Add to ORKGThis research studied bio-hydrogen production from vegetable waste from a fresh market in order to recover energy. A series of batch experiments were conducted to investigate the effects of initial volatile solids concentration on the bio-hydrogen production process. Lab bench scale anaerobic continuous stirred-tank reactors (CSTR) were used to study the effect of substrate and sludge inoculation on hydrogen production. Three different concentrations of initial total volatile solids (TVS) of organic waste were varied from 2%, 3% and 5% respectively. The pH was controlled at 5.5 for all batches in the experiment. The results showed that bio-hydrogen production depended on feed-substrate concentration. At initial TVS content of 3%, the highes...
Global population growth and accelerated urbanisation have resulted in massive amounts of fossil fue...
Sago waste which has not been fully utilised is a potential substrate for biotechnological applicati...
Biogas technology converts biological matter or biological waste (substrate) into energy and simulta...
This study investigated the batch experiments on biohydrogen production from wastes of plant and ani...
Fossil fuels have often served as the current energy source used for day to day activities by househ...
In the global search for the right alternative energy sources for a more sustainable future, hydroge...
In order to protect our planet and ourselves from the adverse effects of excessive CO2 emissions, an...
Hydrogen has become centre of global attention with its potential of being alternative fuel. It has ...
An evaluation of single-stage and two-stage anaerobic digestion processes for biomethane and biohydr...
[[abstract]]Biological hydrogen production is a process of applying anaerobic biological fermentatio...
This research work concerns the production of Hydrogen and Methane from a Food Residue Biomass (FORB...
Biohydrogen production from organic waste not only provides a sustainable way to produce biofuel but...
When hydrogen burns in air, it produces nothing but water vapour. It is therefore the cleanest possi...
Hydrogen is a valuable gas as a clean energy source and as feedstock for some industries. Therefore,...
Recently, it has become imperative to find new sustainable and renewable sources of energy, in order...
Global population growth and accelerated urbanisation have resulted in massive amounts of fossil fue...
Sago waste which has not been fully utilised is a potential substrate for biotechnological applicati...
Biogas technology converts biological matter or biological waste (substrate) into energy and simulta...
This study investigated the batch experiments on biohydrogen production from wastes of plant and ani...
Fossil fuels have often served as the current energy source used for day to day activities by househ...
In the global search for the right alternative energy sources for a more sustainable future, hydroge...
In order to protect our planet and ourselves from the adverse effects of excessive CO2 emissions, an...
Hydrogen has become centre of global attention with its potential of being alternative fuel. It has ...
An evaluation of single-stage and two-stage anaerobic digestion processes for biomethane and biohydr...
[[abstract]]Biological hydrogen production is a process of applying anaerobic biological fermentatio...
This research work concerns the production of Hydrogen and Methane from a Food Residue Biomass (FORB...
Biohydrogen production from organic waste not only provides a sustainable way to produce biofuel but...
When hydrogen burns in air, it produces nothing but water vapour. It is therefore the cleanest possi...
Hydrogen is a valuable gas as a clean energy source and as feedstock for some industries. Therefore,...
Recently, it has become imperative to find new sustainable and renewable sources of energy, in order...
Global population growth and accelerated urbanisation have resulted in massive amounts of fossil fue...
Sago waste which has not been fully utilised is a potential substrate for biotechnological applicati...
Biogas technology converts biological matter or biological waste (substrate) into energy and simulta...