Titlebook: Biohydrogen Production: Sustainability of Current Technology and Future Perspective; Anoop Singh,Dheeraj Rathore Book 2017 Springer India

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Trends and Challenges in Biohydrogen Production from Agricultural Waste,tions for increasing hydrogen potential have been proposed such as microbial consortium selection, substrate pretreatment and process parameter optimisation. Consequently, higher hydrogen yields have recently been obtained, reaching 150 ml H..g.. for pretreated rice straw. Nevertheless, the only man

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Challenges in the Design and Operation of an Efficient Photobioreactor for Microalgae Cultivation aeds to be addressed. Considering, the overall cost-effectiveness, it may be possible to cultivate microalgae in open ponds under semi-continuous systems. Direct production of hydrogen using photosynthetic microorganisms such as microalgae may also be considered since it can be energetically more fav

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Sustainability of Biohydrogen Production Using Engineered Algae as a Source,ct that water and solar energy as main inputs for the process are plentiful on our planet. In this chapter we are focusing on the recent developments in photobiological H. production by green algae with highlights on the barriers that prevent H. production and how those limitations can be addressed,

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Biohydrogen: Global Trend and Future Perspective,ting with mixed microflora (aerobic, anaerobic, thermophilic, purple non-sulphur photosynthetic bacteria) or pure cultures enriched from natural sources. Seed inocula for biohydrogen production have been obtained from heat sludge, compost, waste water, food waste, etc. With many social, economic and

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Karrieregrundlagen und Karriereschritte,as advanced in recent years and ensures relatively high volumes of production. Nevertheless, the production of biohydrogen shows a wide variation which can be largely explained by differences in substrate characteristics and operational conditions. Hence, attention needs to focus on sustainability i

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