Green hydrogen (H 2) is one of the most promising candidates to combat the global energy crisis because of its high energy density, sustainability and abundance on earth. Large …
Modernization of lifestyle, industrialization, population has resulted in generation of huge amount of waste, with rich in organic and inorganic content. Waste biomass (agriculture …
Currently, there exists a significant number of green hydrogen production (GHP) technologies based on scaling-up issues (SCUI). Optimal prediction and process …
Utilising 'wastes' as 'resources' is key to a circular economy. While there are multiple routes to waste valorisation, anaerobic digestion (AD)—a biochemical means to breakdown …
Fossil fuels are limited in nature and are not environmentally friendly, thus using them to meet the rising energy needs is insufficient. Another major cause of global warming, which is …
YH Ahmad, MF Ibrahim, JR Banu… - Energy Conversion and …, 2024 - Elsevier
Biochemical routes for hydrogen generation represent great opportunities to generate hydrogen from renewable and economical bio-resources like biomass and wastes. In this …
The decarbonization of hard-to-abate industries is crucial for keeping global warming to below. Green or renewable hydrogen, synthesized through water electrolysis, has emerged …
Global energy demands are rising fast, and trying to develop clean energy sources can mitigate climate change. Green Hydrogen is one of them and can be generated using …
S Sriram, JWC Wong, N Pradhan - Bioresource Technology, 2022 - Elsevier
Biotransformation of organic substrates via acidogenic fermentation (AF) to high-value products such as C1-C6 carboxylic acids and alcohol serves as platform chemicals for …