Cold enzyme hydrolysis was investigated on the ethanol production by Saccharomyces cerevisiae during simultaneous saccharification and fermentation (SSF) processing. An integrated statistical design, which incorporated single factor design, response surface methodology (RSM) and weighting coefficient method, was used to determine the optimum hydrolysis conditions leading to maximum biomass, ethanol concentration and starch utilization ratio. After the studied ranges of alpha-amylase, glucoamylase and liquefaction time were identified by single factor design, RSM was used to further optimize the hydrolysis conditions for each objective. The results showed that, under hydrolysis condition optimized with RSM, biomass, ethanol concentration and...
Ethanol fermentation characteristics of the 100% respiratory-deficient nuclear petite amylolytic Sac...
The two-step enzymatic hydrolysis of sago starch was performed by commercially available α-amylase ...
The use of biomass for the production of bioethanol has received considerable interest in recent yea...
Bioethanol is known as a viable alternative fuel to solve both energy and environmental crises. This...
Bioethanol is known as a viable alternative fuel to solve both energy and environmental crises. This...
Response surface methodology based on central composite design was applied to optimize the fermentat...
The conversion of starch to sugar can be achieved by hydrolysis process. The two-step enzymatic hydr...
The saccharification stage in ethanol production is one of the main ones. Completeness of dextrins a...
Current ethanol production processes utilizing crops such as sugar cane and corn starch has been wel...
The purpose of this study was to optimize ethanol production in a small glass reactor. The ethanol w...
Studies on Simultaneous Saccharification and Fermentation (SSF) of corn flour, a major agricultural ...
Aiming to obtain rapid fermentations with high ethanol yields and a retention of high final viabilit...
Two stage processes prior to ethanol production has been proposed which is hydrolysis and fermentati...
Ethanol, when mixed with gasoline, is an economical and environmentally friendly liquid fuel. Yeast ...
In the present study, classical statistical tool Response Surface Methodology (RSM) was adopted for ...
Ethanol fermentation characteristics of the 100% respiratory-deficient nuclear petite amylolytic Sac...
The two-step enzymatic hydrolysis of sago starch was performed by commercially available α-amylase ...
The use of biomass for the production of bioethanol has received considerable interest in recent yea...
Bioethanol is known as a viable alternative fuel to solve both energy and environmental crises. This...
Bioethanol is known as a viable alternative fuel to solve both energy and environmental crises. This...
Response surface methodology based on central composite design was applied to optimize the fermentat...
The conversion of starch to sugar can be achieved by hydrolysis process. The two-step enzymatic hydr...
The saccharification stage in ethanol production is one of the main ones. Completeness of dextrins a...
Current ethanol production processes utilizing crops such as sugar cane and corn starch has been wel...
The purpose of this study was to optimize ethanol production in a small glass reactor. The ethanol w...
Studies on Simultaneous Saccharification and Fermentation (SSF) of corn flour, a major agricultural ...
Aiming to obtain rapid fermentations with high ethanol yields and a retention of high final viabilit...
Two stage processes prior to ethanol production has been proposed which is hydrolysis and fermentati...
Ethanol, when mixed with gasoline, is an economical and environmentally friendly liquid fuel. Yeast ...
In the present study, classical statistical tool Response Surface Methodology (RSM) was adopted for ...
Ethanol fermentation characteristics of the 100% respiratory-deficient nuclear petite amylolytic Sac...
The two-step enzymatic hydrolysis of sago starch was performed by commercially available α-amylase ...
The use of biomass for the production of bioethanol has received considerable interest in recent yea...