从海藻等生物质中提取有价值化合物的潜力而备受关注。在此框架下，开发了一个案例研究，以评估压力驱动膜过程作为回收深共晶溶剂和目标生物分子的有效工具的可行性。为此，我们制作了一种由氯化胆碱-乙二醇（ChCl-EG）1:2、水和海藻酸组成的混合物，以模拟从海藻中提取 DES 的过程。提出了一种综合分离工艺设计，将超滤-渗滤-纳滤（UF-DF-NF）结合起来。结果发现，超滤和纳滤能有效分离海藻酸盐，分离率达 85%。DES 的回收率同样达到 93%，证明了膜过滤的技术可行性。从水中分离 DES 的 NF 性能为其再循环奠定了 45 %-50 % 的保留率和 18 %（v/v）的最终浓缩 DES 溶液。

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来源期刊

Biotechnology Reports Immunology and Microbiology-Applied Microbiology and Biotechnology

CiteScore

15.80

自引率

0.00%

发文量

审稿时长

55 days

期刊介绍： Biotechnology Reports covers all aspects of Biotechnology particularly those reports that are useful and informative and that will be of value to other researchers in related fields. Biotechnology Reports loves ground breaking science, but will also accept good science that can be of use to the biotechnology community. The journal maintains a high quality peer review where submissions are considered on the basis of scientific validity and technical quality. Acceptable paper types are research articles (short or full communications), methods, mini-reviews, and commentaries in the following areas: Healthcare and pharmaceutical biotechnology Agricultural and food biotechnology Environmental biotechnology Molecular biology, cell and tissue engineering and synthetic biology Industrial biotechnology, biofuels and bioenergy Nanobiotechnology Bioinformatics & systems biology New processes and products in biotechnology, bioprocess engineering.