Add to ORKG• Improve biological water-gas shift (WGS) reaction for producing biomass-derived hydrogen, using the photosynthetic bacterium Rubrivivax gelatinosus CBS as the biological catalyst. • Understand the biological machineries governing the CO-shift process in order to improve both CO-shift rates and durability. • Understand high pressure bioreactor dynamics. • Design, construct, and operate bioreactor capable of operating at elevated pressure. • Elucidate CO pressure effects on biological CO-shift reaction
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The suitability of polymer electrolyte fuel (PEM) cells for stationary and vehicular applications in...
Hydrogen has been considered a potential fuel for the future since it is carbon-free and oxidized to...
The water-gas shift reaction, in which carbon monoxide is oxidized to carbon dioxide while si-multan...
• Study the overall biological CO shift pathway at the physiological, biochemical, and genetic level...
A reactor-scale hydrogen (H-2) production via the water-gas shift reaction of carbon monoxide (CO) a...
[en] The fermentative production of hydrogen using chemotrophic anaerobic bacteria offers a new way ...
The water–gas shift (WGS) is a reversible, moderately exothermic reaction (1) and is used for the pr...
This research reports on investigating Citrobacter amalonaticus Y19, a chemoheterotrophic facultativ...
Carbon monoxide (CO) can be metabolized by a number of naturally occurring microorganisms along with...
Water gas shift is a well-known reaction in which carbon monoxide reacts with steam to give carbon d...
Hydrogen has been considered a potential fuel for the future since it is carbon-free and oxidized t...
The upgrading of biosyngas to convert methane into syngas is a necessary step for hydrogen productio...
Abstract In design of anaerobic bioreactor, rate equation is commonly used. Mathematical model was d...
Photosynthetic bacteria are versatile in their modes of H2 metabolism. They have four terminal enzym...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The suitability of polymer electrolyte fuel (PEM) cells for stationary and vehicular applications in...
Hydrogen has been considered a potential fuel for the future since it is carbon-free and oxidized to...
The water-gas shift reaction, in which carbon monoxide is oxidized to carbon dioxide while si-multan...
• Study the overall biological CO shift pathway at the physiological, biochemical, and genetic level...
A reactor-scale hydrogen (H-2) production via the water-gas shift reaction of carbon monoxide (CO) a...
[en] The fermentative production of hydrogen using chemotrophic anaerobic bacteria offers a new way ...
The water–gas shift (WGS) is a reversible, moderately exothermic reaction (1) and is used for the pr...
This research reports on investigating Citrobacter amalonaticus Y19, a chemoheterotrophic facultativ...
Carbon monoxide (CO) can be metabolized by a number of naturally occurring microorganisms along with...
Water gas shift is a well-known reaction in which carbon monoxide reacts with steam to give carbon d...
Hydrogen has been considered a potential fuel for the future since it is carbon-free and oxidized t...
The upgrading of biosyngas to convert methane into syngas is a necessary step for hydrogen productio...
Abstract In design of anaerobic bioreactor, rate equation is commonly used. Mathematical model was d...
Photosynthetic bacteria are versatile in their modes of H2 metabolism. They have four terminal enzym...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The suitability of polymer electrolyte fuel (PEM) cells for stationary and vehicular applications in...
Hydrogen has been considered a potential fuel for the future since it is carbon-free and oxidized to...