The use of biodiesel in blended mode is holding a more significant potential in making diesel engines environment-friendly. Published work specifies an optimum blend of biodiesel with diesel oil as B20. Further, the literature indicates that preheating biodiesel in the temperature range between 60°C to 120°C helps to increase the blend percentage up to 50%.In this experiment an effort has been made to use 100% Waste cooking oil methyl ester (WCME) biodieselby employing two stage heating in the temperature range from 100°C to 250°C. In the first stage the heater is immersed in fuel tank that heats biodiesel up to 70oC that lowers the viscosity and eases pumping. In the second syage, an electric preheater is installed along the high-pressure fuel line for achieving higher temperatures. The performance and emission results are encouraging and indicates that Brake Specific Fuel Consumption decreases by 5.4%, Brake Thermal Efficiency increases by 6.15%, Carbon Monoxide (CO) and unburnt hydrocarbon (HC) emissions fall by 38% and 25.5%, respectively. NOx has increased marginally by 4-6%.
Heating diesel fuel before injecting into the engine cylinder is the technique employed in this experiment with the primary objective of improving combustion and decreasing emission. This results in gasification of diesel when injected into the engine cylinder leading to better mixing, evaporation and combustion of diesel fuel. This also results in decrease of physical delay period. Experiments are done at standard injection timing with preheating done in the interval of 100°C, 175°C and 250°C. At each temperature, readings are taken at no load, 25%, 50% and 75% of full load. It is observed that preheating results in decreased emission of CO and HC at all the loads. At 50% and 75% load CO and HC decreased by about 35% and 50% respectively. NOx is also increased showing that combustion of diesel fuel is improved. Maximum brake thermal efficiency (BTE) and minimum brake specific fuel consumption (BSFC) is obtained at preheating temperature of 100°C at 75% load condition. With increase in load condition, performance is found to be better at higher preheating temperature. With increase in preheating temperature, performance and emission is better and efficient. Performance improvement is better at 50% load than at no load and 25% load.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.