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Öğe Performance and emission analysis of cottonseed oil methyl ester in a diesel engine(Elsevier, 2010-03) Aydın, Hüseyin; Bayındır, HasanIn this study, performance and emissions of cottonseed oil methyl ester in a diesel engine was experimentally investigated. For the study, cottonseed oil methyl ester (CSOME) was added to diesel fuel, numbered D2, by volume of 5%(B5), 20%(B20), 50%(B50) and 75%(B75) as well as pure CSOME (B100). Fuels were tested in a single cylinder, direct injection, air cooled diesel engine. The effects of CSOME-diesel blends on engine performance and exhaust emissions were examined at various engine speeds and full loaded engine. The effect of B5, B20, B50, B75, B100 and D2 on the engine power, engine torque, bsfc's and exhaust gasses temperature were clarified by the performance tests. The influences of blends on CO, NOx, SO2 and smoke opacity were investigated by emission tests. The experimental results showed that the use of the lower blends (B5) slightly increases the engine torque at medium and higher speeds in compression ignition engines. However, there were no significant differences in performance values of B5, B20 and diesel fuel. Also with the increase of the biodiesel in blends, the exhaust emissions were reduced. The experimental results showed that the lower contents of CSOME in the blends can partially be substituted for the diesel fuel without any modifications in diesel engines.Öğe Emissions from an engine fueled with biodiesel-kerosene blends(Taylor & Francis, 2011-01) Aydın, Hüseyin; Bayındır, Hasan; İlkılıç, CumaliBiofuels are renewable energy sources for internal combustion engines and they have low emissions. They are increasingly used as an alternative to petroleum fuels. In this work, three different fuel types, such as commercial diesel fuel (D2), 20% biodiesel and 80% diesel fuel called here as B20, and 80% biodiesel and 20% kerosene, called here as BK20, were used in a single cylinder, four stroke, direct injection compression ignition engine. Kerosene was used as an additive to approach the properties of biodiesel to D2. The effects of the blends on CO, NOx, and smoke emissions as well as on some of the performance parameter of the engine were investigated. The prepared fuel, BK20 blend, has almost the same fuel properties as conventional diesel fuel. The experimental results showed that the exhaust emissions for BK20 were fairly reduced as compared to diesel fuel as well as B20. Besides, the performance of CI engine was improved with the use of the BK20, especially in comparison to B20. Results suggest that the BK20 can be substituted to the petroleum-based diesel fuel in diesel engines.Öğe An experimental study on the exhaust emissions of a partially loaded compressed ignition engine fueled with biodiesel derived from cottonseed oil(Taylor & Francis, 2010-01) Aydın, Hüseyin; Bayındır, HasanThe world energy demand is increasing rapidly due to the excessive use of the fuels but because of limited reserves, the researchers are now looking for alternative fuels. Another serious problem associated with the use of petroleum fuel is the increase in pollutants emissions. In this study, cottonseed oil methyl ester was added to diesel fuel by volume of 5% (B5), 20% (B20), and 50% (B50). Blends were used in a single cylinder, direct injection, air-cooled diesel engine at partial and full load condition. In experiments, the effects of cottonseed oil methyl ester ester-diesel fuel blend on the engine fuel consumption and exhaust emissions were investigated at 2,000 rpm of engine speed that most engines run on. At the tests, the effect of blends on fuel consumption, exhaust gases temperature, CO, NOx, SO2, and smoke opacity was clarified. The experimental results showed that cottonseed oil methyl ester can be substituted for the diesel fuel without any modifications in diesel engines.
