Parametric investigation of low pressure dual-fuel direct injection on the combustion performance and emissions characteristics in a RCCI engine fueled with diesel and CH₄

Dual-fuel direct injection is one of the most promising ways to control mixing process in a dual-fuel engine. A low pressure dual-fuel direct injection (LPDDI) concept inspired by air-assisted direct injection (AADI) technology is presented in this paper and an experiment has been conducted to evaluate the potential of the LPDDI applied in a diesel/CH₄ dual-fuel engine. The effects of diesel injection timings and CH₄ injection timings on the combustion performance and emissions characteristics were investigated under a constant engine speed of 2000 rpm in a single cylinder research engine. Under the varying operation condition of diesel and CH₄ injection timings, the cylinder pressure, Heat Release Rate (HRR), Peak Pressure Rise Rate (PPRR), CA10, CA50, combustion duration, coefficient of variation of indicated mean effective pressure (CoV_imep), as well as regular emissions (THC, CO and NO_x) are analyzed. The results indicated that the diesel and CH₄ injection timings have significantly influence on the combustion process. An optimized combustion performance obtained at the earliest diesel injection timing of −250 °CA ATDC and the latest CH₄ injection timing of −112 °CA ATDC in this work. Furthermore, the results also proved that the LPDDI can be successfully applied in diesel/CH₄ dual-fuel engine and a RCCI combustion mode can be achieved.