Biotechnological Approaches to Generate Biogenic Solvents and Energy Carriers from Renewable Resources

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES

The EuroBiotech Journal Pub Date : 2023-04-01 DOI:10.2478/ebtj-2023-0007

M. Koller

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引用次数: 0

Abstract

Abstract Background: Current threats connected to the ongoing depletion of fossil resources and elevated levels of greenhouse gases accelerating climate change and global warming provoke a renaissance of biotechnological production of various organic bulk chemicals, which, particularly during the second half of the 20th century, were almost exclusively produced from fossil resources via chemosynthetic processes. Scope: Besides the manufacture of bioethanol, a product obtained by microbial fermentation, biogenic production of solvents and energy carriers like acetone, isopropanol, 2,3-butanediol, or 1-butanol, hence, processes known since the beginning of the last century, experiences now a substantial revival. Summary of new synthesis and conclusions reached in the review: The review illustrates how to produce these products by resorting to fossil raw materials instead of petrochemical production processes, and how this can be accomplished by the cultivation of anaerobic organisms, namely facultatively anaerobic yeasts and bacteria (production of ethanol or 2,3-butanediol), and strictly anaerobic Clostridia (1-butanol, acetone, or isopropanol) on renewable resources. Moreover, novel methods for producing biodiesel-like methyl-esters of aerobically produced bacterial polyhydroxyalkanoate biopolyester building blocks combine the synthesis of microbial biopolyesters from wastewater with the progress of innovative renewable energy carriers. The biochemical background, the current state of research and development, and the status of industrialization of these processes are reviewed. Conclusion: Challenges to make these bioprocesses, based on inexpensive renewable resources, competitive with or even superior to petrochemical production routes in terms of sustainability, scalability, and economic feasibility still exist: however, they can be overcome by the concerted action of various scientific disciplines.

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从可再生资源生产生物溶剂和能源载体的生物技术方法

背景:当前化石资源的持续枯竭和温室气体水平的升高加速了气候变化和全球变暖，这些威胁引发了生物技术生产各种有机散装化学品的复兴，特别是在20世纪下半叶，这些化学品几乎完全是通过化学合成过程从化石资源中生产的。经营范围:除微生物发酵生产生物乙醇外，生物生产溶剂和能量载体，如丙酮、异丙醇、2,3-丁二醇或1-丁醇，因此，自上世纪初以来已知的工艺，现在经历了实质性的复兴。新合成综述及结论:综述阐述了如何利用化石原料代替石油化工生产工艺来生产这些产品，以及如何通过培养厌氧生物，即兼性厌氧酵母和细菌(生产乙醇或2,3-丁二醇)和严格厌氧梭菌(生产1-丁醇、丙酮或异丙醇)来实现这一目标。此外，好氧产生的细菌聚羟基烷酸酯生物聚酯构件生产生物柴油类甲酯的新方法将从废水中合成微生物生物聚酯与创新可再生能源载体的进展相结合。综述了这些工艺的生物化学背景、研究与发展现状以及产业化现状。结论:使这些基于廉价可再生资源的生物工艺在可持续性，可扩展性和经济可行性方面与石化生产路线竞争甚至优于石化生产路线的挑战仍然存在:然而，通过各科学学科的协调行动可以克服这些挑战。

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来源期刊

The EuroBiotech Journal Agricultural and Biological Sciences-Food Science

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

10 weeks