This paper discusses the effect of ignition delay time in diesel engines on the formation of particulate matter, using fuel\r\nformulations with different sulfur concentrations from various sources. Our findings indicate that the cetane number has a\r\nsignificant influence on particulate matter emissions, especially in engines with mechanical fuel injection. The maximum pressure\r\nin the combustion chamber increases as the cetane number increases, favoring the increase in the cracking reactions of high\r\nmolecular weight fractions remaining in the liquid state and thus increasing the production of particulate matter. In certain\r\nconditions, this increase in pressure has a beneficial effect on the thermal efficiency of the cycle. Higher temperatures in the\r\ncombustion chamber augment the speed of oxidation, reducing unburned hydrocarbon emissions. The ignition delay time of fuel\r\nhas a strong effect on the formation of particulate matter and on the emission of unburned hydrocarbons.
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