OH time-histories during oxidation of n-heptane and methylcyclohexane at high pressures and temperatures
- Mechanical Engineering Department, Stanford University, Stanford, CA 94305 (United States)
OH concentration time-histories during n-heptane and methylcyclohexane (MCH) oxidation were measured behind reflected shock waves in a heated, high-pressure shock tube. Experimental conditions covered temperatures of 1121 to 1332 K, pressures near 15 atm, and initial fuel concentrations of 750 and 1000 ppm (by volume), and an equivalence ratio of 0.5 with O{sub 2} as the oxidizer and argon as the bath gas. OH concentrations were measured using narrow-linewidth ring-dye laser absorption near the R-branchhead of the OH A-X(0,0) system at 306.47 nm. These current measurements together with our recent results for n-dodecane oxidation [S.S. Vasu, D.F. Davidson, Z. Hong, V. Vasudevan, R.K. Hanson, Proc. Combust. Inst. 32 (2009), doi:10.1016/j.proci.2008.05.006] provide critically needed validation targets for jet fuel surrogate kinetic mechanisms and further improve understanding of high-pressure, high-temperature oxidation chemistry. Detailed comparisons of these OH time-histories with the predictions of various kinetic mechanisms were made. Sensitivity and pathway analyses for these reference fuel components were performed, leading to reaction rate recommendations with improved model performance. Current results are the first quantitative measurements of OH time-histories during high-pressure oxidation of these fuels, and hence are a critical step toward development of accurate reaction models for jet fuel surrogates. (author)
- OSTI ID:
- 21168974
- Journal Information:
- Combustion and Flame, Vol. 156, Issue 4; Other Information: Elsevier Ltd. All rights reserved; ISSN 0010-2180
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
ORGANIC
PHYSICAL AND ANALYTICAL CHEMISTRY
PRESSURE RANGE MEGA PA 01-10
HEPTANE
OXIDATION
ARGON
TEMPERATURE RANGE 1000-4000 K
COMPARATIVE EVALUATIONS
SENSITIVITY ANALYSIS
REACTION KINETICS
SHOCK TUBES
JET ENGINE FUELS
TIME DELAY
IGNITION
OXYGEN
PERFORMANCE
CYCLOALKANES
MATHEMATICAL MODELS
RECOMMENDATIONS
SIMULATION
HYDROXYL RADICALS
Methylcyclohexane
OH concentration