Study of The Composition, Fuel Parameter, and Triangular Graph of A Gasoline and Aqueous Ethanol Fuel Blend in a Single Phase

Hanny F Sangian,Guntur Pasau,Tun Sriana,Handy I R Mosey,Arief Widjaja,Ramli Thahir,Seni H Tongkukut,Fingken Sagai,Ronny Purwadi,Anita R Ibrahim,Joshua R Rombang,Vecky A J Masinambow,Adey Tanauma,Abubakar Tuhuloula,Bayu Achil Sadjab,Godlief F Neonufa,Zami Furqon,Johnly A Rorong,Silvya Y Agnesty

doi:10.37358/rc.20.8.8286

Abstract

This study investigates the composition and fuel parameters of a fuel blend of aqueous ethanol and gasoline, with RONs (Research Octane Numbers) of 90 and 92, called pertalite and pertamax in Indonesia, respectively. The emulsion fuel blend of gasoline and ethanol was prepared successfully, and the concentrations ranged from 80 to 98% (v/v). The steps employed in this work are as follows: first, the fermentation of sugar tapped from a palm tree (Arenga pinnata). The obtained liquor containing ethanol was distilled using a reflux still to separate ethanol and water. The purity of the ethanol obtained from the reflux process ranged from 80 to 96%, depending on the column temperature set. Ethanol solutions of 97 and 98% purities were obtained through an absorption method employing lime particles. Subsequently, aqueous ethanol was blended with gasoline manually inside a flask. It was discovered that the minimum ethanol concentration, which could be blended with pertalite to form a single-phase substance, was 80%. By using 80% ethanol in the blending process, the composition ratio of pertalite, pure ethanol, and water was recorded as 1:11.65:2.91 (in volume unit), while this was not the case with pertamax. The minimum ethanol concentration that could be blended with pertamax to form a single-phase emulsion was 88%, with a composition ratio of 1:5.91:0.81. The composition proportions of the three components with 96% ethanol were 1:0.27:0.01 (RON 90) and 1:0.41:0.02 (RON 92). It was observed that the higher the ethanol concentration, the less the amount of ethanol required for the blending process with gasoline to form a single-phase emulsion.

Highlights

Scientists are devoting intensive effort to the conversion of renewable resources, including lignocellulose into valuable materials, such as ethanol [1,2], sugar [3,4,5], gas [6] and hydrogen [7]
Compositions of the gasoline (RON 90/92)-pure ethanol-water The prepared fuel blends can serve as substitutes for fossil fuel, which is still the primary energy source for cars and industrial engines
The present work relates to the compositions of the gasoline (RON 90)pure ethanol-water and gasoline (RON 92)-pure ethanol-water fuel blends

Summary

Introduction

Scientists are devoting intensive effort to the conversion of renewable resources, including lignocellulose (biomass) into valuable materials, such as ethanol [1,2], sugar [3,4,5], gas [6] and hydrogen [7]. The biofuels derived from these materials, which provide renewable energy, have been investigated to overcome the issue of decreasing reserves of fossil-based fuels [8,9,10,11]. Emulsion fuel was invented some years ago and has since been applied in heat machines. It has not been utilized globally because it is expensive. The most challenging aspect of developing an emulsion fuel is the global unavailability of raw materials for ethanol production

Methods

Results

Conclusion