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

Senthil Rathi, B.; Dinesh Aravind, V.; Ranjith, G.; Kishore, V.; Ewe, Lay Sheng; Yew, Weng Kean; Baskaran, R.

doi:10.1557/s43581-024-00096-0

MRS Energy & Sustainability

2024

DOI: 10.1557/s43581-024-00096-0

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

B. Senthil Rathi,

V. Dinesh Aravind,

G. Ranjith

et al.

Abstract: 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 … Show more

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Cited by 2 publications

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Duckweed: exploring its farm-to-fork potential for food production and biorefineries

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Sustainable Food Technol.

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Hydrogen in Burners: Economic and Environmental Implications

Cavalcanti,

Pappalardo,

Barbosa

et al. 2024

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For centuries, fossil fuels have been the primary energy source, but their unchecked use has led to significant environmental and economic challenges that now shape the global energy landscape. The combustion of these fuels releases greenhouse gases, which are critical contributors to the acceleration of climate change, resulting in severe consequences for both the environment and human health. Therefore, this article examines the potential of hydrogen as a sustainable alternative energy source capable of mitigating these climate impacts. It explores the properties of hydrogen, with particular emphasis on its application in industrial burners and furnaces, underscoring its clean combustion and high energy density in comparison to fossil fuels, and also examines hydrogen production through thermochemical and electrochemical methods, covering green, gray, blue, and turquoise pathways. It discusses storage and transportation challenges, highlighting methods like compression, liquefaction, chemical carriers (e.g., ammonia), and transport via pipelines and vehicles. Hydrogen combustion mechanisms and optimized burner and furnace designs are explored, along with the environmental benefits of lower emissions, contrasted with economic concerns like production and infrastructure costs. Additionally, industrial and energy applications, safety concerns, and the challenges of large-scale adoption are addressed, presenting hydrogen as a promising yet complex alternative to fossil fuels.

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

Cited by 2 publications

References 162 publications

Duckweed: exploring its farm-to-fork potential for food production and biorefineries

Duckweed: exploring its farm-to-fork potential for food production and biorefineries

Hydrogen in Burners: Economic and Environmental Implications

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