Hydrogen fermentation is a very complex process and is greatly influenced by many factors. Previous studies have demonstrated that temperature, pH and substrate are important factors controlling biological H2 production. Response surface methodology with central composite design was used in this study to optimize H2 production from glucose by an anaerobic culture. The individual and interactive effects of pH, temperature and glucose concentration on H2 production were also evaluated. The optimum conditions for maximum H2 yield of 1.75 mol-H2 mol-glucose−1 were found as temperature 38.8 °C, pH 5.7 and glucose concentration 9.7 g L−1. The linear effects of temperature and pH as well as their quadratic effects on H2 yield were significant, whi...
Hydrogen (H2) gas has been widely known as a potential renewable energy. Throughout the advancement...
The effect of substrate (glucose) concentration on the stability and yield of a continuous fermentat...
The bio hydrogen (H2 ) production by anaerobic digestion of industrial waste is beneficial one due...
In this paper, experiments were conducted to investigate H2 production from glucose by mixed anaerob...
In this study, optimization of biohydrogen production from food waste was investigated using respons...
The 21st century is era of renewable energy in which biohydrogen is the most potential candidate tha...
[en] Investigations were carried out to determine the effect of the pH, the nitrogen source, ironand...
Hydrogen (H-2) production using mixed anaerobic cultures often suffers severe yield reduction due to...
Fresh compost leachate was used as a nutrients source to facilitate anaerobic fermentative hydrogen ...
Kinetics of hydrogen production from sucrose by mixed anaerobic cultures was investigated, and the G...
Photofermentative hydrogen production is influenced by several parameters, including feed compositio...
The energy crisis and current environmental degradation are the two vital issues for global sustaina...
The hydrogen production by anaerobic hydrolysis can be a promising pathway to build up a carbon neut...
Biohydrogen, which can be produced by dark fermentation and photofermentation processes, is a renewa...
Bio-hydrogen production from mixed culture fermentation (MCF) of glucose was studied by conducting a...
Hydrogen (H2) gas has been widely known as a potential renewable energy. Throughout the advancement...
The effect of substrate (glucose) concentration on the stability and yield of a continuous fermentat...
The bio hydrogen (H2 ) production by anaerobic digestion of industrial waste is beneficial one due...
In this paper, experiments were conducted to investigate H2 production from glucose by mixed anaerob...
In this study, optimization of biohydrogen production from food waste was investigated using respons...
The 21st century is era of renewable energy in which biohydrogen is the most potential candidate tha...
[en] Investigations were carried out to determine the effect of the pH, the nitrogen source, ironand...
Hydrogen (H-2) production using mixed anaerobic cultures often suffers severe yield reduction due to...
Fresh compost leachate was used as a nutrients source to facilitate anaerobic fermentative hydrogen ...
Kinetics of hydrogen production from sucrose by mixed anaerobic cultures was investigated, and the G...
Photofermentative hydrogen production is influenced by several parameters, including feed compositio...
The energy crisis and current environmental degradation are the two vital issues for global sustaina...
The hydrogen production by anaerobic hydrolysis can be a promising pathway to build up a carbon neut...
Biohydrogen, which can be produced by dark fermentation and photofermentation processes, is a renewa...
Bio-hydrogen production from mixed culture fermentation (MCF) of glucose was studied by conducting a...
Hydrogen (H2) gas has been widely known as a potential renewable energy. Throughout the advancement...
The effect of substrate (glucose) concentration on the stability and yield of a continuous fermentat...
The bio hydrogen (H2 ) production by anaerobic digestion of industrial waste is beneficial one due...