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Microbial Production of Hydrogen by Mixed Culture Technologies: A Review.
Biotechnology Journal ( IF 3.2 ) Pub Date : 2019-10-09 , DOI: 10.1002/biot.201900297 Shaojie Wang 1 , Ting Zhang 1 , Meidan Bao 1 , Haijia Su 1 , Ping Xu 2
Biotechnology Journal ( IF 3.2 ) Pub Date : 2019-10-09 , DOI: 10.1002/biot.201900297 Shaojie Wang 1 , Ting Zhang 1 , Meidan Bao 1 , Haijia Su 1 , Ping Xu 2
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With its high energy content and clean combustion, hydrogen is recognized as a renewable clean energy source with enormous potential. Biological hydrogen production is a promising alternative with significant advantages over conventional petroleum-derived chemical processes. Sustainable hydrogen production from renewable resources such as cassava, wastewater, and other agricultural waste is economically feasible for industrial applications. So far, the major bottlenecks in large-scale biological hydrogen production are the low production rate and yield. This review discusses the various factors that affect the metabolic pathways of dark hydrogen production, and highlights the state-of-the-art development of mixed culture technology. The aim of this review is to provide suggestions for the future directions of mixed culture technology, as well as by-product valorization in dark fermentation.
中文翻译:
混合培养技术对氢的微生物产生:综述。
氢气具有高能量含量和清洁燃烧的特性,被公认为具有巨大潜力的可再生清洁能源。生物制氢是一种有前途的替代方法,与常规的石油衍生化学方法相比,具有显着的优势。木薯,废水和其他农业废弃物等可再生资源可持续制氢对于工业应用而言在经济上是可行的。迄今为止,大规模生物制氢的主要瓶颈是生产率低和产量低。这篇综述讨论了影响暗氢产生代谢途径的各种因素,并重点介绍了混合培养技术的最新发展。这篇评论的目的是为混合文化技术的未来发展方向提供建议,
更新日期:2019-10-10
中文翻译:
混合培养技术对氢的微生物产生:综述。
氢气具有高能量含量和清洁燃烧的特性,被公认为具有巨大潜力的可再生清洁能源。生物制氢是一种有前途的替代方法,与常规的石油衍生化学方法相比,具有显着的优势。木薯,废水和其他农业废弃物等可再生资源可持续制氢对于工业应用而言在经济上是可行的。迄今为止,大规模生物制氢的主要瓶颈是生产率低和产量低。这篇综述讨论了影响暗氢产生代谢途径的各种因素,并重点介绍了混合培养技术的最新发展。这篇评论的目的是为混合文化技术的未来发展方向提供建议,
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