Titlebook: Biohydrogen - Advances and Processes; Carlos Ricardo Soccol,Satinder Kaur Brar,Júlio Ces Book 2024 The Editor(s) (if applicable) and The A

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https://doi.org/10.1007/978-3-658-25058-4ated to exhibit high yields and productivity rates for the production of biohydrogen. It is crucial to conduct further research into key areas, including optimizing slow metabolism, selecting appropriate feedstocks, and advancing computational models. These strategies can enhance the sustainability

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Introduction to Biohydrogen: Advancements, Challenges, and Perspectives of the Cleanest Fuel,via dark fermentation while producing a stream of diluted organic acids that can be reclaimed for sustainable processing. Biohydrogen is not only a fuel; it can be used in industry as a reducing agent and a raw material for ammonia production. This chapter describes the basics of biohydrogen product

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Molecular Hydrogen (H2) Metabolism in Microbes: A Special Focus on Biohydrogen Production,molecular H. with special emphasis on its production. Herein, we have first focused on genes for H. metabolism and their origins across various species. Then, metabolic pathways involved in hydrogen metabolism have been discussed with an applied view—cofactors and coenzymes. Further, building blocks

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Biohydrogen: Microbiology and Microbial Dynamics in Dark Fermentation,tal and operational conditions, a shift occurs in the microbial community structure that further affects the yield of hydrogen produced. By understanding the syntrophic co-metabolism of hydrogen-producers and hydrogen-consumers, the bioreactor performance can be modified for scaling-up biohydrogen p

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Biohydrogen Production by Mono- Versus Co- and Mixed Cultures,o pay attention to symbiotic relationships of microorganisms, changes in microbial communities, and the development of predominant groups. Ways to enhance H. production by inhibiting hydrogen consumers and the use of bioaugmentation are discussed. Application of different methods of cultivation and

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Metabolic Engineering and Synthetic Biology in Biohydrogen Production,c genes for deletion in order to enhance hydrogen production. Flux models developed for hydrogen producing microorganisms can be used to accurately predict the hydrogen production, thereby minimizing the number of experiments required. This chapter presents an overview of metabolic engineering appro

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Biomass Immobilization in Biohydrogen Production,ickness, pH, substrate characteristics, are discussed. Particular attention is paid to materials that have a complex stimulating effect, such as conductive materials, as well as materials containing trace elements and nanoparticles that affect cell growth, metabolism, and enzyme activation. A compar

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