Other reports in this collection
ICAO, 1981: International Standards and Recommended Practices, Environmental Protection. Annex 16 to the Convention on International Civil Aviation, Volume II, Aircraft Engine Emissions. International Civil Aviation Organization, Montreal, Canada, 1st ed., 60 pp.
ICAO, 1993: International Standards and Recommended Practices, Environmental Protection. Annex 16 to the Convention on International Civil Aviation, Volume II, Aircraft Engine Emissions. International Civil Aviation Organization, Montreal, Canada, 2nd ed., 55 pp.
ICAO, 1995a: ICCAIA Position on Stringency of NOx Emissions Regulations. Working Paper 28, International Civil Aviation Organization Working Group 3 (Emissions), Montreal, Canada, December 1995.
ICAO, 1995b: ICAO Engine Exhaust Emissions Data Bank. ICAO-9646-AN/943, International Civil Aviation Organization, Montreal, Canada, 1st ed.
ICAO, 1995c: Report of the Emissions Inventory Sub-Group at Working Group 3. International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3, Bonn, Germany, June 1995, 45 pp. ICCAIA, 1993: Feasibility of Reducing Oxides of Nitrogen Levels of Engines in the 6,000 to 15,000 Pounds Thrust Turbofan Engine Class. Working Paper 2/6 presented at the second meeting of the Technology Subgroup of ICAO/CAEP, International Civil Aviation Organization Committee on Aviation Environmental Protection Working Group 3 (Emissions), Amsterdam, The Netherlands, 10 pp.
ICCAIA, 1997a: Emissions Technology Review. Working Paper 2/4 presented at the 2nd meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions). Seville, Spain, January 1997, 38 pp.
ICCAIA, 1997b: Emissions Technology Review. Working Paper 3/11 presented at the 3rd meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Savannnah, GA, USA, May 1997, 24 pp.
ICCAIA, 1997c: Engine Enhancements for Lower Emissions. Working Paper 3/12 presented at the 3rd meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Savannnah, GA, USA, May 1997, 5 pp.
ICCAIA, 1997d: Responses to Comments on WG3 Working Paper 3/11. Working Paper 4/16 presented at the 4th meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Bern, Switzerland, November 1997, 8 pp.
ICCAIA, 1997e: Responses to Questions Pertaining to Emissions Trade-Offs. Working Paper 4/17 presented at the 4th meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Bern, Switzerland, November 1997, 9 pp.
ICCAIA, 1997f: 2050 Fuel Efficiency and NOx Technology Scenarios. Working Paper 4/22 presented at the 4th meeting of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Bern, Switzerland, November 1997, 14 pp.
Jane's, 1998: All the World's Aircraft, 1997-98. Jane's Publishing Co., London, United Kingdom, 1029 pp.
K�rcher, B. and D.W. Fahey, 1997: The role of sulfur emission in volatile particle formation in jet aircraft exhaust plumes. Geophysical Research Letters, 24, 389-392.
K�rcher, B., M.M. Hirschberg, and P. Fabian, 1996: Small-scale chemical evolution of aircraft exhaust species at cruising altitudes. Geophysical Research Letters, 101(15), 15169-15190.
Katzman, H., and W.F. Libby, 1975: Hydrocarbon emissions from jet engines operated at simulated high-altitude supersonic flight conditions. Atmospheric Environment, 9, 839-842.
Kerrebrock, J.L., 1992: Aircraft Engines and Gas Turbines. MIT Press, Cambridge, MA, USA, 2nd ed.
Kleffmann, J., R. Kurtenbach, and P. Wiesen, 1994: Emissions of nitrous oxide and methane from aero engines: monitoring by tunable diode laser spectroscopy. In: Impact of Emissions from Aircraft and Spacecraft upon the Atmosphere [Schumann, U. and D. Wurzel (eds.)]. Proceedings of an international scientific colloquium, Cologne, Germany, 18-20 April 1994. DLR-Mitteilung 94-06, Deutsches Zentrum f�r Luft- und Raumfahrt, Oberpfaffenhofen and Cologne, Germany, pp. 82-87.
Klug, H.G., S. Bakan, and V. Gaylor, 1996: Cryoplane-Quantitative Comparison of Contribution to Anthropogenic Greenhouse Effect of Liquid Hydrogen Aircraft versus Conventional Kerosene Aircraft. European Geophysical Society, XXI General Assembly, The Hague, The Netherlands, May 1996, 22 pp.
Koff, B.L., 1991: Spanning the Globe with Jet Propulsion. AIAA-2987, American Institute of Aeronautics and Astronautics, Arlington, VA, USA, p. 2.
Lecht, M. and F. Deidewig, 1994: NOx Emission Correlation for Varying Engine Inlet Conditions. Presented at the 5th meeting of the Certification Sub-Group of the International Civil Aviation Organization, Committee on Aviation Environmental Protection, Working Group 3 (Emissions), Seattle, WA, USA, 7 pp.
Leide, B. and P. Stouffs, 1996: Residual reactivity of burned gases in the early expansion process of future gas turbines. Journal of Engineering for Gas Turbines and Power, 118, 54-60.
Liebeck, R.H., M.A. Page, and B.K. Rawdon, 1998: Blended Wing Body Subsonic Commercial Transport. AIAA-98-0438, American Institute of Aeronautics and Astronautics, 36th Aerospace Sciences Meeting, 12-15 January 1998, Reno, Nevada, USA.
Lipfert, F.W., 1972: Correlation of Gas Turbine Emissions Data. ASME 72-GT-60, American Society of Mechanical Engineers, New York, NY, USA, 16 pp.
