Experimental Investigation of the Compression Ignition Process of High Reactivity Gasoline Fuels and E10 Certification Gasoline using a High-Pressure Direct Injection Gasoline Injector
Gasoline compression ignition (GCI) technology shows potential to obtain high thermal efficiencies while maintaining relatively low soot and NOx emissions in light-duty engine applications. Recent experimental studies and numerical simulations have indicated that high reactivity gasoline-like fuels can further enable the benefits of GCI combustion. However, there is limited combustion data in the literature studying the gasoline compression ignition process at relevant in-cylinder conditions which are required for further optimizing combustion system designs. This study investigates the temporal and spatial evolution of the compression ignition process of various high reactivity gasolines with research octane numbers (RON) of 71, 74 and 82, as well as conventional RON 97 E10 gasoline fuel. Combustion visualizations were conducted in an optically accessible constant volume combustion chamber.