Oxidation of JP-5 in single and multi-pass flow testing

9th International Conference on Stability, Handling and Use of Liquid Fuels 2005

Volumn 2, Issue , 2005, Pages 754-787

  Morris, Robert E ^a   Evans, Thomas ^b   Hughes, Janet M ^b   Colbert, John E ^c   Kamin, Richard A ^c   Nowack, Clarence J ^b  

^a NAVAL RESEARCH LABORATORY   (United States)

^b Geocenters Inc   (United States)

^c Bldg 2360   (United States)

Author keywords

Autoxidation; Copper; Jet fuel; JP 5; MDA; Metal deactivators; Thermal oxidation; Thermal stability

Indexed keywords

AIRCRAFT SYSTEMS; AUTOXIDATION; CLOSED SYSTEMS; COPPER CONTAMINATION; COPPER DEPLETION; DESIGN TEMPERATURE; DISSOLVED COPPER; FLOW TESTING; FUEL DESIGN; FUEL OXIDATION; FUEL TEMPERATURE; JP-5; MDA; METAL DEACTIVATOR; MULTI-PASS; OXIDATION RATES; RESIDENCE TIME; SINGLE TUBES; SLOW FLOW; SYSTEM COMPONENTS; THERMAL DEPOSITION; THERMAL OXIDATION;

ADDITIVES; COPPER; COPPER COMPOUNDS; DEPOSITS; JET FUEL; LIQUID FUELS; OXIDATION; THERMODYNAMIC STABILITY;

COPPER DEPOSITS;

EID: 84865268162     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (15)

1. Schenk, L.; Johnson, R.; Monita, C. Investigation of Effects of Trace Metals in the Thermal Stability of JP-7 Fuels; Southwest Research Institute, Report AFAPL-TR-71-98, Dec. 1971.
2. Por, Nahum Stability Properties of Petroleum Products; The Israel Institute of Petroleum and Energy, The School of Petroleum and Energy Science: Tel Aviv, March 1992; p30.
3. Pande, S. G. and Hardy, D. R. "Comparison of The Effects of Storage Conditions, Type of Soluble Copper, and MDA on JP-5 Fuel Thermal Stability. In Proceedings of the 6th International Conference on Stability and Handling of Liquid Fuels, Vancouver, B. C., Canada, October 1997; US Department of Energy: Washington, DC; pp211-230.
4. Hazlett, R. N. Thermal Oxidation Stability of Aviation Turbine Fuels; ASTM: Philadelphia, 1991; Chapters 2, 6, 8, 9.
5. Scott, G. Atmospheric Oxidation and Antioxidants; Elsevier: New York, 1965.
6. Reich, L.; Stivala, S. S. Autooxidation of Hydrocarbon and Polyolefins, Kinetics, and Mechanisms; Marcel Dekker: New York, 1969.
7. Waynick, J. A. Energy Fuels 2001, 15, 1325.
8. Morris, R. E., Hughes, J. M. and Colbert, J. E. Energy & Fuels, 18, 490 (2004).
9. "The Examination of Liquid-Phase Oxidation to Define The Impact of Copper on Jet Fuel Thermal Stability in Advanced Aircraft". Robert E. Morris and Janet M. Hughes. In Proceedings of the 8th International Conference on Stability and Handling of Liquid Fuels, Steamboat Springs, CO.
10. Morris, R.E.; Hasan, M.T.; Su, T.C.K.; Wechter, M.A.; Turner, N.H. and Schreifels, J.A. Energy & Fuels, 12(2) 376, 1998.
11. ASTM, "Standard Method for Thermal Oxidation Stability of Aviation Turbine Fuels (JFTOT Procedure)". In Annual Book of ASTM Standards; ASTM: Philadelphia, 2002; Vol. 05.02, ASTM D 3241-02a.
12. "Evaluation of Thermal Stability Improving Additives for Jet Fuel in B-th Laminar and Turbulent Flow Test Devices." John E. Colbert and Clarance J. Nowack; In Proceedings of the 7th International Conference on Stability and Handling of Liquid Fuels, Graz. Austria, September 2000; US Department of Energy: Washington, DC.
13. "Quest for a Reliable Method for Determining Aviation Fuel Thermal Stability: Comparison of Turbulent and Laminar Flow Test Devices" S.G. Pande, D.R. Hardy, R.A. Kamin, C.J. Nowack, J.E. Colbert, R.E., Morris and L. Salvucci. Energy & Fuels, 15, 224 (2001).
14. Hazlett, R.N.; Hall, J.M.; and Matson, M. Ind. Eng. Chem., Prod. Res. Dev., 2(16), 171, 1977.
15. Morris, R.E., Hazlett, R.N. Ind. Eng. Chem. Res. 27(8), 1524, 1988.