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References Relevant to Passivation Properties
Ueno, E., H. Oshima, I. Saito, H. Matsumoto, Multiresidue Analysis of Nitrogen-Containing and Sulfur-Containing
Pesticides in Agricultural Products Using Dual-Column GC-NPD/FPD Shokuhin Eiseigaku Zasshi 43(2): 80-89 (2002).
Sulyok, M., C. Haberhauer-Troyer, E. Rosenberg, Observation of Sorptive Losses of Volatile Sulfur Compounds during
Natural Gas Sampling J. Chromatogr. A 946(1-2): 301-305 (2002).
Sulyok, M., C. Haberhauer-Troyer, E. Rosenberg, M. Grasserbauer, Investigation of the Storage Stability of Selected
Volatile Sulfur Compounds in Different Sampling Containers J. Chromatogr. A 917(1-2): 367-374 (2001).
Doskey, P. H.M. Bialk, Automated Sampler for the Measurement of non-Methane Organic Compounds Environ. Sci.
Technol. 35(3): 591-594 (2001).
Krigbaum, M., G. Smith, E.T. Heggs, Comparative Analysis of Silcosteel Coated Sample Pathway and Electroform Nickel
Sample Pathway in the Tekmar 3100 Sample Concentrator Preprints of Extended Abstracts, American Chemical Society,
Div. Environmental Chemistry 40(2): 18-21 (2000).
Choi, M.H., K.R. Kim, B.C. Chung, Simultaneous Determination of Urinary Androgen Glucuronides by High Temperature
Gas Chromatography-Mass Spectrometry with Selected Ion Monitoring Steroids 65(1): 54-59 (2000).
Thompson, C.V.; M.B. Wise, Effects of Silcosteel Transfer Line on the Sampling of Volatile Organic Compounds Field
Anal. Chem. Technol. 2(5): 309-314 (1998).
Ueno, E., H. Oshima, I. Saito, H. Matsumoto, Simultaneous Determination of Pesticide Residues in Ohba by GC-Pulsed
FPD/FTD Aichiken Eisei Kenkyu Shoho 53: 33-41 (2003).
Tsunogai, U., F. Nakagawa, D.D. Komatsu, T. Gamo, Stable Carbon and Oxygen Isotopic Analysis of Atmospheric Carbon
Monoxide Using Continuous-Flow Isotope Ratio MS by Isotope Ratio Monitoring of CO Anal. Chem. 74(22): 5695-5700 (2002).
Xu, X., L.L.P. van Stee, J. Williams, J. Beens, M. Adahchour, R.J.J. Vreuls, U.A.Th. Brinkman, J. Lelieveld,
Comprehensive Two-Dimensional Gas Chromatography (GCxGC) Measurements of Volatile Organic Compounds in the
Atmosphere Atmos. Chem. Phys. 3: 665-682 (2003).
Firor R.L., B.D. Quimby, A Comparison of Sulfur Selective Detectors for Low Level Analysis of Gaseous Streams
application 5988-2426EN, Agilent Technologies, Inc. (2001).
Firor, R.L., B.D. Quimby, Analysis of Trace Sulfur Compounds in Beverage Grade Carbon Dioxide application
5988-2464EN, Agilent Technologies, Inc. (2001).
Firor, R.L., B.D. Quimby, Automated Dynamic Blending System for the Agilent 6890 Gas Chromatograph: Low Level
Sulfur Detection application 5988-2465EN, Agilent Technologies, Inc. (2001).
Navale, V., D. Harpold, A. Vertes, Development and Characterization of Gas Chromatographic Columns for the Analysis
of Perbiological Molecules in Titan’s Atmosphere Anal. Chem. 70: 689-697 (1998).
Navale, V., Analytical Chemistry of Abiological and Biological Molecules by Gas Chromatography and Mass
Spectrometry Reviews in Analytical Chemistry 18(3): 193-234 (1999).
Li, W.C., A.R.J. Andrews, A Modified Inlet System for High Speed Gas Chromatography Using Inert Metal Tubing with a
Carbon Dioxide Cooled Cryotrap J. High Res. Chromatogr. 19: 492-495 (1996).
