Add to ORKGCurrently developing countries are facing fuel challenges yet at the same time waste corn stover remains unutilized. This work was undertaken to utilize the excess corn stover for making bio-ethanol as a way of value addition by designing a plant manufacturing 150 tons per day of 99.5% pure cellulosic bio-ethanol operating over a 10 year period. The process which converted crude corn stover to cellulosic bio-ethanol was evaluated for conversion via hydrolysis lignocelluloses in the corn stover then the co-fermentation of the carbon 5 and carbon 6 monosaccharides obtained from hydrolysis process. The hydrolysis process is a route to the bio-ethanol through 86% co-fermentation of carbon 5 and carbon 6 sugars obtained from the 75% sacc...
Existing bioethanol production relies heavily on the use of corn and sugarcane as feedstocks. A prer...
Bioethanol has been introduced on a large scale in several countries, for example, in Brazil, the Un...
Unlocking the potential and value of lignocellulosic residues is an important step in making biorefi...
Bio-gasoline derived from biomass is a clean and renewable energy, which can replace conventional pe...
Bioenergy production from plant wastes such as corn stover has the potential to improve energy secur...
Corn stover (CS) has currently received great attention worldwide as a potential feedstock for the p...
Bioethanol is highly produced and most used biofuel, with lignocellulosic biomass as an ideal choice...
Large-scale application of bio-ethanol as a transportation fuel can contribute substantially to the ...
Abstract Cellulosic ethanol is a biofuel, produced from different kinds of raw materials such as sim...
ABSTRACT. Dry‐grind ethanol plants have the potential to reduce their operating costs and improve th...
Corn stover is by far the largest single available biomass not being used, representing more than on...
The shift from fossil resources to renewables for energy and materials production has been the drivi...
Dry‐grind ethanol plants have the potential to reduce their operating costs and improve their net en...
Existing bioethanol production relies heavily on the use of corn and sugarcane as feedstocks. A prer...
Bioethanol has been introduced on a large scale in several countries, for example, in Brazil, the Un...
Unlocking the potential and value of lignocellulosic residues is an important step in making biorefi...
Bio-gasoline derived from biomass is a clean and renewable energy, which can replace conventional pe...
Bioenergy production from plant wastes such as corn stover has the potential to improve energy secur...
Corn stover (CS) has currently received great attention worldwide as a potential feedstock for the p...
Bioethanol is highly produced and most used biofuel, with lignocellulosic biomass as an ideal choice...
Large-scale application of bio-ethanol as a transportation fuel can contribute substantially to the ...
Abstract Cellulosic ethanol is a biofuel, produced from different kinds of raw materials such as sim...
ABSTRACT. Dry‐grind ethanol plants have the potential to reduce their operating costs and improve th...
Corn stover is by far the largest single available biomass not being used, representing more than on...
The shift from fossil resources to renewables for energy and materials production has been the drivi...
Dry‐grind ethanol plants have the potential to reduce their operating costs and improve their net en...
Existing bioethanol production relies heavily on the use of corn and sugarcane as feedstocks. A prer...
Bioethanol has been introduced on a large scale in several countries, for example, in Brazil, the Un...
Unlocking the potential and value of lignocellulosic residues is an important step in making biorefi...