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India possesses only 0.3% of world petroleum reserves and hence heavily dependent upon petroleum derived fuels to feed its rapidly growing economy. Diesel Engines due to their superior performance have wide application in India, however, they also pollute environment significantly. Research is underway in India and elsewhere to explore the potential of variety of alternative fuels which could substitute diesel in a holistic manner. And in this context, non-edible vegetable oils are very promising as India has a large area of degraded land where such crops could be raised without compromising food security. Large number of studies have suggested that vegetable oils are not suitable in neat form as a fuel in diesel engine and should be trans-esterified using either methanol or ethanol to form esters to bring their properties similar to diesel fuel.

Biodiesel in has gained great momentum in last few years and has been a subject of vast research all around the globe. Bulk of the research work carried out so far has been confined to production of methyl esters of vegetable oil that is known as biodiesel in the transesterification process. In the present study, jatropha oil ethyl ester (JOEE) was prepared using transesterification process with ethanol and KOH as a catalyst. The evaluation of important physico-chemical properties was carried and the properties were found within acceptable limits of ASTM/EN standards. A small capacity diesel engine was fuelled with different blends of JOEE and diesel and various performances, emission and combustion characteristics were evaluated. The results suggested that brake thermal efficiency was increased and emissions of carbon monoxide, hydrocarbons and smoke opacity were found lower for JOEE blend confirming better combustion due to the oxygenated fuel and higher cetane rating.