Add to ORKGA derivative of the anaerobic bacterium Clostridium phytofermentans was isolated and shown to produce two moles of hydrogen per mole of glucose and similar yields from cellulosic feedstocks. The strain (cpnit-1) was selected for its rapid growth in a chemostat under nitrogen fixation conditions. The rare ability of cpnit-1 to stably, anaerobically produce hydrogen while rapidly fixing its own nitrogen provides a strong selection to maintain the culture and suggests a uniquely simple hydrogen reactor design based on renewable feedstocks
In order to produce fermentative biohydrogen at high yields and production rates, efficient bioreact...
[en] ABSTRACT: BACKGROUND: Pure bacterial strains give better yields when producing H2 than mixed, n...
Hydrogen is currently considered as to become an important energy carrier and energy resource in the...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The production of hydrogen is a ubiquitous, natural phenomenon under anoxic or anaerobic conditions....
The hydrogen-producing strain PROH2 pertaining to the genus Clostridium was successfully isolated fr...
[en] Hydrogen is widely considered as the most promising energetic carrier. At an industrial scale, ...
This research reports on investigating Citrobacter amalonaticus Y19, a chemoheterotrophic facultativ...
[en] This paper investigates the biohydrogen production by two mesophilic strains, a strict anaerobe...
A newly isolated Citrobacter sp. Y19 grows on organic carbons aerobically and produces hydrogen from...
Hydrogen holds a great promise as an efficient and clean future energy carrier due to its high energ...
Three newly discovered H2 producing bacteria namely Clostridium perfringens strain JJC, Clostridium ...
Climate change, along with the rapid depletion of petroleum and natural gas reserves, has prompted m...
Fermentative hydrogen production has often been described as inhibited by its own gas production. In...
Phototrophic hydrogen production from glucose by pure and co-cultures of Clostridium butyricum and R...
In order to produce fermentative biohydrogen at high yields and production rates, efficient bioreact...
[en] ABSTRACT: BACKGROUND: Pure bacterial strains give better yields when producing H2 than mixed, n...
Hydrogen is currently considered as to become an important energy carrier and energy resource in the...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The production of hydrogen is a ubiquitous, natural phenomenon under anoxic or anaerobic conditions....
The hydrogen-producing strain PROH2 pertaining to the genus Clostridium was successfully isolated fr...
[en] Hydrogen is widely considered as the most promising energetic carrier. At an industrial scale, ...
This research reports on investigating Citrobacter amalonaticus Y19, a chemoheterotrophic facultativ...
[en] This paper investigates the biohydrogen production by two mesophilic strains, a strict anaerobe...
A newly isolated Citrobacter sp. Y19 grows on organic carbons aerobically and produces hydrogen from...
Hydrogen holds a great promise as an efficient and clean future energy carrier due to its high energ...
Three newly discovered H2 producing bacteria namely Clostridium perfringens strain JJC, Clostridium ...
Climate change, along with the rapid depletion of petroleum and natural gas reserves, has prompted m...
Fermentative hydrogen production has often been described as inhibited by its own gas production. In...
Phototrophic hydrogen production from glucose by pure and co-cultures of Clostridium butyricum and R...
In order to produce fermentative biohydrogen at high yields and production rates, efficient bioreact...
[en] ABSTRACT: BACKGROUND: Pure bacterial strains give better yields when producing H2 than mixed, n...
Hydrogen is currently considered as to become an important energy carrier and energy resource in the...