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 …

This review summarized several main factors influencing fermentative hydrogen production.
The reviewed factors included inoculum, substrate, reactor type, nitrogen, phosphate, metal …

A significant effort is underway to develop biofuels as replacements for non-renewable fossil
fuels. Among the various options, hydrogen is an attractive future energy carrier due to its …

Ethanol organosolv pretreated rice straw was used to produce biohydrogen using
Enterobacter aerogenes. The effect of temperature (120–180° C), residence time (30–90 …

Hydrogen, the most abundant and lightest element in the universe, has enormous potential
as a future energy. High conversion efficiency, recyclability and nonpolluting nature of …

Hydrogen is a clean energy carrier which has a great potential to be an alternative fuel.
Abundant biomass from various industries could be a source for biohydrogen production …

The present study investigates the improvement of dark fermentative H 2 production from
organic wastes using acidogenic mixed consortia. A preliminary study was conducted to find …

In the challenge of mitigating greenhouse gases produced mainly by fossil fuels, the
recovery of agricultural and food waste to produce biohydrogen by dark fermentation is …

Global research is moving forward in developing hydrogen as a renewable energy source in
order to alleviate concerns related to carbon dioxide emissions and depleting fossil fuels …

Hydrogen is an ideal, clean, and potentially sustainable energy carrier for the future due to
its abundance and non-polluting nature. Numerous bacteria, cyanobacteria, and algae are …