Abstract

With recent volatile oil prices and the desire to reduce dependence on foreign oil, the airline industry and military are looking at ways to supplement the fuel supply. Synthetic jet fuel has recently come to the forefront as a possible solution since it has chemical properties and energy density similar to that of petroleum based jet fuel. In order to successfully implement synthetic jet fuels into a fuel supply, it is essential to know the blend ratio of synthetic to standard jet fuel. A portable mid-infrared analyzer was evaluated as a possible tool to analyze the blend ratio. Preliminary results showed that portable mid-infrared analyzers have an accuracy better than 1 % by volume. Both commercial (Jet A) and military spec (JP-8) fuels were blended with different levels of synthetic jet fuel, and calibrations were generated on a portable mid-infrared spectrometer. The mid-infrared spectrometer performed within an acceptable accuracy with both fuels. In addition, it was possible to calibrate using Jet A fuel and predict the synthetic blend ratio on JP-8 fuel, so the calibration was robust enough to compensate for different fuel types. Further studies are underway in order to determine the effects of fuel additives and different synthetic fuel types on infrared analysis.

References

1.
Wender
,
I.
and
Tierney
,
J. W.
, Oxygenated Fischer-Tropsch Derived Diesel Fuel, University of Pittsburgh, Dept. of Chemical and Petroleum Engineering,
1999
, http://www.fischer-tropsch.org/DOE/DOE_reports/40540/40540_99_00/ft40540_99_00_03oxyfuel.pdf (Last accessed May 26, 2010), p. 1.
2.
Heminghaus
,
G.
,
Boval
,
T.
,
Bosley
,
C.
,
Organ
,
R.
,
Lind
,
J.
,
Brouette
,
R.
,
Thompson
,
T.
,
Lynch
,
J.
, and
Jones
,
J.
,
Alternative Jet Fuels: A Supplement to Chevron’s Aviation Fuels Technical Review
,
Chevron Corporation
,
San Ramon, CA
,
2006
, p. 5.
3.
Defence Standard 91-91, Issue 6,
2008
, “
Turbine Fuel, Aviation Kerosene Type, Jet A-1, NATO Code: F-35, Joint Service Designation: AVTUR
,” United Kingdom Ministry of Defence Standards, U.K. Ministry of Defence, Glasgow, UK, pp.
14
15
.
4.
MIL-DTL-83133F,
2008
, “
Specification for Turbine Fuel, Aviation, Kerosene Type, JP-8 (NATO F-34), NATO F-35 and JP-8+100 (NATO F-37)
,” Department of Defense Standards, Wright-Patterson AFB, OH, p. 6.
5.
ASTM D1655-09,
2009
, “
Standard Specification for Aviation Turbine Fuels
,” Annual Book of ASTM Standards, Vol.
05.01
, ASTM International, West Conshohocken, PA, pp.
1
14
.
6.
ASTM D7566-09,
2009
, “
Standard Specification for Aviation Turbine Fuel Containing Synthesized Hydrocarbons
, Annual Book of ASTM Standards, Vol.
05.04
, ASTM International, West Conshohocken, PA, pp.
1
18
.
7.
Pae
,
P.
, “
Bomber Makes Test Flight Using Only Synthetic Fuel
,” Los Angeles Times, 16 December
2006
.
8.
U.S. Dept. of Energy National Energy Technology Laboratory, U.S. Dept. of Energy R & D Fact Sheets: Fischer-Tropsch Fuels,
2008
, http://www.netl.doe.gov/publications/factsheets/rd/R&D089.pdf (Last accessed May 26, 2010).
9.
Nollet
,
L. M.
,
Handbook of Food Analysis
, 2nd ed.,
CRC Press
,
Boca Raton, FL
,
2004
, p. 1762.
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