Abstract
An experiment was conducted in 2017 at Alwaha Project, Khartoum State to study the potential of ethanol yield from fermented juice of local and exotic sweet sorghums. 40 genotypes were arranged in RCB design. Juice yield, ethanol yield as percentage of fermented juice, actual and theoretical ethanol yields were studied. The Baker’s yeast (Saccharomyces cerevisiae) was used in the fermentation process. ANOVA tests, correlation and regression analysis of actual vs theoretical ethanol yield were performed. Significant differences were detected among genotypes for ethanol yields. High ethanol yields as percentage from fermented juice were obtained, but ethanol yield per hectare was relatively low due to low juice yields. The genotypes BlueRibbon and KensasCollies from exotic materials; 5AbjSG51 and S.154 Ab70 from local materials were identified as promising for ethanol production. Correlation between actual ethanol yield and Juice yield was positive and highly significant. Regression analysis indicated that theoretical ethanol yield was little bit overestimated. It was concluded that juice yield is more crucial than ethanol concentration in maximizing ethanol yield of sweet sorghum. More efforts are needed to develop high juice-yielding genotypes. Juice maximization can also be achieved by using efficient milling devices and optimizing cultural practices.
Highlights
Sorghum (Sorghum bicolor (L.) Moench) is the most important crop grown for food and feed in Sudan where it believed to be domesticated and/or diversified [1, 2]
An experiment was conducted in 2017 at Alwaha Project, Khartoum State to study the potential of ethanol yield from fermented juice of local and exotic sweet sorghums. 40 genotypes were arranged in RCB design
It was concluded that juice yield is more crucial than ethanol concentration in maximizing ethanol yield of sweet sorghum
Summary
Sorghum (Sorghum bicolor (L.) Moench) is the most important crop grown for food and feed in Sudan where it believed to be domesticated and/or diversified [1, 2]. Encouraged by the great diversity of sorghum in Sudan, a research project had been initiated in 2012 to develop multi-purpose varieties compromising feed, food and fuel attributes [4]. The results obtained pointed to the possibility of developing varieties simultaneously improved in stem-sugar, grain and stover attributes [5]. Other research studied the performance of local and exotic sweet sorghum genotypes for theoretical ethanol yield at different sowing dates.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
