Titlebook: Organic Waste to Biohydrogen; Mohammed Kuddus,Ghazala Yunus,Gustavo Molina Book 2022 The Editor(s) (if applicable) and The Author(s), unde

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Dolores Hidalgo,Jesús M. Martín-Marroquín,David Díezally into several risk treatment categories, that is Protection-Accommodation-Retreating/Avoiding (i.e., PARA framework). Protection against climate risks involves presently, for example, reliance on large scale and then costly infrastructure to protect against floods, droughts and fires. Risk accom

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Hayrunnisa Nadaroglu,Azize Alaylially into several risk treatment categories, that is Protection-Accommodation-Retreating/Avoiding (i.e., PARA framework). Protection against climate risks involves presently, for example, reliance on large scale and then costly infrastructure to protect against floods, droughts and fires. Risk accom

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Biohydrogen from Food Waste,to be used as a substrate for hydrogen production by the dark fermentation process. Its high carbon composition and easy-to-hydrolysate characteristics result in a higher hydrogen production potential than other organic wastes. Depending on the food waste’s composition, its characteristics can vary

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Biohydrogen from Fruit and Vegetable Industry Wastes, fuels which makes it a potential source of biofuel or energy, and hence has been the topic of study recently. Biohydrogen can be obtained from fruit and vegetable waste by the process of dark fermentation which occurs in the absence of oxygen and light. Almost 50% of the food wasted in the world co

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Biohydrogen from Distillery Wastewater: Opportunities and Feasibility,volving recovery of energy during remediation of wastewaters using microorganisms are coming up as an advancement to the traditional wastewater treatment processes that themselves have high-energy demand. Production of hydrogen from organically rich wastewaters by using various microorganisms throug

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