Add to ORKGThe primary reference fuels n-heptane and iso-octane and their mixtures are used as a measure of the tendency of a given automotive fuel to cause knocking or pre-ignition in an internal combustion engine. Consequently, many experimental studies have been performed on these hydrocarbons in an attempt to better understand their oxidation. Shock tube studies at high temperature and pressure have been performed. Low temperature studies, in which species concentration profiles of primary, intermediate and final products, have been carried out using jet stirred flow reactors. In addition, experiments have been performed in CFR engines and fundamental features of n-heptane autoignition have been observed using a rapid compression machine. A detail...
A detailed chemical model, describing the combustion of n-heptane in a low-pressure batch reactor, h...
This paper presents a numerical analysis of the ignition process of an n-heptane spray in a compress...
Journal articleThis work presents an updated experimental and kinetic modeling study of n-heptane ox...
A detailed chemical kinetic mechanism has been developed and used to study the oxidation of iso-octa...
A detailed chemical kinetic reaction mechanism is used to study the oxidation of n-heptane under sev...
The low-temperature oxidation of higher molecular mass hydrocarbons and its relationship with the au...
This paper presents a semi-detailed kinetic scheme for n-heptane oxidation. Both the low and high te...
The aim of this work is to generate a detailed mechanism for the oxidation of a mixture of n-heptane...
Automotive engine knock limits the maximum operating compression ratio and ultimate thermodynamic ef...
This paper presents computations based on a semidetailed kinetic scheme for reference fuel (n-heptan...
Both spark-ignition and compression-ignition engines burn large molecular-weight blended fuels, a cl...
© 2018 Dr Zhewen LuThis work builds a new flow reactor and investigates the oxidation chemistry of e...
Combustion processes of n-heptane and isooctane have been studied in a Jet Stirred Flow Reactor (JSF...
Ignition delay times for n-hexane oxidation have been measured in a rapid compression machine (RCM) ...
Previously we have reported on the combustion behaviour of all nine isomers of heptane in a rapid co...
A detailed chemical model, describing the combustion of n-heptane in a low-pressure batch reactor, h...
This paper presents a numerical analysis of the ignition process of an n-heptane spray in a compress...
Journal articleThis work presents an updated experimental and kinetic modeling study of n-heptane ox...
A detailed chemical kinetic mechanism has been developed and used to study the oxidation of iso-octa...
A detailed chemical kinetic reaction mechanism is used to study the oxidation of n-heptane under sev...
The low-temperature oxidation of higher molecular mass hydrocarbons and its relationship with the au...
This paper presents a semi-detailed kinetic scheme for n-heptane oxidation. Both the low and high te...
The aim of this work is to generate a detailed mechanism for the oxidation of a mixture of n-heptane...
Automotive engine knock limits the maximum operating compression ratio and ultimate thermodynamic ef...
This paper presents computations based on a semidetailed kinetic scheme for reference fuel (n-heptan...
Both spark-ignition and compression-ignition engines burn large molecular-weight blended fuels, a cl...
© 2018 Dr Zhewen LuThis work builds a new flow reactor and investigates the oxidation chemistry of e...
Combustion processes of n-heptane and isooctane have been studied in a Jet Stirred Flow Reactor (JSF...
Ignition delay times for n-hexane oxidation have been measured in a rapid compression machine (RCM) ...
Previously we have reported on the combustion behaviour of all nine isomers of heptane in a rapid co...
A detailed chemical model, describing the combustion of n-heptane in a low-pressure batch reactor, h...
This paper presents a numerical analysis of the ignition process of an n-heptane spray in a compress...
Journal articleThis work presents an updated experimental and kinetic modeling study of n-heptane ox...