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Photoheterotrophic microalgal hydrogen production using acetate- and butyrate-rich wastewater effluent

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  • Hwang, Jae-Hoon
  • Kabra, Akhil N.
  • Kim, Jung Rae
  • Jeon, Byong-Hun

Abstract

Microalgal (Micractinium reisseri YSW05) photo-heterotrophic hydrogen production was investigated with using volatile fatty acids (acetate and butyrate) from dark-fermentation effluent. Dilution ratio (effluent: deionized water) of 1:0 at pH 8.0 supported the maximum hydrogen and biomass production, and the highest acetate and butyrate consumption. Microalgal hydrogen production was higher with continuous light condition compared to alternating dark/light cycle. Hydrogen production correlated with both, biomass production and hydrogenase activity under all experimental conditions. Hydrogenase activity and apparent hydrogen production decreased significantly with increasing headspace oxygen. Interestingly substantial hydrogenase activity was observed at almost atmospheric partial pressure of oxygen (19%), indicating that the enzyme could be oxygen tolerant. The present study demonstrated the application of conventional microbial fermentation effluent for microalgae cultivation and hydrogen production, and showed the presence of oxygen tolerant hydrogenase in M. reisseri which might help to establish a novel strategy for biohydrogen technology in atmospheric condition.

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  • Hwang, Jae-Hoon & Kabra, Akhil N. & Kim, Jung Rae & Jeon, Byong-Hun, 2014. "Photoheterotrophic microalgal hydrogen production using acetate- and butyrate-rich wastewater effluent," Energy, Elsevier, vol. 78(C), pages 887-894.
    • Handle: RePEc:eee:energy:v:78:y:2014:i:c:p:887-894
    DOI: 10.1016/j.energy.2014.10.086
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    Cited by:

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    2. Trivedi, Tanmay & Jain, Deepti & Mulla, Nousin S.S. & Mamatha, S.S. & Damare, Samir R. & Sreepada, R.A. & Kumar, Sanjay & Gupta, Vishal, 2019. "Improvement in biomass, lipid production and biodiesel properties of a euryhaline Chlorella vulgaris NIOCCV on mixotrophic cultivation in wastewater from a fish processing plant," Renewable Energy, Elsevier, vol. 139(C), pages 326-335.
    3. Prabakar, Desika & Manimudi, Varshini T. & Suvetha K, Subha & Sampath, Swetha & Mahapatra, Durga Madhab & Rajendran, Karthik & Pugazhendhi, Arivalagan, 2018. "Advanced biohydrogen production using pretreated industrial waste: Outlook and prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 96(C), pages 306-324.
    4. Xia, Ao & Jacob, Amita & Herrmann, Christiane & Murphy, Jerry D., 2016. "Fermentative bio-hydrogen production from galactose," Energy, Elsevier, vol. 96(C), pages 346-354.
    5. Hwang, Jae-Hoon & Church, Jared & Lim, Jaewon & Lee, Woo Hyoung, 2018. "Photosynthetic biohydrogen production in a wastewater environment and its potential as renewable energy," Energy, Elsevier, vol. 149(C), pages 222-229.
    6. Ortigueira, Joana & Pinto, Tiago & Gouveia, Luísa & Moura, Patrícia, 2015. "Production and storage of biohydrogen during sequential batch fermentation of Spirogyra hydrolyzate by Clostridium butyricum," Energy, Elsevier, vol. 88(C), pages 528-536.
    7. Rahul Prasad Singh & Priya Yadav & Indrajeet Kumar & Manoj Kumar Solanki & Rajib Roychowdhury & Ajay Kumar & Rajan Kumar Gupta, 2023. "Advancement of Abiotic Stresses for Microalgal Lipid Production and Its Bioprospecting into Sustainable Biofuels," Sustainability, MDPI, vol. 15(18), pages 1-36, September.
    8. Sun, Chi-He & Fu, Qian & Liao, Qiang & Xia, Ao & Huang, Yun & Zhu, Xun & Reungsang, Alissara & Chang, Hai-Xing, 2019. "Life-cycle assessment of biofuel production from microalgae via various bioenergy conversion systems," Energy, Elsevier, vol. 171(C), pages 1033-1045.

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