This fact sheet describes NREL's accomplishments in fermentative and electrohydrogenic production of hydrogen from corn stover. Work was performed by NREL's Biosciences Center and Pennsylvania State University
Over the past decade, increasing interest has been given to anaerobic fermentative processes for hyd...
A three-stage anaerobic fermentation process including H-2 fermentation I, H-2 fermentation II, meth...
The use of electrochemical hydrogen removal (EHR) together with carbon dioxide removal (CDR) was dem...
This fact sheet describes NREL's accomplishments in improving energy transfer within a wind turbine-...
Hydrogen was produced by simultaneous saccharification and fermentation from steam-exploded corn str...
This work describes the development of a waste biomass fermentation process using cellulose-degradin...
An efficient hydrogen production process via thermophilic fermentation of cornstalk was developed by...
This report focuses on the production of hydrocarbons in a biomass to liquid (BtL) process with inte...
Research at NREL is demonstrating that engineering enzymes has the potential to improve efficiencies
NREL researchers are finding ways to mimic photosynthesis by combining enzymes with nanoparticles - ...
Using cheap renewable raw materials such as lignocellulosic feedstock for hydrogen production by fer...
Summarization: Environmental concerns and sustainability issues dictate the production of energy car...
Hydrogen is a promising energy carrier due to no greenhouse gas (GHG) emission during combustion and...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The topic of this special issue of the Journal of Cleaner Production is “Sustainable Hydrogen from B...
Over the past decade, increasing interest has been given to anaerobic fermentative processes for hyd...
A three-stage anaerobic fermentation process including H-2 fermentation I, H-2 fermentation II, meth...
The use of electrochemical hydrogen removal (EHR) together with carbon dioxide removal (CDR) was dem...
This fact sheet describes NREL's accomplishments in improving energy transfer within a wind turbine-...
Hydrogen was produced by simultaneous saccharification and fermentation from steam-exploded corn str...
This work describes the development of a waste biomass fermentation process using cellulose-degradin...
An efficient hydrogen production process via thermophilic fermentation of cornstalk was developed by...
This report focuses on the production of hydrocarbons in a biomass to liquid (BtL) process with inte...
Research at NREL is demonstrating that engineering enzymes has the potential to improve efficiencies
NREL researchers are finding ways to mimic photosynthesis by combining enzymes with nanoparticles - ...
Using cheap renewable raw materials such as lignocellulosic feedstock for hydrogen production by fer...
Summarization: Environmental concerns and sustainability issues dictate the production of energy car...
Hydrogen is a promising energy carrier due to no greenhouse gas (GHG) emission during combustion and...
Hydrogen has received wide attention in the last decade as a clean energy vector. The major advantag...
The topic of this special issue of the Journal of Cleaner Production is “Sustainable Hydrogen from B...
Over the past decade, increasing interest has been given to anaerobic fermentative processes for hyd...
A three-stage anaerobic fermentation process including H-2 fermentation I, H-2 fermentation II, meth...
The use of electrochemical hydrogen removal (EHR) together with carbon dioxide removal (CDR) was dem...
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