LAUSR

Nowadays, increasing energy demand and environmental and air pollution issues have spread the use of alternative fuels such as biodiesel in diesel engines. While the advantages of biodiesel that are comparable to petroleum-based diesel fuels and low unburned HC, carbon monoxide and smoke (soot) emissions make the use of this fuel environmentally significant; high NOx emissions are still a problem to be solved. The formation of decreased smoke reducing radiative heat transfer from combustion chamber in biodiesel engines and increase in formation of NOx due to rise in flame temperature are among the reasons reported for high NOx in the literature. In this study, in a diesel engine using biodiesel, soot emissions produced by petroleum diesel fuel were reduced to biodiesel level by using metallic additive (Ba), and NOx emissions were compared. When the amount of Ba in the fuel was increased, there was a significant decrease in the smoke emissions, but in this case, NOx emissions decreased slightly, while they were expected to increase. When NOx emissions of diesel and biodiesel were compared for the same or similar smoke emissions, it was seen that high NOx emissions were achieved with biodiesel. As a result, although Ba additive reduced smoke emissions, it was seen that its effect on NOx formation was not very clear.