Bioethanol production from dilute fruit wastes using sorghum as additional fermentable sugar
Shedrack Thomas Mgeni, Herieth Rhodes Mero, Jonas Balengayabo Gervas, Lewis Atugonza Mtashobya, Jovine Kamuhabwa Emmanuel
Abstract
The global reliance on expensive fossil fuels for energy including transportation is causing environmental issues like global warming and air pollution, necessitating the search for eco-friendly and economically viable alternatives. The study investigated bioethanol production from pineapple, mango, pawpaw, and watermelon fruit wastes using sorghum as additional fermentable sugar through fermentation and distillation. After the juice extraction and dilution using clean tap water at a ratio of 1:1, each fruit’s juice with sorghum flour were fermented for 11 days followed by distillation to produce bioethanol. Results show that a mixture of pineapple fruit waste’s juice and sorghum produced the highest bioethanol of alcohol content of 25% while mango fruit waste’s juice gave 15% with pawpaw giving 10%, and watermelon the last with 4% for the first aliquot of 100 mL. Fruit waste’s juice mixture with sorghum produced the highest alcohol content of 11%, while a mixture of fruit wastes juice without sorghum gave 10% for the first aliquot of 100 mL. Results indicate further that re-distillation improved the quality of bioethanol from the alcohol content between 5-8% to 72%. The study of bioethanol production from unexplored fruit wastes utilizing technologies like fermentation and distillation provides a promising avenue for research.