In this study, biodiesel was produced by turning the raw oil, obtained from safflower seed, into Safflower Oil Methyl Ester by means of transesterification method. Mixing the biodiesel fuel, which was obtained from the safflower, with diesel fuel by adding bioethanol at the rate of 2.5% and 5% and volumetrically in inverse proportion, test fuels were acquired in the form of M100, E2.5B2.5M95, E5B5M90, E5B2.5M92.5 and E2.5B5M92.5. The tests of the diesel fuel and the obtained mixture fuel were carried out related to the fuel features; kinematic viscosity, density, water content, pH level, determination of color, calorific value, flash point, clouding, pour and freezing point, copper bar corrosion test, iodine number, cold filter plugging point and cetane number. Also, the obtained mixture were tried and examined on a four-cycle, single cylinder and on water cooled diesel engine with direct injection fuel system. The engine ran for 100 hours under partial load and the samples were taken from the engine oil at specific times and wear elements were searched. As a result of the analysis of the samples taken from engine lubricating oil, it was observed that as the engine run time increased, the wear elements in the samples increased, too. As a result of ICP oil analysis, the amount of wear elements such as iron, copper, aluminum, lead and chromium in engine lubricating oil were stated diagrammatically. It was determined that the use of E2.5B5M92.5 produced better results than the other types of fuels in terms of wear elements.
Journal Section | Article |
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Authors | |
Publication Date | November 28, 2017 |
Submission Date | July 20, 2017 |
Published in Issue | Year 2017 Volume: 6 Issue: 3 |