This paper outlines the development of a comprehensive numerical framework for the partially stratified charge (PSC) lean-burn natural gas engine. A 3D model of the engine was implemented to represent fluid motion and combustion. The spark ignition model was based on the works of Herweg and Maly (1992, “A Fundamental Model for Flame Kernel Formation in SI Engines,” SAE Technical Publication, Paper No. 922243) and Tan and Reitz (2006, “An Ignition and Combustion Model Based on the Level-Set Method for Spark Ignition Engine Multidimensional Modeling,” Combust. Flame, 145, pp. 1–15). The EDC model (Ertesvåg and Magnussen, 2000, “The Eddy Dissipation Turbulence Energy Cascade Model,” Combust. Sci. Technol., 159, pp. 213–235) with a two-...
This paper discusses a partially stratified technology for engines running lean on natural gas. A s...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
Compressed natural gas (CNG) has great potential as an alternative fuel for vehicle engines, and can...
This paper outlines the development of a comprehensive numerical framework for the partially strati...
The Partially Stratified Charge Spark Ignition (PSC-SI) combustion strategy is envisaged as a way of...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
The Partially Stratified-Charge (PSC) concept is a novel way to improve the combustion characterist...
The Partially Stratified Charge (PSC) strategy aims to stabilize the spark ignition of lean-burn natu...
The challenge of reducing tailpipe emissions, while retaining performance, continues to motivate ne...
Current stoichiometric spark-ignited engine technologies require costly catalytic converters for red...
Presently, most of the world's energy is produced by combustion. Combustion related emissions, such ...
The use of ultra-lean mixture natural gas fueled Internal Combustion Engines has been widely accepte...
AbstractThe Partially Stratified Charge Spark Ignition (PSC-SI) combustion strategy is envisaged as ...
This paper discusses a partially stratified technology for engines running lean on natural gas. A s...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
Compressed natural gas (CNG) has great potential as an alternative fuel for vehicle engines, and can...
This paper outlines the development of a comprehensive numerical framework for the partially strati...
The Partially Stratified Charge Spark Ignition (PSC-SI) combustion strategy is envisaged as a way of...
Developers and manufacturers of gasoline engines are struggling to improve fuel economy and minimize...
The Partially Stratified-Charge (PSC) concept is a novel way to improve the combustion characterist...
The Partially Stratified Charge (PSC) strategy aims to stabilize the spark ignition of lean-burn natu...
The challenge of reducing tailpipe emissions, while retaining performance, continues to motivate ne...
Current stoichiometric spark-ignited engine technologies require costly catalytic converters for red...
Presently, most of the world's energy is produced by combustion. Combustion related emissions, such ...
The use of ultra-lean mixture natural gas fueled Internal Combustion Engines has been widely accepte...
AbstractThe Partially Stratified Charge Spark Ignition (PSC-SI) combustion strategy is envisaged as ...
This paper discusses a partially stratified technology for engines running lean on natural gas. A s...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
Compressed natural gas (CNG) has great potential as an alternative fuel for vehicle engines, and can...