Combustion characteristics and engine performance of 2-methylfuran compared to gasoline and ethanol in a direct injection spark ignition engine

Abstract

2-Methylfuran (MF) is considered as a promising second-generation biofuel for spark ignition engines. MF has better anti-knock ability, and the lower heating value of MF is close to that of conventional fuels. The production methods of MF have been largely improved over the last decade. However, the studies of MF on direct injection spark ignition (DISI) engines are quite limited, and little is known about the effects of engine control parameters on MF combustion at typical DISI engine operating conditions. In the present work, the effects of engine control parameters including spark timing, air–fuel ratio, injection timing, and injection pressure on combustion and engine performances of MF were studied at typical medium load and high load conditions on a single-cylinder spray-guided DISI engine, compared to gasoline and ethanol. The results show that the achievable spark timing range considering combustion phasing and knock limit for MF is larger than that of gasoline especially at high load. MF has more robustness to lean burn than gasoline and ethanol. The combustion characteristics and heat release of MF have low sensibility to the variation of injection timings. To achieve the same engine load MF requires up to 25% longer injection durations than gasoline, however, increased injection pressure can mitigate the injection duration differences between MF and gasoline.