Sustainable circular biorefinery approach for novel building blocks and bioenergy production from algae using microbial fuel cell.

IF 4.2 4区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Kevin Tian Xiang Tong, Inn Shi Tan, Henry Chee Yew Foo, Pau Loke Show, Man Kee Lam, Mee Kee Wong
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Abstract

The imminent need for transition to a circular biorefinery using microbial fuel cells (MFC), based on the valorization of renewable resources, will ameliorate the carbon footprint induced by industrialization. MFC catalyzed by bioelectrochemical process drew significant attention initially for its exceptional potential for integrated production of biochemicals and bioenergy. Nonetheless, the associated costly bioproduct production and slow microbial kinetics have constrained its commercialization. This review encompasses the potential and development of macroalgal biomass as a substrate in the MFC system for L-lactic acid (L-LA) and bioelectricity generation. Besides, an insight into the state-of-the-art technological advancement in the MFC system is also deliberated in detail. Investigations in recent years have shown that MFC developed with different anolyte enhances power density from several µW/m2 up to 8160 mW/m2. Further, this review provides a plausible picture of macroalgal-based L-LA and bioelectricity circular biorefinery in the MFC system for future research directions.

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利用微生物燃料电池从藻类中生产新的构建块和生物能源的可持续循环生物精炼方法。
基于可再生资源的定价,迫切需要过渡到使用微生物燃料电池(MFC)的循环生物精炼厂,这将改善工业化带来的碳足迹。生物电化学过程催化的MFC最初因其在生物化学品和生物能源综合生产方面的特殊潜力而引起人们的极大关注。尽管如此,相关的昂贵的生物产品生产和缓慢的微生物动力学限制了其商业化。本文综述了大型藻类生物量作为L-乳酸(L-LA)和生物发电MFC系统中的底物的潜力和发展。此外,还详细介绍了MFC系统中最先进的技术进步。近年来的研究表明,使用不同阳极电解液开发的MFC可将功率密度从几µW/m2提高到8160 mW/m2。此外,这篇综述为未来的研究方向提供了基于大型藻类的L-LA和MFC系统中的生物电循环生物精炼的合理图景。
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来源期刊
Bioengineered
Bioengineered BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
8.20
自引率
28.60%
发文量
1114
审稿时长
17 weeks
期刊介绍: Bioengineered provides a platform for publishing high quality research on any aspect of genetic engineering which involves the generation of recombinant strains (both prokaryote and eukaryote) for beneficial applications in food, medicine, industry, environment and bio-defense.
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