Assessment of the Effects of Intake Temperature and Injector Structure on the Combustion Characteristics of Direct‐Injection Spark‐Ignition Methanol Engines

Abstract: In this article, to address the issues of slower droplet evaporation and fuel mixing inhomogeneity caused by the high latent heat of vaporization of methanol, the effects of the number of nozzle holes and spray cone angle (θsca) on the combustion characteristics of a direct‐injection spark‐ignition methanol engine are numerically investigated at different intake temperatures (Tint) under constant injection pressures. In the results, it is indicated that the maximum‐indicated thermal efficiency (ITE) is 48.01% … Show more