Revising the dark fermentative H-2 research and development scenario: an overview of the recent advances and emerging technological approaches
Date
2020Author
Sekoai, Patrick T.
Mogwase, Boitumelo
Engelbrecht, Nicolaas
Du Preez, Stephanus Petrus
Daramola, Michael O.
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The indiscriminate use of fossil fuels has led to several challenges such as greenhouse gas emissions, environmental degradation, and energy security. Establishment of clean fuels is at the forefront of science and innovation in today's society to curb these problems. Dark fermentation (DF) is widely regarded as the most promising clean energy technology of the 21st century due to its desirable properties such as high energy content, its non-polluting features, its ability to use a broad spectrum of feedstocks and inoculum sources, as well as its ability to use mild fermentation conditions. In developing nations, this technology could be instrumental in establishing effective waste disposal systems while boosting the production of clean fuels. However, DF is still hindered by the low yields which stagnate its commercialization. This paper reviews the recent and emerging technologies that are gaining prominence in DF based on information that has been gathered from recent scientific publications. Herein, novel enhancement methods such as cell immobilization, nanotechnology, mathematical optimization tools, and technologies for biogas upgrading using renewable H2 are comprehensively discussed. Furthermore, a section which discusses the potential of bioenergy in Sub-Saharan Africa including South Africa is included. Finally, scientific areas that need further research and development in DF process are also presented
URI
http://hdl.handle.net/10394/35694https://www.sciencedirect.com/science/article/pii/S0961953420302075
https://doi.org/10.1016/j.biombioe.2020.105673
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