Inefficient waste management and associated environmental pollution are exhausting
societies' precious renewable resources. Moreover, their effects on human health adversely …

Dark fermentative hydrogen production is an effective and feasible technology for biological
hydrogen production. However, this technology has not been commercially applied yet. One …

Dark fermentative bio-hydrogen production is not commercially exploited due to several
factors hindering its production, making the process unfeasible on large scale. This study …

The current fossil fuel-based generation of energy has led to large-scale industrial
development. However, the reliance on fossil fuels leads to the significant depletion of …

Hydrogen has become a research highlight by virtue of its clean energy production
technology and high energy content. The technology of biohydrogen production from …

Hydrogen production via dark fermentation has been widely considered as a promising
strategy for clean energy generation. In addition, a wide variety of organic wastes can be …

In the present study, the dry matter, crude ash, crude protein, ether extract, and energy,
macro-(Na, K, Ca, Mg, P), micro-(Zn, Cu, Fe) minerals, heavy metals (Pb, Cd), vitamin C, A …

Dark fermentation (DF) is a promising technology for biohydrogen production. Low efficiency
of biohydrogen production is a bottleneck of the scale-up prospects for DF. Additives have …

Biohydrogen is a green energy carrier with the potential to reduce our dependency on fossil
fuels. The production of biohydrogen from lignocellulosic materials may be low cost, but …

The present study assessed the efficiency of utilizing mixed culture bacteria (MCB)
incorporated with individual nanoparticles (NPs), ie, hematite (α-Fe 2 O 3), nickel oxide …