Performance Evaluation of Common Rail Direct Injection Engine Run on Biodiesel of Used Temple Oil Using Response Surface Methodology

Diesel engines produce more smoke and nitrogen oxide (NOx) emissions. Hence, one has to develop a new technique that reduces these emissions besides works satisfactorily with alternative fuels in place of diesel. In this work, used temple oil biodiesel (BTO) is a candidate to replace diesel to run diesel engine. Also, common rail direction injection (CRDi) is a technique that injects fuel at a higher pressure than conventional injectors of diesel engines that produce fine fuel droplets suitable for highly viscous biodiesel. This work also uses the design of experiments (DOE) and response surface methodology (RSM) modeling approach to evaluate the performance of CRDi engine with three operating parameters namely injection timing (IT), injection pressure (IP), and exhaust gas recirculation (EGR). From the study, it could be concluded that CRDi engine showed better performance at IT of 9 degrees bTDC, IP of 855 bar with EGR of 20% but with little reduction in thermal efficiency. The study has reported good agreement between predicted values and experimental results.