Universiti Teknologi Malaysia Institutional Repository

Biohydrogen production via thermophilic fermentation: a prospective application of thermotoga species

Shao, W. and Wang, Q. and Rupani, P. F. and Krishnan, S. and Ahmad, F. and Rezania, S. and Rashid, M. A. and Sha, C. and Md. Din, M. F. (2020) Biohydrogen production via thermophilic fermentation: a prospective application of thermotoga species. Energy, 197 . ISSN 0360-5442

Full text not available from this repository.

Official URL: https://dx.doi.org/10.1016/j.energy.2020.117199

Abstract

Considering the era of industrialization and increasing growth of interest in the green bioconversion of biomass into efficient value-added products, this review discusses the hydrogen (H2) production using the hyperthermophilic bacteria as a promising strategy for the agriculture and industrial purposes towards the generation of clean energy. Production of microbial enzymes through hyperthermophiles is beneficial as they are more resistant and stable in a controlled closed production system. Among hyperthermophile bacteria, thermotogales include species with the ability to grow optimally at temperatures ≥80 °C and to produce high yields of H2. Thermostable enzymes are able to degrade different biomass materials and produce H2, it attained much attention for the scholars and have been used at the industrial scale. The biohydrogen pathways of thermotogales and the obstacles during the fermentation process need to be deeply examined. Therefore, this work critically reviewed the hydrogen production of Thermotoga species and their application to different biomass. Moreover, a critical discussion on the hyperthermophilic hydrogenic bacteria is provided followed by its genetic modifications and challenges associated to realize its future sustainability. In addition, this paper discusses the challenges of improving hydrogen production. Finally, it was concluded that using thermostable enzymes produced by extremophilic bacteria such as T. maritima will lead to green development through producing high hydrogen yields.

Item Type:Article
Uncontrolled Keywords:biohydrogen, energy conversion, fermentation
Subjects:T Technology > TA Engineering (General). Civil engineering (General)
Divisions:Civil Engineering
ID Code:86601
Deposited By: Narimah Nawil
Deposited On:30 Sep 2020 08:43
Last Modified:30 Sep 2020 08:43

Repository Staff Only: item control page