The factors influencing direct photohydrogen production and anaerobic fermentation hydrogen production combination bioreactors

Wang, Bing-Nan; Yang, Chu-Fang; Lee, Chi-Mei

doi:10.1016/j.ijhydene.2011.04.134

Cited by 8 publications

(3 citation statements)

References 24 publications

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“…The design of dark fermentation bioreactors plays a critical role in biohydrogen production [204]. Well-designed bioreactors can provide optimal conditions for microbial activities, thereby maximizing hydrogen production [205,206]. Technologies such as membrane bioreactors or fixed bed reactors can be instrumental in achieving this goal [207,208].…”

Section: Future Perspectivesmentioning

confidence: 99%

An Updated Review of Recent Applications and Perspectives of Hydrogen Production from Biomass by Fermentation: A Comprehensive Analysis

Dari,

Freitas,

Aires

et al. 2024

Biomass

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Fermentation is an oxygen-free biological process that produces hydrogen, a clean, renewable energy source with the potential to power a low-carbon economy. Bibliometric analysis is crucial in academic research to evaluate scientific production, identify trends and contributors, and map the development of a field, providing valuable information to guide researchers and promote scientific innovation. This review provides an advanced bibliometric analysis and a future perspective on fermentation for hydrogen production. By searching WoS, we evaluated and refined 62,087 articles to 4493 articles. This allowed us to identify the most important journals, countries, institutions, and authors in the field. In addition, the ten most cited articles and the dominant research areas were identified. A keyword analysis revealed five research clusters that illustrate where research is progressing. The outlook indicates that a deeper understanding of microbiology and support from energy policy will drive the development of hydrogen from fermentation.

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Section: Future Perspectivesmentioning

confidence: 99%

An Updated Review of Recent Applications and Perspectives of Hydrogen Production from Biomass by Fermentation: A Comprehensive Analysis

Dari,

Freitas,

Aires

et al. 2024

Biomass

View full text Add to dashboard Cite

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“…A considerable pH value is also required for Purple non-Sulfur bacteria (PNSB) to produce hydrogen via photofermentation. According to studies on hydrogen production during the photo-biological fermentation process, a pH of 7 is best for transporting electrons to the nitrogenase enzymes for H 2 generation in the media [126].…”

Section: Effect Of Initial Phmentioning

confidence: 99%

“…PNSBs are also sensitive to different ranges of temperature. For example, a study conducted to show the effect of cultural conditions on H 2 production by photofermentation described that the growth rate and the rate of H 2 production initially increased with an increase in temperature up to 30 • C. However, after 30 • C, the production rate of H 2 gas decreased rapidly because the higher temperature above 30 • C inhibits the activity of the enzyme nitrogenase [126].…”

Section: Effect Of Operational Temperaturementioning

confidence: 99%

Biohydrogen—A Green Fuel for Sustainable Energy Solutions

Kanwal

Torriero

2022

Energies

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Energy plays a crucial role in the sustainable development of modern nations. Today, hydrogen is considered the most promising alternative fuel as it can be generated from clean and green sources. Moreover, it is an efficient energy carrier because hydrogen burning only generates water as a byproduct. Currently, it is generated from natural gas. However, it can be produced using other methods, i.e., physicochemical, thermal, and biological. The biological method is considered more environmentally friendly and pollution free. This paper aims to provide an updated review of biohydrogen production via photofermentation, dark fermentation, and microbial electrolysis cells using different waste materials as feedstocks. Besides, the role of nanotechnology in enhancing biohydrogen production is examined. Under anaerobic conditions, hydrogen is produced during the conversion of organic substrate into organic acids using fermentative bacteria and during the conversion of organic acids into hydrogen and carbon dioxide using photofermentative bacteria. Different factors that enhance the biohydrogen production of these organisms, either combined or sequentially, using dark and photofermentation processes, are examined, and the effect of each factor on biohydrogen production efficiency is reported. A comparison of hydrogen production efficiency between dark fermentation, photofermentation, and two-stage processes is also presented.

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Improved hydrogen production of the downstream bioreactor by coupling single chamber microbial fuel cells between series-connected photosynthetic biohydrogen reactors

Li¹,

Zou²,

Xu³

et al. 2013

International Journal of Hydrogen Energy

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The factors influencing direct photohydrogen production and anaerobic fermentation hydrogen production combination bioreactors

Cited by 8 publications

References 24 publications

An Updated Review of Recent Applications and Perspectives of Hydrogen Production from Biomass by Fermentation: A Comprehensive Analysis

An Updated Review of Recent Applications and Perspectives of Hydrogen Production from Biomass by Fermentation: A Comprehensive Analysis

Biohydrogen—A Green Fuel for Sustainable Energy Solutions

Improved hydrogen production of the downstream bioreactor by coupling single chamber microbial fuel cells between series-connected photosynthetic biohydrogen reactors

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