Add to ORKGMany distilleries where potable-quality ethanol spirit is manufactured contain a hydro-extractive distillation column. Addition of water as the extractive agent here results in a large dilution of ethanol, and subsequently, a higher energy consumption at the rectification column. By means of computer-aided simulation, it was found that the hydro-extractive distillation step could be effectively replaced with a high-reflux distillation step. It was also found that application of this result to a working distillery in Sri Lanka would result in an energy saving of 251 kW
In this paper, two ethanol processes integrated with a softwood pulp mill are compared with regard t...
Bio-ethanol dehydration has drawn a major attention in the process industry all over the world, due ...
A bio-ethanol distilling tank was designed and constructed to distil ethanol from sugarcane substrat...
In order for ethanol to be competitive with gasoline, the production cost of ethanol must be lower t...
A bio-ethanol distilling tank was designed and constructed to distil ethanolfrom sugarcane substrate...
Bio-ethanol, as a clean and renewable fuel, is gaining increasing attention, mostly through its majo...
In a bioethanol production plant the separation unit performs the recovery of the ethanol from the r...
The purification of bioethanol fuel requires an energy demanding separation process to concentrate t...
AbstractThe industrial production of anhydrous bioethanol requires energy demanding distillation ste...
The purification of bioethanol fuel involves an energy-intensive separation process to concentrate t...
The fuel ethanol industry has put into practice several techniques for minimizing energy requireme...
The purification of bioethanol fuel involves an energy-intensive separation process to concentrate t...
Process simulation was used to analyze bioethanol distillation process, which requires a large amoun...
For the high utilization of abundant lignocellulose, which is difficult to directly convert into eth...
In a distillery where concentrated ethanol is manufactured, a large amount of ethanol vapour is lost...
In this paper, two ethanol processes integrated with a softwood pulp mill are compared with regard t...
Bio-ethanol dehydration has drawn a major attention in the process industry all over the world, due ...
A bio-ethanol distilling tank was designed and constructed to distil ethanol from sugarcane substrat...
In order for ethanol to be competitive with gasoline, the production cost of ethanol must be lower t...
A bio-ethanol distilling tank was designed and constructed to distil ethanolfrom sugarcane substrate...
Bio-ethanol, as a clean and renewable fuel, is gaining increasing attention, mostly through its majo...
In a bioethanol production plant the separation unit performs the recovery of the ethanol from the r...
The purification of bioethanol fuel requires an energy demanding separation process to concentrate t...
AbstractThe industrial production of anhydrous bioethanol requires energy demanding distillation ste...
The purification of bioethanol fuel involves an energy-intensive separation process to concentrate t...
The fuel ethanol industry has put into practice several techniques for minimizing energy requireme...
The purification of bioethanol fuel involves an energy-intensive separation process to concentrate t...
Process simulation was used to analyze bioethanol distillation process, which requires a large amoun...
For the high utilization of abundant lignocellulose, which is difficult to directly convert into eth...
In a distillery where concentrated ethanol is manufactured, a large amount of ethanol vapour is lost...
In this paper, two ethanol processes integrated with a softwood pulp mill are compared with regard t...
Bio-ethanol dehydration has drawn a major attention in the process industry all over the world, due ...
A bio-ethanol distilling tank was designed and constructed to distil ethanol from sugarcane substrat...