The impact of Miller cycle in combination to exhaust gas recirculation and post-injection on controlling diesel engine NOx

Abstract

ABSTRACT To meet the requirements of increasing stringent emission regulations, innovative solutions are adopted to reduce NOx emissions from diesel engines. In this study, the GT-Power software was utilized to investigate NOx control possibility of Miller cycle in combination with exhaust gas recirculation (EGR) and post-injection in a diesel engine. The results indicate early intake valve closing reduced compression work, resulting in a power increase of 0.3 kW. Furthermore, the cooling effect of Miller cycle lowered maximum temperature by 24.5 K and NOx emissions by 17.4%. Miller cycle and EGR combination was able to lower NOx emissions by 83.7%, although it resulted in higher Soot emissions. Adding post-injection help to mitigate this issue, lowering NOx emissions by over 20% and Soot emissions by 5.8%. Finally, the combination of MD75 + 12% EGR +2.5 mg post-injection mass at 34°CA ATDC achieved a 76.1% reduction in NOx emissions with only a 2.6% impact on brake power using modeFRONTIER for multi-objective optimization.