The requirements for improving the efficiency of internal combustion engines and reducing emissions have promoted the development of new combustion technologies under extreme operating conditions (e.g., lean combustion), and the ignition and combustion characteristics of fuels are increasingly becoming important. A chemical kinetic reduced mechanism consisting of 115 species and 414 elementary reactions is developed for the prediction of ignition and combustion behaviors of gasoline surrogate fuels composed of five components, namely, isooctane, n-heptane, toluene, diisobutylene, and cyclohexane (CHX). The CHX sub-mechanism is obtained by simplifying the JetSurF2.0 mechanism using direct relationship graph error propagating, rate of product...
The biodiesel surrogate fuels are realistic kinetic tools to study the combustion of actual biodiese...
As a gasoline surrogate fuel, the physical and chemical properties of toluene reference fuel (TRF) a...
Nowadays, the leading driver for the development of internal combustion engines is the search for in...
The numerical study of engine combustion requires the coupling of advanced computational fluid dynam...
A kinetic mechanism for a multicomponent gasoline surrogate consisting of isooctane, n-heptane, tolu...
Internal combustion engines that rely heavily on fuel oxidation chemical kinetics, rather than exter...
AbstractSince real petroleum fuels are composed of a huge variety of hydrocarbon components, surroga...
A semi-detailed chemical mechanism for combustion of gasoline-ethanol blends, which is based on sub-...
A semi-detailed chemical mechanism for combustion of gasoline-ethanol blends, which is based on sub-...
The prospect of blending gasoline fuel with ethanol is being investigated as a potential way to impr...
Real fuels are complex mixtures of thousands of hydrocarbon compounds including linear and branched ...
The importance of adding a naphthene in the form of cyclohexane in surrogate mixtures to emulate hom...
The detailed chemical kinetics of ethanol was reduced by means of path analysis and sensitivity anal...
Accurate chemical kinetic combustion models of lightly branched alkanes (e.g., 2-methylalkanes) are ...
Understanding the autoignition characteristics of gasoline is essential for the development and desi...
The biodiesel surrogate fuels are realistic kinetic tools to study the combustion of actual biodiese...
As a gasoline surrogate fuel, the physical and chemical properties of toluene reference fuel (TRF) a...
Nowadays, the leading driver for the development of internal combustion engines is the search for in...
The numerical study of engine combustion requires the coupling of advanced computational fluid dynam...
A kinetic mechanism for a multicomponent gasoline surrogate consisting of isooctane, n-heptane, tolu...
Internal combustion engines that rely heavily on fuel oxidation chemical kinetics, rather than exter...
AbstractSince real petroleum fuels are composed of a huge variety of hydrocarbon components, surroga...
A semi-detailed chemical mechanism for combustion of gasoline-ethanol blends, which is based on sub-...
A semi-detailed chemical mechanism for combustion of gasoline-ethanol blends, which is based on sub-...
The prospect of blending gasoline fuel with ethanol is being investigated as a potential way to impr...
Real fuels are complex mixtures of thousands of hydrocarbon compounds including linear and branched ...
The importance of adding a naphthene in the form of cyclohexane in surrogate mixtures to emulate hom...
The detailed chemical kinetics of ethanol was reduced by means of path analysis and sensitivity anal...
Accurate chemical kinetic combustion models of lightly branched alkanes (e.g., 2-methylalkanes) are ...
Understanding the autoignition characteristics of gasoline is essential for the development and desi...
The biodiesel surrogate fuels are realistic kinetic tools to study the combustion of actual biodiese...
As a gasoline surrogate fuel, the physical and chemical properties of toluene reference fuel (TRF) a...
Nowadays, the leading driver for the development of internal combustion engines is the search for in...