Hydrogen Production Technologies

doi:10.3390/books978-3-03943-668-2

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https://mdpi.com/books/pdfview/book/3335

Contributor(s)

Assabumrungrat, Suttichai (editor)

Wongsakulphasatch, Suwimol (editor)

Kim-Lohsoontorn, Pattaraporn (editor)

Rodrigues, Alírio E. (editor)

Language

English

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Abstract

Hydrogen has been an important feedstock for various industries, and its global market is already valued at hundreds of billions of dollars per year. It is also playing additional roles as a clean alternative energy carrier for power generation and as a crucial feedstock in the bioeconomy. This Special Issue “Hydrogen Production Technologies” highlights different thermochemical, electrochemical, and biological technologies such as high- and low-temperature electrolyzers, microchannel reactors, sorption-enhanced reactors, multi-tubular solar reactors, and anaerobic digestors. It also covers other aspects ranging from reactor design, hydrogen storage, and process analysis of different alternatives.

URI

https://directory.doabooks.org/handle/20.500.12854/68325

Keywords

algae; anaerobic digestion; biogas; biohydrogen; energy assessment; kinetic models; microwave; nanoparticles; pretreatment; solar reactor; hydrogen production; solar receiver; thermal energy; computational fluid dynamics; CFD; model; titanium nitride; stainless steel; alkaline electrolysis; energy storage; hydrogen energy; solid-state hydrogen storage; unitized regenerative fuel cell; multi- walled carbon nanotube; proton battery; pyrolytic oil hydro-processing; process modeling; syngas; gasification; sorption-enhanced water–gas shift; multi-functional material; hydrogen production processes; economic viability; environmental efficiency; sustainable energy; multi-criteria analysis; thermochemical cycles; micro-channel reactor; ceria; ceria-zirconia; water splitting; oxygen carrier; solid oxide electrolysis cells; sintering additive; CuO; steam electrolysis; compact reactor; ethanol steam reforming; water gas shift; n/a