Aviation turbine fuel

Aviation fuel Aviation fuels Aviation gasolines Aviation turbine fuel Avicel... [Pg.80]

H. Shaw, C. D. Kalfadehs, and C. E. Jahnig, Evaluation of Methods to Produce Aviation Turbine Fuels From Synthetic Crude Oils-Phase I, Technical Report AFAPL-TR-75-10, Vol. 1, Air Force Aero Propulsion Laboratory, Wright-Patterson Air Force Base, Dayton, Ohio, Mar. 1975. [Pg.99]

M-iscellaneousFxtractions. Additional extractive separations using sulfolane involve (/) mercaptans and sulfides from sour petroleum (45) (2) /-butylstyrene from /-butylethjlbenzene (46) (J) mixtures of close boiling chlorosHanes (47) and (4) aromatics from kerosene (48—50), naphtha (49,51—53), and aviation turbine fuel (54). [Pg.69]

Conventional Transportation Fuels. Synthesis gas produced from coal gasification or from natural gas by partial oxidation or steam reforming can be converted into a variety of transportation fuels, such as gasoline, aviation turbine fuel (see Aviation and other gas turbine fuels), and diesel fuel. A widely known process used for this appHcation is the Eischer-Tropsch process which converts synthesis gas into largely aHphatic hydrocarbons over an iron or cobalt catalyst. The process was operated successfully in Germany during World War II and is being used commercially at the Sasol plants in South Africa. [Pg.277]

ASTM. (1998). D1655 Standard Specification for Aviation Turbine Fuels. Iii 1998 Annual Book of ASTM Standards. West C.nnshnhocken, PA Author. [Pg.113]

Avian leukosis virus, 3 136 Aviation gasoline, 23 666 Aviation turbine fuel, from coal gasifier syngas, 6 778 Avidin, 25 800 Avidity constant, 14 137 Avionics, with fiber-optic smart structures, 22 156-157... [Pg.81]

Infrared spectroscopy is used for the determination of benzene in motor and/or aviation gasoline (ASTM D4053), while ultraviolet spectroscopy is employed for the evaluation of mineral oils (ASTM D2269) and for determining the naphthalene content of aviation turbine fuels (ASTM D1840). [Pg.45]

Nuclear magnetic resonance spectroscopy has been developed as a standard method for the determination of hydrogen types in aviation turbine fuels (ASTM D3701). X-ray fluorescence spectrometry has been applied to the determination of lead in gasoline (ASTM D2599) as well as to the determination of sulfur in various petroleum products (ASTM D2622, D4294). [Pg.46]

Jet fuel is classified as aviation turbine fuel, and in the specifications, ratings relative to octane number are replaced with properties concerned with the ability of the fuel to bum cleanly. Jet fuel is a light petroleum distillate that is available in several forms suitable for use in various types of jet engines. The exact composition of jet fuel is established by the U.S. Air Force using specifications that yield maximum performance from the aircraft. The major jet fuels used by the military are JP-4, JP-5, JP-6, JP-7, and JP-8. [Pg.70]

ASTM. 1994a. Standard specification for aviation turbine fuel. American Society for Testing and Materials. Philadelphia, PA. [Pg.165]

Typical Jet Fuel or Aviation Turbine Fuel Quality Criteria... [Pg.50]

Determining Water Separation Characteristics of Aviation Turbine Fuels by Portable Separometer (Microseparameter (MSEP) Test)... [Pg.186]

Low-molecular-weight vapors can cause vapor locking a critical concern at high altitudes in aviation turbine fuels... [Pg.256]

ASTM D-1655. Standard Specification for Aviation Turbine Fuels. [Pg.177]

Thomas, K.P., and Hunter, D.E. 1989. The Evaluation of a Coal-Derived Liquid as a Feedstock for the Production of High-Density Aviation Turbine Fuel. DOE Report DOE/MC/11076-2993. United States Department of Energy, Washington, DC. [Pg.265]

Cowan, M.J., and L.J. Jenkins. 1981b. The Toxicity of Grade JP-5 Aviation Turbine Fuel, A Comparison Between Petroleum and Shale-Derived Fuels. Pp. B2/1-B2/7 in Toxic Hazards in Aviation. Papers presented at the Aerospace Medical Panel Specialists Meeting, Toronto, Canada, Sept. 15-19 1980. AGARD-CP-309, France Advisory Group for Aerospace Research Development. [Pg.122]

Striebich, R.C. Fast gas chromatography for middle-distillate aviation turbine fuels. Assoc. Can. Stud. Pet. Chem. Prepr. 2002, 47 (3), 219-222. [Pg.671]

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