Methyl and ethyl esters, prepared from various vegetable oils by the process of transesterification, have shown
much promise as fuels for all types of diesel engines. Very limited information is available on possible deterioration of
biodiesel in storage. This project was designed to determine the extent of deterioration of Rape Methyl Ester (RME) and
Rape Ethyl Ester (REE) in storage. The study involved triplicate samples of RME and REE stored in glass and steel
containers at room temperature (inside) and at the local ambient outdoor temperatures (outside). The study was
conducted for 24 months. At the beginning of the study and at three-month intervals, samples were taken for measurement
of peroxide value, acid value, density, viscosity, and heat of combustion. At the conclusion of the study, engine
performance tests were conducted with the two year stored REE and RME, new REE and RME, and low sulfur diesel
reference fuel. On the average, the esters increased over time in all of the previously mentioned properties with the
exception of heat of combustion, which decreased. Regression models are presented to predict the deterioration with time.
Engine power varied less than 2% for both Biodiesel fuels compared to the stored counterparts while smoke density
decreased 3.2% for the stored RME and increased 17.5% for stored REE.
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