In the present work, a lab-scale experimental campaign on dark fermentation of milk powder (used as a surrogate of cheese whey) was conducted in order to assess the bio-hydrogen production potential of cheese whey. The experiments were performed in automated semi-continuous reactors and were aimed at estimating the effect of the Organic Loading Rate (OLR) and Hydraulic Retention Time (HRT) on the H2 yield. Hydrogenogenic biomass was harvested from aerobic wastewater sludge by applying a thermal pre-treatment (105 °C, 30 min) and used as the initial inoculum. The experiments were conducted at a set-point pH of 6.5, which was automatically adjusted by the control system. In total, 20 fermentation tests were run, with HRT ranging from 4 to 20 ...
Hydrogen (H2) is considered as fuel for future and its biological production from renewable feedstoc...
WOS: 000265271300006Hydrogen production from cheese whey wastewater via dark fermentation was conduc...
Dark fermentative hydrogen gas production from cheese whey powder solution was realized at 55 degree...
In the present work, a lab-scale experimental campaign on dark fermentation of milk powder (used as ...
Batch factorial experiments were performed on cheese whey + wastewater sludge mixtures to evaluate t...
Batch dark fermentation experiments were performed on mixtures of cheese whey (CW) and wastewater a...
Cheese whey (CW) is one of the most abundant by-products of cheese manufacturing, as about 9.0 kg of...
International Workshop on Biohydrogen Production Technology -- FEB 07-09, 2008 -- Kharagpur, INDIAWO...
The aim of the present study was to investigate the potential of hydrogen and subsequent methane pro...
Hydrogen production from cheese whey through dark fermentation experiments was investigated in the p...
Hydrogen production from cheese whey through dark fermentation was investigated in this study in ord...
Cheese whey (CW) is one of the most abundant by-products of cheese manufacturing, with~9.0 kg of ...
This paper evaluates the effect of both pH and inoculum to substrate ratio (ISR) on fermentative H2...
Continuous dark fermentation experiments for hydrogen production from synthetic cheese whey were con...
Continuous dark fermentation experiments for hydrogen production from synthetic cheese whey were con...
Hydrogen (H2) is considered as fuel for future and its biological production from renewable feedstoc...
WOS: 000265271300006Hydrogen production from cheese whey wastewater via dark fermentation was conduc...
Dark fermentative hydrogen gas production from cheese whey powder solution was realized at 55 degree...
In the present work, a lab-scale experimental campaign on dark fermentation of milk powder (used as ...
Batch factorial experiments were performed on cheese whey + wastewater sludge mixtures to evaluate t...
Batch dark fermentation experiments were performed on mixtures of cheese whey (CW) and wastewater a...
Cheese whey (CW) is one of the most abundant by-products of cheese manufacturing, as about 9.0 kg of...
International Workshop on Biohydrogen Production Technology -- FEB 07-09, 2008 -- Kharagpur, INDIAWO...
The aim of the present study was to investigate the potential of hydrogen and subsequent methane pro...
Hydrogen production from cheese whey through dark fermentation experiments was investigated in the p...
Hydrogen production from cheese whey through dark fermentation was investigated in this study in ord...
Cheese whey (CW) is one of the most abundant by-products of cheese manufacturing, with~9.0 kg of ...
This paper evaluates the effect of both pH and inoculum to substrate ratio (ISR) on fermentative H2...
Continuous dark fermentation experiments for hydrogen production from synthetic cheese whey were con...
Continuous dark fermentation experiments for hydrogen production from synthetic cheese whey were con...
Hydrogen (H2) is considered as fuel for future and its biological production from renewable feedstoc...
WOS: 000265271300006Hydrogen production from cheese whey wastewater via dark fermentation was conduc...
Dark fermentative hydrogen gas production from cheese whey powder solution was realized at 55 degree...