Add to ORKGThe industrial scale hydrogen production from organic wastes by fermentative process is far to be realized as technical and economical limitations have still to be solved. Low H2 yields, lack of industrially robust organisms, and high cost of substrates are the major limiting factors. Moreover, the difficulty on understanding the main parameters implicated with the biomass-to- H2 route are largely due to the complexity of the microbial communities involved in the process. This work aimed at the development of an efficient microbial inoculum for the industrial conversion of organic residues into hydrogen. One hundred and twenty microbial strains, previously isolated from mixed consortia with interesting H2 fermentative performances from gluc...
BACKGROUND: The development of clean or novel alternative energy has become a global trend that will...
Hydrogen (H2) is meeting with increasing interest as possible alternative to fossil fuels for energy...
[en] The project MICRO-H2 aims to study and exploit the microbial (bacterial and algal) production o...
Bio-hydrogen, obtained by fermentation of organic residues, is considered a promising source of rene...
Biological production of hydrogen (H2) by dark fermentation is an exciting scientific area for the c...
Heat pre-treatment of the inoculum associated to the pH control was applied to select hydrogen-produ...
The bio hydrogen (H2 ) production by anaerobic digestion of industrial waste is beneficial one due...
Three newly discovered H2 producing bacteria namely Clostridium perfringens strain JJC, Clostridium ...
The growing interest for hydrogen utilization in the energy sector can be explained when considering...
The project MICRO-H2 aims to study and exploit the microbial (bacterial and algal) production of hyd...
This study aimed at finding applicable tools for favouring dark fermentation application in full-sca...
Sustainable hydrogen production is a topic of great interest since hydrogen is considered a clean, h...
Apart from being applied as an energy carrier, hydrogen is in increasing demand as a commodity. Curr...
[[abstract]]Organic municipal solid waste (OFMSW) and two seed microorganisms, namely heat-pretreate...
Hydrogen has become centre of global attention with its potential of being alternative fuel. It has ...
BACKGROUND: The development of clean or novel alternative energy has become a global trend that will...
Hydrogen (H2) is meeting with increasing interest as possible alternative to fossil fuels for energy...
[en] The project MICRO-H2 aims to study and exploit the microbial (bacterial and algal) production o...
Bio-hydrogen, obtained by fermentation of organic residues, is considered a promising source of rene...
Biological production of hydrogen (H2) by dark fermentation is an exciting scientific area for the c...
Heat pre-treatment of the inoculum associated to the pH control was applied to select hydrogen-produ...
The bio hydrogen (H2 ) production by anaerobic digestion of industrial waste is beneficial one due...
Three newly discovered H2 producing bacteria namely Clostridium perfringens strain JJC, Clostridium ...
The growing interest for hydrogen utilization in the energy sector can be explained when considering...
The project MICRO-H2 aims to study and exploit the microbial (bacterial and algal) production of hyd...
This study aimed at finding applicable tools for favouring dark fermentation application in full-sca...
Sustainable hydrogen production is a topic of great interest since hydrogen is considered a clean, h...
Apart from being applied as an energy carrier, hydrogen is in increasing demand as a commodity. Curr...
[[abstract]]Organic municipal solid waste (OFMSW) and two seed microorganisms, namely heat-pretreate...
Hydrogen has become centre of global attention with its potential of being alternative fuel. It has ...
BACKGROUND: The development of clean or novel alternative energy has become a global trend that will...
Hydrogen (H2) is meeting with increasing interest as possible alternative to fossil fuels for energy...
[en] The project MICRO-H2 aims to study and exploit the microbial (bacterial and algal) production o...