Diesel-Ignited Propane Dual Fuel Low Temperature Combustion in a Heavy-Duty Diesel Engine

Abstract: This paper presents an experimental analysis of diesel-ignited propane dual fuel low temperature combustion (LTC) based on performance, emissions, and in-cylinder combustion data from a modern, heavy-duty diesel engine. The engine used for these experiments was a 12.9-liter, six-cylinder, direct injection heavy-duty diesel engine with electronic unit diesel injection pumps, a variable geometry turbocharger, and cooled exhaust gas recirculation (EGR). The experiments were performed with gaseous propane (the pri… Show more

“…By this way, rich fuel area decreases and initial soot formation is prevented. 42 Since natural gas does not contain C-C bond, aromatics, and sulfur, it is not capable of producing soot emission. Combustion of homogenous natural gas air mixture fastens soot oxidation formed from combustion of pilot diesel, hence PM emission reduces.…”

Effect of the use of natural gas–diesel fuel mixture on performance, emissions, and combustion characteristics of a compression ignition engine

“…By this way, rich fuel area decreases and initial soot formation is prevented. 42 Since natural gas does not contain C-C bond, aromatics, and sulfur, it is not capable of producing soot emission. Combustion of homogenous natural gas air mixture fastens soot oxidation formed from combustion of pilot diesel, hence PM emission reduces.…”

Effect of the use of natural gas–diesel fuel mixture on performance, emissions, and combustion characteristics of a compression ignition engine