TY - JOUR ID - 73205 TI - Effects of Triple Injection Strategies on Performance and Pollutant Emissions of a DI Diesel Engine Using CFD Simulation JO - International Journal of Engineering JA - IJE LA - en SN - 1025-2495 AU - Hassanzadeh Saraei, S. AU - Jafarmadar, S. AU - Khalilarya, S. AU - Taghavifar, H. AD - Department of Mechanical Engineering, Urmia University, Urmia, Iran Y1 - 2018 PY - 2018 VL - 31 IS - 6 SP - 973 EP - 979 KW - Diesel engine KW - Triple Injection KW - emissions KW - performance DO - 10.5829/ije.2018.31.06c.15 N2 - One of the main controlling parameters in diesel engine combustion is the fuel – air mixing process that has direct effects on engine performance and pollutant emissions, reviewing over previous literature showed that split injection strategies could satisfy this purpose very well. For the first time and in this paper, pilot and double injection strategies were combined and formed new triple injection strategy that has not been considered by any other researchers. In this study after achieving successful validation between modeling and experimental results for both single and double injection strategies, optimization of triple injection strategy was conducted, in which first pulse of double injection strategy divided in to two pulses, then amount of injected fuel in each pulse kept constant and different delay times between first and second pulse of injections were investigated. For better understanding the processes the injections were done inside the engine, diagrams of heat release rate, in cylinder temperature, in cylinder pressure, NOx and soot emissions were presented. Results showed that decreasing the delay time between second and third pulse of injections could decrease the ratio of premixed combustion of third pulse and in optimum cases, reduction in both NOx and soot emissions could be achieved in comparition with single and double injection strategies, without any significant effects on engine performance. Furthermore, triple injection strategy with second pulse of injection that started at 4 crank angle before top dead center was selected to be the optimum case in reduction of both emissions. UR - https://www.ije.ir/article_73205.html L1 - https://www.ije.ir/article_73205_ad6954a77200abf70a4e5b1371fe401c.pdf ER -