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For n-butylcyclohexane and
its related fuel compounds, the current validation tests include
Cyclohexane-,
methylcyclohexane- and n-butylcyclohexane-air mixtures,
p = 1 atm, Tu = 353 K.
Egolfopoulos
(2009)
Cyclohexane-air
mixtures, p = 1 atm, Tu = 298 K.
Davis
& Law (1998).
n-Propylcyclohexane-air
mixtures, p = 1 atm, Tu = 403 K.
Dubois et al. (2008).
- Ignition delay times behind reflected shock
waves
n-Butylcyclohexane-oxygen-argon, p5 = 1.5 & 3 atm.
Davidson
& Hanson (2009).
Cyclohexane-oxygen-argon
mixtures, p5 = 1.5 & 3 atm.
Davidson & Hanson (2009).
Cyclohexane-oxygen-nitrogen
mixtures, p5 = 15 &
50 atm.
Daley et al. (2008).
Cyclohexane-oxygen-nitrogen
mixtures, p5 = 8 atm.
Sirjean et al. (2007).
Methylcyclohexane-oxygen-argon
mixtures, p5 = 1.5 & 3 atm.
Davidson & Hanson (2009).
Methylcyclohexane-oxygen-nitrogen
mixtures, p5 = 20 atm.
Vasu et al. (2009).
Methylcyclohexane-oxygen-nitrogen
mixtures, p5 = 15 & 50 atm.
Vanderover & Oehlschlaeger (2009).
Methylcyclohexane-oxygen-argon
mixtures, p5 = 1, 2 & 4 atm.
Orme et al. (2006).
Ethylcyclohexane-oxygen-nitrogen
mixtures, p5 = 15 & 50 atm.
Vanderover & Oehlschlaeger (2009).
n-Propylcyclohexane-oxygen-argon mixtures, p5 = 10 atm.
Dubois et al. (2009).
- Species profiles behind reflected shock
waves
Methylcyclohexane-oxygen-argon
mixture, p5
= 15.65 atm.
Vasu et al. (2009).
- Species concentration profiles in
Jet-Stirred and Flow Reactors
Cyclohexane oxidation in a
jet-stirred reactor (p = 1 atm).
El Bakali et al. (2000).
Methylcyclohexane pyrolysis in trace oxygen in a plug flow reactor (p = 1 atm).
Zeppieri et al. (1997).
Methylcyclohexane oxidation in a plug flow reactor (p = 1 atm).
Zeppieri et al. (1997).
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