George, R.B., P.D. Wright, Analysis of USP Organic Volatile Impurities and Thirteen Other Common Residual Solvents by
Static Headspace Analysis Anal. Chem. 69(11): 2221-2223 (1997).
Harynuk J., T. Górecki, Comprehensive Two-dimensional Gas Chromatography in Stop-Flow Mode
submitted to J. Sep. Sci.
Harynuk, J., T. Górecki, Design Considerations for a GC x GC System J. Sep. Sci. 25: 304-310 (2002).
Górecki, T., J. Poerschmann, In-Column Pyrolysis – A New Approach to an Old Problem Anal. Chem. 73(9):
2012-2017 (2001).
References Relevant to Anti-Coking Properties
Lloyd, W., J. Stefanik, K. Cheenkachorn, A. Boehman, J.M. Perez, Effect of Surface Coatings on the Deposit-Forming
Tendencies of Some Oils Biobased Industrial Fluids and Lubricants, 78-84 (2002).
Ervin, J.S., T.A. Ward, T.F. Williams, J. Bento, Surface Deposition within Treated and Untreated Stainless Steel
Tubes Resulting from Thermal-Oxidative and Pyrolytic Degradation of Jet Fuel Energy & Fuels 17(3): 577-586 (2003).
Orhan, A., S. Eser, Analysis of Solid Deposits from Thermal Stressing of a JP-8 Fuel on Different Tube Surfaces in a
Flow Reactor Ind. Eng. Chem. Res. 40(2): 596-603 (2001).
Altin, O., A. Venkataraman, S. Eser, Analysis of sSolid Deposits from Thermal Stressing of a JP-8 Fuel on Different
Tube Surfaces in a Flow Reactor Abstracts, 216th American Chemical Society National Meeting, Boston, MA, August
23-27 (1998).
Jones, E.G., L.M. Balster, W.J. Balster, Autoxidation of Aviation Fuels in Heated Tubes: Surface Effects Energy
& Fuels 10(3): 831-836 (1996).
Pickard, J.M., E.G. Jones, Autoxidation of POSF-2827 Jet Fuel Abstracts, 211th American Chemical Society National
Meeting, New Orleans, LA, March 24-28 (1996).
Jones, E.G., W.J. Balster, W.A. Rubey, Fouling of Stainless Steel and Silcosteel Surfaces During Aviation Fuel
Autoxidation Abstracts, 210th American Chemical Society National Meeting, Chicago, IL, August 20-24 (1995).
Jones, E.G., W.J. Balster, W.A. Rubey, Fouling of Stainless Steel and Silcosteel Surfaces During Aviation Fuel
Autoxidation Preprints of Extended Abstracts, American Chemical Society, Div. Petroleum Chemistry 40(4): 655-659 (1995).
Atria, J.V., H.H. Schobert, W. Cermignani, Nature of High-Temperature Deposits from n-Alkanes in Flow Reactor
Tubes Preprints of Extended Abstracts, American Chemical Society, Div. Petroleum Chemistry 41(2): 493-497 (1996).
Edwards, T., J.V. Atria, Deposition of High-Temperature Jet Fuels Preprints of Extended Abstracts, American
Chemical Society, Div. Petroleum Chemistry 40(4): 649-654 (1995).
Doungthip, T., J. Ervin, T. Ward, T. Williams, S. Zabarnick, Surface Deposition within Treated and Untreated
Stainless-Steel Tubes Resulting from Thermal-Oxidative Degradation of Jet Fuel Preprints of Extended Abstracts,
American Chemical Society, Div. Petroleum Chemistry 47(3): 204-207 (2002).
Rubey, W.A., R.C. Striebich, M.D. Tissandier, D.A. Tirey, Gas Chromatographic Measurement of Trace Oxygen and Other
Dissolved Gases in Thermally Stressed Jet Fuel J. Chromatogr. Sci. 33: 433-437 (1995).
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