International Journal of Renewable Energy Research-IJRER

This study determined mean volume distillate, percentage purity and specific gravity of bio-ethanol produced by the modification of the methods of Benue Brewery Limited (BBL), Makurdi and that of Mathewson using guinea corn, pearl millet and sweet potato as feedstocks. The modified reaction pathway yielded bio-ethanol of significantly (P < 0.01) higher mean volume distillate and percentage purity. Pearl millet feedstock yielded the highest mean volume distillate (98.00cm³) while guinea corn produced the highest mean volume distillate (92.17cm³) in the unmodified BBL method. Sweet potato feedstock yielded the lowest mean volume distillate of 79.00cm³ and 56.17cm³ in the modified reaction pathway and BBL method respectively. Pearl millet bio-ethanol also recorded the highest percentage purity (91.08%) by modified route and 88.64% by BBL method. Specific gravity measurements of the bio-ethanol showed that BBL method produced higher values with all the feedstocks. The highest value (0.8582) was recorded with guinea corn bio-ethanol produced while the least value (0.8268) was recorded with pearl millet bio-ethanol produced by the modified reaction pathway. This finding suggests that addition of hitempase (α-amylase) at onset and end gelatinization temperatures of starch improves the completeness of fermentation process with corresponding increase in volume distillate and percentage purity of bio-ethanol.

. J. Tulloch. Raising the Next Generation http://knowledge.allianz.com/?1476/future-biofuels-nextgeneration&mcg=2096216092_6492554452&kwg=Phrase_2096216092_biofuel 2011.

. IEA. From 1st to 2nd Generation Biofuel Technologies; An overview of Current Industry and R&D Activities. OECD/IEA, November, 2008, p5.

. De-Keyser, S and Hongo, H. Farming for Energy for Better Livelihoods in Southern

African. FELISA. Paper Presented at the PfA-TaDO Policy Dialogue Conference on the Role of Renewable Energy for Poverty Alleviation and Sustainable Development in Africa, Dar-es Salaam, 22 June, 2005.

. H.C. Metz, (Ed). Nigeria: A Country Study. Washington: GPO for the Library of Congress. http://www.worldbank.org/html/cgiar/newsletter/Mar96/4cas2.htm. 1991.

. M. Aregheore. Country pasture/forage resource profile—Nigeria

http://www.fao.org/ag/AGP/agpc/doc/Counprof/nigeria/nigeria.htm. 2005.

. S.T. Ubwa. A Modified Route for Bio-ethanol Production from Different Substrates: Effect of Enzyme Concentration on Yield. A Ph.D Thesis. 2011. Pp 110-141.

. S.W. Mathewson. The Manual for Home and Farm Production of Alcohol Fuel: Ten speed press J.A. Diaz Publication 94p. 1980.

. S.T. Ubwa, C.A. Nwadinigwe, G.O. Ugalahi-Igbum, and B.A. Anhwange. Comparative Studies on the Preparation of Bio-ethanol from Cassava (Mannihot esculenta Crantz) and Maize (Zea mays L). International Journal of Modern Chemistry. 1(1): 1-8. 2012.

. H. Guzman-Maldonado, and O. Paredes-Lopez. Amylolytic Enzymes and Products Derived from Starch; a Review. Crit. Rev, Food Sci. Nutr., 35 (5): 373-403. 1995.

. K. Helrich. Official methods of analysis of the Association of official Analytical Chemist. Suite 400, 2200 Wilson Boulevard Arlington, Virginia 2220, USA. 1990. Vol. 1 and 2.

. S. N. Moorthy. Physicochemical and Functional Properties of Tropical Tuber Starches: A Review. Starch 54:559-592. 2002.

. P.A. Ensminger, Beer Data: Alcohol, Calorie and Attenuation levels of Beer. http://hbd.org/ensminger/: Retrived 24/02/2009.