Tujuan dari penelitian, adalah untuk meminimalisir penggunaan bensin dengan cara penambahan bahan bakar alternatif yang lebih ramah lingkungan, mengingat semakin menipisnya cadangan bahan bakar fosil. Salah satu solusinya adalah dengan cara blending bensin dasar 88 dengan bioetanol. Metode yang digunakan antara lain ASTM D 86 untuk destilasi, ASTM D 323 untuk Reid Vapor Pressure (RVP), ASTM D 525 untuk oksidasi stabilisasi. Variabel konsentrasi meliputi  bensin dasar 88, blending bensin dengan etanol ( E2,5% ; E5% ; E7,5% ; E10% ; E12,5% ; E15% ; E17,5% ; E20%) dan etanol murni. Proses distilasi digunakan untuk mengetahui sifat volatilitasnya berdasarkan kurva distilasinya. Dari penelitian ini, diperoleh nilai uji densitas, uji stabilisasi oksidasi, uji RVP sebesar 801 kg/m3, < E10%, 50 kPa secara berurutan. Hasil optimum diperoleh  pada campuran bensin-bioetanol E10%. 

OECD, “Organization for Economic Co-operation and Development,” Agric. Outlook, 2015.

A. W, Dinamika pengembangan industri bioetanol di Indonesia. Teknologi Proses, 2014.

E. M. G. E, “Prospect of bioethanol fuels E30 and E85 application in Rusia and technical requirements for their quality,” Renew. Sustain. Energi Riviews, vol. 66, pp. 228–232, 2016.

C. J. ODZIEMKOWSKA M, MATUSZEWSKA A, “Diesel oil with bioethanol as a fuel for compressionignition engines,” Appl. Energy, 2016.

B. H. BALAT M, “Recent trends in global productions and utilization of bioethanol fuel,” Appl. Energy, vol. 86, pp. 2273–82, 2009.

F. J. LAPUERTA M, “Molecular interaction in blends of alcohol with diesel fuels : Effect on stability and distillation,” Fuel, pp. 167–172, 2015.

R. TAKAESHITA EV, “Influence of solvent addition on the physyco-chemical properties of Brazilian gasoline,” vol. 87, pp. 2168–77, 2008.

S. K. KARTHIKEYAN B, “Performance characteristic of a glow pug assisted low heat diesel engine using ethanol.,” Appl. Energygy, vol. 88, no. 323–329, 2011.

K. A. ASLAN R, ALTIMIS K, “The pollutant emissions from diesel engine vehicles and exhaust after treatment system.,” Clean technol Env., vol. 17, pp. 15–27, 2015.

H. Z. ZHU L, CHEUNG Z, “Combustion performance and emissions characteristic of a diesel engine fueled with ethanol-biodiesel blend.,” Fuel Charact., vol. 90, p. 174350, 2011.

S. J. KASS MD, THOMAS JF, “Emissions from a 5.9 L diesel engine fueled with ethanol diesel blend,” Tech. Pap., vol. 1, 2001.

P. R. McCORMICK RL, “Advance petroleum base fuel program and removable diesel program,” in NERL/MP 540, 2001.

R.-V. DKK, “A predicting cetan number, kinematic viscosity, density and higher heating value of biodiesel from its fatty acid methyl ester composition,” Fuel, p. .102-111, 2012.