Journal ArticleDOI
Biohydrogen production: prospects and limitations to practical application
TLDR
In this paper, the authors compare the hydrogen production rates of various bio-hydrogen systems by first standardizing the units of hydrogen production and then calculating the size of biohydrogen system that would be required to power proton exchange membrane (PEM) fuel cells of various sizes.About:
This article is published in International Journal of Hydrogen Energy.The article was published on 2004-02-01. It has received 1488 citations till now. The article focuses on the topics: Hydrogen production & Biohydrogen.read more
Citations
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Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering.
TL;DR: Hydrogen Production by Water−Gas Shift Reaction 4056 4.1.
Journal ArticleDOI
An overview of hydrogen production technologies
TL;DR: A review of technologies related to hydrogen production from both fossil and renewable biomass resources including reforming (steam, partial oxidation, autothermal, plasma, and aqueous phase) and pyrolysis is presented in this article.
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Bio-hydrogen production from waste materials
TL;DR: In this paper, a review article summarizes bio-hydrogen production from some waste materials, including cellulose and starch containing agricultural and food industry wastes and some food industry wastewaters.
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Occurrence, classification, and biological function of hydrogenases: an overview.
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Current status of hydrogen production techniques by steam reforming of ethanol : A review
TL;DR: In this paper, the current state of the steam reforming process of ethanol, examines different catalysts, and makes a comparative analysis, and concludes that Co/ZnO, ZnO+Al2O3, Co/CeO2, Ni/La 2O3−Ni/La2O2−Al2E3, and Ni/E3−E2E2−E3 performed the best in terms of steam reforming of ethanol.
References
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Journal ArticleDOI
Hydrogen production from continuous fermentation of xylose during growth of Clostridium sp. strain No.2
TL;DR: Experimental conditions are presented for continuous fermentation of xylose and glucose to hydrogen (H2), using Clostridium sp.
Journal ArticleDOI
Hydrogen photoproduction under continuous illumination by sulfur-deprived, synchronous Chlamydomonas reinhardtii cultures
TL;DR: It is shown that it is possible to maximize the production of H2 by sulfur-depriving synchronized cultures at about 4 h after the beginning of the light period, as well as the rates of starch and protein degradation and biomass accumulation, which coincide with the highest rates of formate and acetate accumulation.
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Photobioreactor with photosynthetic bacteria immobilized on porous glass for hydrogen photoproduction
TL;DR: A photobioreactor constructed with porous glass as an immobilization matrix achieved stable and efficient hydrogen evolution and the conversion efficiency of succinate into hydrogen reached 75%.
Journal ArticleDOI
Photoproduction of H2 by wildtype Anabaena PCC 7120 and a hydrogen uptake deficient mutant: from laboratory experiments to outdoor culture
Peter Lindblad,Kjell Christensson,Pia Lindberg,Alexander Fedorov,Fernando Lopes Pinto,Anatoly A. Tsygankov +5 more
TL;DR: A molecular method was developed to analyze the relative abundancies of weight and mutant in competition experiments in the PhBR and found that Anabaena PCC 7120 and AMC 414 had similar growth rates in turbidostat mode with increased growth rates at higher light intensity.
Journal ArticleDOI
Hydrogen Production by the Photosynthetic Bacterium Rhodospirillum rubrum
Hans Zürrer,Reinhard Bachofen +1 more
TL;DR: In this article, a continuous photosynthetic production of hydrogen by Rhodospirillum rubrum in batch cultures was observed up to 80 days with the hydrogen donor, pure lactate or lactic acid-containing wastes, supplied periodically.
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Hydrogen production by biological processes: a survey of literature
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