Abstract:
this paper examines the combined e ects of ignition improvers (DMC) and EGR on the CRDI small single-cylinder diesel
engine’s performance, combustion, and emissions. In this experimentation, 20% (B20) optimal mix of Prosopis juli ora oil
biodiesel (PJOB) and 5 ml dimethyl carbonate (DMC) additive was used as test fuel. e fuel handling CRDI system factors such as
injection pressure set at 600 bar and injection timing set to 21 (bTDC) with a compression ratio of 16 were considered for the
study. For the EGR trial, 20% of the exhaust gas was recirculated under various BMEP circumstances. e test was performed with
and without EGR and DMC additive conditions like (i) diesel @ 0% EGR, (ii) diesel + 5 ml DMC @ 20% EGR, (iii) B20 @ 0% EGR,
and (iv) B20 + 5 ml DMC @ 20% EGR at the engine power output. e amalgamation of dimethyl carbonate (DMC) additives and
EGR reduces NOx and smoke while increasing CO and HC emissions. In addition, the DMC additive and EGR improve thermal
e ciency slightly. e overall clubbing of DMC additive and EGR rate indicates better performance for the selected factors than a
CRDI engine with a six-hole conventional mechanical fuel injection system. e outcome of the work clearly demonstrates that
both the 5 ml DMC additive and the 20% EGR rate of the B20 blend show optimum values of BTE, BSFC, and EGT of 32.93%,
0.27 kg/kw·hr, and 310.89°C, which is closer to diesel. Factors of combustion like cylinder peak pressure (CPP) and heat release
rate (HRR) are 70.93 bar and 58.13 J/deg. e tailpipe exhaust of NOx and smoke is 1681 ppm and 31.30 (% vol), which is less than
diesel. e HC and CO levels are 93 ppm and 0.38 (% vol), respectively, which are signi¤cantly higher than diesel fuel.
