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References
|
Ajibola FO, Edema MO, Oyewole OB (2012). Enzymatic Production of Ethanol from Cassava Starch Using Two Strains of Saccharomyces cerevisiae. Nigerian Food Journal 30(2):114-121. |
|
|
Ben-Iwo J, Manovic V, Longhurst P (2016). Biomass resources and biofuels potential for the production of transportation fuels in Nigeria. Renewable and Sustainable Energy Reviews 63:172-192. |
|
|
Bharti B, Madhulika C (2016). Bioethanol Production Using Saccharomyces cerevisiae with Different Perspectives: Substrates, Growth Variables, Inhibitor Reduction and Immobilization. Fermentation Technology 5(2):1-4. |
|
|
Caputie A, Ueda M, Brown T (1986). Spectrophotometeric determination of ethanol in wine. International Journal of Advanced Research 2:888-896. |
|
|
Chu-Ky S, Pham TH, Bui KLT, Nguyen TT, Pham KD, Nguyen HDT, Le TM (2016). Simultaneous liquefaction, saccharification and fermentation at very high gravity of rice at pilot scale for potable ethanol production and distillers dried grains composition. Food and Bioproducts Processing 98:79-85. |
|
|
De Haas I, Kreuger T (2010). The fermentation of different sugars, View 24 May, 2016. |
|
|
FAO (2012). Food production in Nigeria (2017-2019). In FAOSTAT Statistical Database, Statistical Division, (Ed.). Rome: Food and Agriculture Organization of the United Nations. |
|
|
Hanyao Z, Aaron S, Richard CG, Matthew RG (2010). Saccharomyces paradoxus and Saccharomyces cerevisiae reside on oak trees in New Zealand: evidence for migration from Europe and interspecies hybrids. FEMS Yeast Research 10(7):941-947. |
|
|
Hossain N, Zaini JH, Mahlia TMI (2017). A review of bioethanol production from plant-based waste biomass by yeast fermentation. International Journal of Technology 8(1):5-18. |
|
|
Miller GL (1959). Use of Dinitrosalicylic acid regent for determination of reducing sugar. Analytical Chemistry 31:426- 428. |
|
|
National Bureau of Statistics, Petroleum Products Consumption Statistics, Qtr 2, 2018. |
|
|
Phakping S, Ketudat-Cairns M, Boontawan A (2014). Extractive Fermentation of Ethanol from Fresh Cassava Roots using Vacuum Fractionation Technique. Advanced Materials Research 931-932:1096-1100. |
|
|
Puligudla P, Smogrovicova D, Obulam VRS, Ko S (2011). Very High Gravity (VHG) Ethanol Brewing and Fementation: A Research Update. Journal of Industrial Microbiology and Biotechnology 38:1133-1144. |
|
|
Sarocha P, Ankita J, Muhammad B. S, Athapol N, Vijay S (2018). Comparison of Cassava Starch with Corn as a Feedstock for Bioethanol Production. Energies 11:3476-3486. |
|
|
Siti HMA, Rahmath A, Siti A, Hartinie M, Jualang AG, Ainol AMF, Kenneth FR (2017). Yeasts in sustainable bioethanol production: A review. Biochemistry and Biophysics Reports 10:52-61. |
|
|
Solomon BO, Aransiola EF, Shittu TD, Adejare YO, Adediran DA, Bamidele CO, Ibrahim Taiwo (2018). The conversion of biomas to biofuel - A Review In Williams AOF, Ogunbayo AO, Abass O. (Eds.), Developments in Biotechnology, Systems, Control and Education: Festschrift in Honour of Professor Rahamon Adisa Bello University of Lagos Press, Lagos. |
|
|
Sriroth K, Wanlapatit S, Piyachomkwan K (2012). Cassava Bioethanol, Bioethanol, Prof. Marco Aurelio Pinheiro Lima (Ed.),. InTech Press, Rijeka, Croatia. 290-341. |
|
|
Steensels J, Snoek T, Meersman E, Nicolino MP, Voordeckers K, Verstrepen KJ (2014). Improving industrial yeast strains: exploiting natural and artificial diversity. Federation of European Microbiological Societies Microbiology Reviews 38(5):947-995. |
|
|
Zang L, Chen Q, Jin Y, Xue H, Guan J, Wang Z, Zhao H (2010). Energy Saving Direct Ethanol Production from Viscosity Reduction Mash of Sweet Potatoe at Very High Gravity (VHG). Fuel Processing Technology 91(12):1845-1850. |
|
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