On the Design and Optimization of a Clean and Efficient Combustion Mode for Internal Combustion Engines through a Computer NSGA-II Algorithm

Abstract: In order to address typical problems due to the huge demand of oil for consumption in traditional internal combustion engines, a new more efficient combustion mode is proposed and studied in the framework of Computational Fluid Dynamics (CFD). Moreover, a Non-dominated Sorting Genetic Algorithm (NSGA-II) is applied to optimize the related parameters, namely, the engine methanol ratio, the fuel injection time, the initial temperature, the Exhaust Gas Re-Circulation (EGR) rate, and the initial pressure. The so-c… Show more

“…The internal heat transfer coefficient of the piston was affected by the temperature at the top of the piston and the airflow movement of the crankcase [9], which was generally expressed by Eq. ( 3)…”

A Study on the Relationship between Anodic Oxidation and the Thermal Load on the Aluminum Alloy Piston of a Gasoline Engine

“…The internal heat transfer coefficient of the piston was affected by the temperature at the top of the piston and the airflow movement of the crankcase [9], which was generally expressed by Eq. ( 3)…”

A Study on the Relationship between Anodic Oxidation and the Thermal Load on the Aluminum Alloy Piston of a Gasoline Engine