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

Hydrogen can be produced in an environmentally friendly manner through biological
processes using a variety of organic waste and biomass as feedstock. However, the …

An innovative application of the anaerobic structured-bed reactor (AnSTBR) in thermophilic
dark fermentation of sugarcane vinasse targeting biohydrogen (bioH 2) production was …

The use of packed-bed reactors for biohydrogen production often results in performance
losses in the short term because of the negative effects of operational factors, such as …

Biohydrogen production from palm oil mill effluent by two-stage dark fermentation and
microbial electrolysis was investigated under thermophilic condition. The optimum chemical …

The objective of this study was to maximize the hydrolysis and acidification of sugar-beet
processing wastewater and beet pulp for volatile fatty acid (VFA) production through …

Hydrogen production by dark fermentation may suffer of inhibition or instability due to pH
deviations from optimality. The co-fermentation of promptly degradable feedstock with alkali …

In this study, an artificial neural network (ANN) model was developed to estimate the
hydrogen production profile with time in batch studies. A back propagation artificial neural …

The present study focused on the mesophilic anaerobic bio-hydrogen production from PPS
(pulp & paper sludge) and FW (food waste), and the subsequent anaerobic digestion of the …

Background Microalgal biomass contains a high level of carbohydrates which can be
biochemically converted to biofuels using state-of-the-art strategies that are almost always …