Hydrogen is undeniably one of the most promising options for producing energy with
minimal environmental impact. However, current hydrogen production is still derived from …

This is of utmost importance to move towards green energy in order to achieve sustainability.
Future energy crises might be significantly reduced by using lignocellulosic waste biomass …

Abstract This study incorporated ZnO/ZnS nanoparticles with Rhodobacter capsulatus
SB1003, forming a hybrid system to promote photo-fermentative hydrogen production. The …

Mitigating the irreversible consequences of climate change necessitates the application of
sustainable energy resources. Hereby, we investigated the biological anaerobic …

The engineering application of volatile fatty acids (VFA) production from food waste (FW)
can significantly enhance resource utilization. Enhancing VFA production is crucial for …

Supplementation additives is a promising approach in enhancing hydrogen production
during fermentation processes, owing to the advantages of simple operation and low energy …

This research investigates the innovative application of elephant dung biochar derived from
pyrolysis process as an enhancer for biohydrogen production from food waste by dark …

Response surface methodology was employed to establish a thermophilic hydrogen
production process from co-substrate of food waste (FW) and waste activated sludge (WAS) …

This study investigated the effectiveness and synergistic mechanism of trace-element-
modified biochar (BC) on in vitro ruminal fermentation of lignocellulose. Fe/Mg-modified BC …

Dark fermentation is a promising method for hydrogen (H2) production utilizing the
metabolic pathways of diverse microbial communities. This process can be carried out …