NTL Record

Title A Shock Tube Study of Jet Fuel Pyrolysis and Ignition at Elevated Pressures and Temperatures
Record ID 81708
Personal Name
Creator
Shao, Jiankun; Zhu, Yangye; Wang, Shengkai; Davidson, David F; Hanson, Ronald K
Corporate Creator United States. Department of Transportation. Federal Aviation Administration. Center of Excellence for Alternative Jet Fuels and Environment; Stanford University
Corporate
Contributor
United States. Department of Transportation. Federal Aviation Administration. Office of Environment and Energy
Publisher Elsevier
Publication Date 20180400
Language English
Abstract The development of compact HyChem hybrid models for jet fuels requires datasets of pyrolysis product yields to constrain the model and of kinetic targets to evaluate the model. To this end, we have measured selected species time-histories during fuel pyrolysis using laser absorption, and ignition delay times using multiple methods behind reflected shock waves in a heated shock tube. Measurements were performed for three different jet fuels diluted in air or argon over a temperature range of 1000-1400 K, a pressure range of 12 to 40 atm, and equivalence ratios of 0.5 to 1. Fuel loading was measured using an IR He-Ne laser at 3391 nm; ethylene with a CO2 gas laser at wavelengths of 10532 nm and 10674 nm; and methane with a tunable diode laser at wavelengths of 3175 nm and 3177 nm. Ignition delay times were measured in three ways: by monitoring fuel removal with laser absorption, by sidewall pressure, and by OH* emission. Particular care was taken in mixture preparation and efficient transfer of the gaseous fuel mixture to the shock tube. The current HyChem model by Wang et al. shows good agreement with these data.
Public Note This manuscript is made available under the Elsevier user license https://www.elsevier.com/open-access/userlicense/1.0/
Rosap ID dot:56947
Rosap URL https://rosap.ntl.bts.gov/view/dot/56947
TRT Terms Aviation fuels; Tubing; Mechanical shock; Laser materials; Absorption; Fuel composition; Hybrid simulation
General Subjects Jet fuel; Shock tubes; Laser absorption; Fuel characterization; Hybrid models; ASCENT
Geographical
Coverage
United States
TRIS Online
Accession No
1780703
Contract Number 13-C-AFJE-SU-015
Report Number j.fuel.2018.04.028
Resource type Manuscript
URL https://ntlrepository.blob.core.windows.net/lib/81000/81700/81708/25-j.fuel.2018.04.028_pub_Shock_Tube.pdf
Format PDF
Database NTL Digital Repository