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Supercritical Water Gasification: Reaction Mechanism and Kinetics

Wang, Shuzhong / Xu, Donghai / Guo, Yang / Tang, Xingying / Wang, Yuzhen / Zhang, Jie / Ma, Honghe / Qian, Lili / Li, Yanhui

Abstract Hydrogen is defined as an attractive energy carrier due to its potentially higher energy efficiency and lower generation of pollutants, which can replace conventional fossil fuels in the future. The governments have invested huge funds and made great efforts on the research of hydrogen production. Among the various options, supercritical water gasification (SCWG) is the most promising method of hydrogen production from biomass.

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Supercritical Water Gasification: Reaction Mechanism and Kinetics

Wang, Shuzhong / Xu, Donghai / Guo, Yang / Tang, Xingying / Wang, Yuzhen / Zhang, Jie / Ma, Honghe / Qian, Lili / Li, Yanhui

Abstract Hydrogen is defined as an attractive energy carrier due to its potentially higher energy efficiency and lower generation of pollutants, which can replace conventional fossil fuels in the future. The governments have invested huge funds and made great efforts on the research of hydrogen production. Among the various options, supercritical water gasification (SCWG) is the most promising method of hydrogen production from biomass.

Supercritical Water Gasification: Reaction Mechanism and Kinetics

Wang, Shuzhong / Xu, Donghai / Guo, Yang / Tang, Xingying / Wang, Yuzhen / Zhang, Jie / Ma, Honghe / Qian, Lili / Li, Yanhui

Abstract Hydrogen is defined as an attractive energy carrier due to its potentially higher energy efficiency and lower generation of pollutants, which can replace conventional fossil fuels in the future. The governments have invested huge funds and made great efforts on the research of hydrogen production. Among the various options, supercritical water gasification (SCWG) is the most promising method of hydrogen production from biomass.

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Title:

Supercritical Water Gasification: Reaction Mechanism and Kinetics

Contributors:

Wang, Shuzhong (author) / Xu, Donghai (author) / Guo, Yang (author) / Tang, Xingying (author) / Wang, Yuzhen (author) / Zhang, Jie (author) / Ma, Honghe (author) / Qian, Lili (author) / Li, Yanhui (author)

Published in:

Supercritical Water Processing Technologies for Environment, Energy and Nanomaterial Applications ; 25-46

Publication date:

2019-09-19

Size:

22 pages

ISBN:

978-981-13-9325-9 , 978-981-13-9326-6

DOI:

https://doi.org/10.1007/978-981-13-9326-6_2

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Environment , Environmental Engineering/Biotechnology , Environmental Chemistry , Water Industry/Water Technologies , Energy Systems , Waste Management/Waste Technology

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