Stably sustained hydrogen production by biophotolysis in natural day/night cycle
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Cited by (23)
Research and economic perspectives on an integrated biorefinery approach for the simultaneous production of polyhydroxyalkanoates and biohydrogen
2021, International Journal of Biological MacromoleculesCitation Excerpt :Wykoff et al. demonstrated the significance of oxygen removal in increased biohydrogen production paving the way for the indirect biophotolysis process [33]. As can be seen in Eq. (2), the carbohydrate produced from the light fermentation is consumed in the anaerobic dark fermentative reaction [36]. Biohydrogen through the fermentation using biomass can be by two pathways; photofermentation and dark fermentation [37].
A review on the utilization of hybrid renewable energy
2018, Renewable and Sustainable Energy ReviewsMicroalgal hydrogen production research
2016, International Journal of Hydrogen EnergyBiohydrogen from Microalgae, Uniting Energy, Life, and Green Future
2015, Handbook of Marine Microalgae: Biotechnology AdvancesProspective technology on bioethanol production from photofermentation
2015, Bioresource TechnologyCitation Excerpt :In the current work, the consumption of the organic acids without production of ethanol by R. capsulatus suggested that further metabolites could be synthesized, as it was demonstrated by Sawayama (2001) and Maeda et al. (1998). Hybrid systems incorporating two stages of algae and photosynthetic bacteria are hardly to find published, since the focus of the works developed by Maeda et al. (1998), Miura et al. (1997) and Miura et al. (1992) was the hydrogen production. In order to investigate hydrogen production, Maeda et al. (1998) proposed an integrated process where the effluent produced by Chlamydomonas sp.