Biohydrogen Production from Biomass

Gangadhar, Lekshmi; Abhishek, Nalluri; Teja, Putti Venkata Siva; Daniel, Thorin; Sana, Siva Sankar; Arpitha, G. R.; Nanda, Anima

doi:10.1007/978-981-33-4615-4_4

Cited by 3 publications

(1 citation statement)

References 103 publications

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“…At the second stage, the proton-electron recombination occurs e-goes into Fd into Fe-Fe hydrogenase, which ultimately produces H2 (Goswami et al, 2021). This process is clearly explained by the diagram developed by the authors in (Gangadhar et al, 2021).…”

Section: Direct Biophotolysismentioning

confidence: 85%

Biohydrogen Production from Waste Materials: Mini-review

Ahmad,

Samara

2023

TEIEE

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Biohydrogen is a source of renewable and clean energy. Many countries are working to generate biohydrogen energy as a means of combating the present global warming trend. This review paper aims to highlight the available information on hydrogen production from municipal solid waste biomass and also highlight several factors influencing the rate of biohydrogen production and their challenges in the future. The study of hydrogen production processes was aimed at a complete understanding of modern hydrogen production technologies, both implemented in practice and under research or development. The review revealed some advantages of biological methods for producing hydrogen gas compared to chemical ones. Also, this paper identified different factors that affect the biohydrogen production process such as type of bioreactors, temperature, pH, light, nutrients. This study also brings to the surface the challenges that need attention from researchers.

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Section: Direct Biophotolysismentioning

confidence: 85%

Biohydrogen Production from Waste Materials: Mini-review

Ahmad,

Samara

2023

TEIEE

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Recent development of integrating CO₂hydrogenation into methanol with ocean thermal energy conversion (OTEC) as potential source of green energy

Zulqarnain

Yusoff

Keong

et al. 2023

Green Chemistry Letters and Reviews

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Sustainability considerations in bio-hydrogen from bio-algae with the aid of bio-algae cultivation and harvesting: Critical review

Senthil Rathi,

Dinesh Aravind,

Ranjith

et al. 2024

MRS Energy & Sustainability

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Microalgae present an enticing alternative to conventional fossil fuel-dependent technologies for producing hydrogen, offering an intriguing and sustainable energy source. Numerous strains of microalgae are under investigation for their capacity to generate hydrogen, alongside various techniques and breakthroughs being developed to optimize the process. However, significant hurdles must be addressed for commercial viability, including the high manufacturing costs and the necessity for efficient harvesting and sorting methods. This paper delves into several aspects concerning hydrogen synthesis in algae, encompassing microalgae anatomy and physiology, hydrogen synthesis via photosynthesis and dark fermentation, and the integration of microalgal hydrogen synthesis with other renewable energy sources. The potential for microalgal hydrogen generation is considered pivotal in transitioning toward a future reliant on more renewable and sustainable energy sources. This review aims to serve as a valuable resource for researchers, decision-makers, and anyone interested in the advancement of environmentally conscious energy technology. The primary objective of this research paper is to scrutinize the challenges, opportunities, and potential outcomes associated with eco-friendly bio-hydrogen production through algae. It evaluates the current technological hurdles facing bio-hydrogen synthesis from algae. Graphical abstract Highlights Interest in developing renewable fuels, such as hydrogen from biomass, has surged due to escalating energy demands and the imperative to curtail greenhouse gas emissions. Overview of bio-hydrogen production pathway, reactor designs, and configurations for bio-hydrogen production from bio-algae were explored. Environmental, social sustainability and economic feasibility have been reviewed. Discussion Will bio-hydrogen from bio-algae be a future renewable energy? Which is the best pathway to produce bio-hydrogen from bio-algae? Regarding greenhouse gas emissions, how does the generation of bio-hydrogen from bio-algae compare to conventional hydrogen production techniques? What difficulties lie in increasing the amount of bio-hydrogen produced by bio-algae to satisfy major energy demands?

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Biohydrogen Production from Biomass

Cited by 3 publications

References 103 publications

Biohydrogen Production from Waste Materials: Mini-review

Biohydrogen Production from Waste Materials: Mini-review

Recent development of integrating CO₂hydrogenation into methanol with ocean thermal energy conversion (OTEC) as potential source of green energy

Sustainability considerations in bio-hydrogen from bio-algae with the aid of bio-algae cultivation and harvesting: Critical review

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Biohydrogen Production from Biomass

Cited by 3 publications

References 103 publications

Biohydrogen Production from Waste Materials: Mini-review

Biohydrogen Production from Waste Materials: Mini-review

Recent development of integrating CO2hydrogenation into methanol with ocean thermal energy conversion (OTEC) as potential source of green energy

Sustainability considerations in bio-hydrogen from bio-algae with the aid of bio-algae cultivation and harvesting: Critical review

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Recent development of integrating CO₂hydrogenation into methanol with ocean thermal energy conversion (OTEC) as potential source of green energy