Academic Publications
My Publications
2025
Perera, WPRT; Perera, PLRA; Liyanage, JA
Thermochemical routes for biohydrogen generation Book Chapter
In: Kurniawan, Tonni Agustiono; Prasad, Majeti Narashima Vara (Ed.): Chapter 4, pp. 67-87, Elsevier, 2025, ISBN: 978-0-443-22399-0.
Abstract | Links | BibTeX | Tags: Biohydrogen, thermochemical
@inbook{Perera2025,
title = {Thermochemical routes for biohydrogen generation},
author = {WPRT Perera and PLRA Perera and JA Liyanage},
editor = {Tonni Agustiono Kurniawan and Majeti Narashima Vara Prasad
},
url = {https://linkinghub.elsevier.com/retrieve/pii/B9780443223990000098},
doi = {10.1016/B978-0-443-22399-0.00009-8},
isbn = {978-0-443-22399-0},
year = {2025},
date = {2025-03-28},
pages = {67-87},
publisher = {Elsevier},
chapter = {4},
series = {Accelerating the Transition to a Hydrogen Economy},
abstract = {Advancing and applying innovative, green methods for biohydrogen production is essential to lessening dependence on fossil fuels. Thermochemical biohydrogen generation methods are gaining focus for their use of renewable resources, carbon neutrality, high efficiency, broad feedstock compatibility, valuable co-product creation, and minimized environmental footprint. These compelling attributes position thermochemical routes as a promising avenue to produce biohydrogen. These routes leverage the principles of thermodynamics and chemistry to achieve targeted transformations. They encompass a broad spectrum of techniques, including combustion, gasification, pyrolysis, reforming, and other intricate forms of chemical reactions. These intricate processes often incorporate catalysts, varied reactants, and finely tuned operating conditions to optimize conversion efficiency and selectivity, thereby facilitating the desired outcome. This chapter primarily concentrates on elucidating the distinct thermochemical processes employed for biohydrogen production. These processes demonstrate economic viability and exhibit substantial potential to achieve competitiveness on a significant scale in the foreseeable future.},
keywords = {Biohydrogen, thermochemical},
pubstate = {published},
tppubtype = {inbook}
}
Advancing and applying innovative, green methods for biohydrogen production is essential to lessening dependence on fossil fuels. Thermochemical biohydrogen generation methods are gaining focus for their use of renewable resources, carbon neutrality, high efficiency, broad feedstock compatibility, valuable co-product creation, and minimized environmental footprint. These compelling attributes position thermochemical routes as a promising avenue to produce biohydrogen. These routes leverage the principles of thermodynamics and chemistry to achieve targeted transformations. They encompass a broad spectrum of techniques, including combustion, gasification, pyrolysis, reforming, and other intricate forms of chemical reactions. These intricate processes often incorporate catalysts, varied reactants, and finely tuned operating conditions to optimize conversion efficiency and selectivity, thereby facilitating the desired outcome. This chapter primarily concentrates on elucidating the distinct thermochemical processes employed for biohydrogen production. These processes demonstrate economic viability and exhibit substantial potential to achieve competitiveness on a significant scale in the foreseeable future.