Lister, D.H. and M.I. Wedlock, 1978: Measurement of Emissions Variability of a Large Turbofan Aero-Engine. ASME-78-GT-75, American Society of Mechanical Engineers, New York, NY, USA, 11 pp.
Lister, D.H., E. Eyeh, C. Baudoin, J. Burbank, F. Deidewig, R.S. Falk, M. Kapernaum, J. Kleffmann, V. Kluge, R. Kurtenbach, M. Lecht, M. Metcalf, A. Sami, C. Wahl, P. Wiesen, and N. Zarzalis, 1995: Engine exhaust emissions. In: AERONOx. The Impact of NOx Emissions From Aircraft Upon the Atmosphere at Flight Altitudes 8-15 km [Schumann, U. (ed.)]. EUR-16209-EN, Office for Publications of the European Communities, Brussels, Belgium, pp. 33-127.
Lowrie, B., 1993: Combustors for Supersonic Transport Propulsion. Presentation at the AGARD meeting of Fuels and Combustion Technology for Advanced Engines. AGARD 536, 81st Symposium, 10-14 May 1993, 2-1 - 2-6.
Lukachko, S.P. and I.A. Waitz, 1997: Effects of Engine Aging on Aircraft NOx Emissions. Presented at the International Gas Turbine and Aeroengine Congress and Exhibition, Orlando, FL, USA, 2-5, June 1997. ASME 97-GT-386, American Society of Mechanical Engineers, New York, NY, USA.
Lukachko, S.P., I.A. Waitz, R.C. Miake-Lye, R.C. Brown, and M.R. Anderson, 1998: Production of sulfate aerosol precursors in the turbine and exhaust nozzle of an aircraft engine. Journal of Geophysical Research, 103(D13), 16159-16174.
Lynch, F.T. and R.T. Crites, 1996: Some Constraints Imposed on the Aerodynamic Development Process by Wind-Tunnel Circuit Design Characteristics. Advisory Group for Aerospace Research and Development, Moscow, Russia, September 1996.
Lynch, F.T., R.C. Potter, and F.W. Spaid, 1996: Requirements for Effective High Lift. CFD-ICAS 96-2.7.1, International Council on Aeronautical Sciences, Sorrento, Italy.
Lynch, F.T. and G.A. Intemann, 1994: The Modern Role of CFD in Addressing Airframe/Engine Integration Issues for Subsonic Transports. ICAS 94-6.4.3, International Council on Aeronautical Sciences.
Lyon, T.F., W.J. Dodds, and D.W. Bahr, 1980: Determination of Pollutant Emissions Characteristics of General Electric CF6-6 and CF6-50 Model Engines, Final Report. FAA-EE80-27, Federal Aviation Administration, Washington, DC, USA.
Martin, R.L., C.H. Oncina, and P.J. Zeeben, 1994: A Simplified Method for Estimating Aircraft Engine Emissions. Oral presentation at ASME, The Hague, 1994. Reported as "Boeing Method 1 fuel flow methodology description" in appendix C of "Scheduled Civil Aircraft Emission Inventories for 1992" [Baughcum, S. (ed.)]. NASA Contractor Report 4700, April 1996.
Martin, R.L., C.H. Oncina, and P.J. Zeeben, 1995: A Simplified Method for Estimating Aircraft Engine Emissions. ICAO/CAEP/Working Group 3, Certification Subgroup, March 1995. Reported as "Boeing Method 2 fuel flow methodology description in appendix D of "Scheduled Civil Aircraft Emission Inventories for 1992" [Baughcum, S. (ed.)]. NASA Contractor Report 4700, April 1996.
[Baughcum, S. (ed.)]. NASA Contractor Report 4700, April 1996. Martin, R.L., C.H. Oncina, and P.J. Zeeben, 1996: A simplified method for estimating aircraft engine emissions. In: Scheduled Civil Aircraft Emission Inventories for 1992. NASA-CR-4700, National Aeronautics and Space Administration, Washington, DC, USA, April 1996, pp. 13-15.
McMasters, J.H. and I.M. Kroo, 1998: Advanced Configurations for Very Large Transport Airplanes. Presented at 36th Aerospace Sciences Meeting, 12-15 January 1998, Reno, NV, USA. AIAA-98-0439, American Institute for Aeronautics and Astronautics.
Miake-Lye, R.C., B.E. Anderson, W.R. Cofer, H.A. Wallio, G.D. Nowicki, J.O. Ballethin, D.E. Hunton, W.B. Knighton, T.M. Miller, J.V. Seeley, and A.A. Viggiano, 1998: SOxO oxidation and volatile aerosol in aircraft exhaust plumes depend on fuel sulfur content. Geophysical Research Letters, 25, 1677-1680.
Miake-Lye, R.C., M. Martinez-Sanchez, R.C. Brown, and C.E. Kolb, 1993: Plume and wake dynamics, mixing, and chemistry behind a high speed civil transport aircraft. Journal of Aircraft, 30, 467-479.
Miake-Lye, R.C., R.C. Brown, M.R. Anderson, and C.E. Kolb, 1994: Calculations of condensation and chemistry in an aircraft contrail, in impact of emissions from aircraft and spacecraft upon the atmosphere. In: Impact of Emissions from Aircraft and Spacecraft upon the Atmosphere [Schumann, U. and D. Wurzel (eds.)]. Proceedings of an international scientific colloquium, Cologne, Germany, 18-20 April 1994. DLR-Mitteilung 94-06, Deutsches Zentrum f�r Luft- und Raumfahrt, Oberpfaffenhofen and Cologne, Germany, pp. 280-285.
Momenthy, A.M., 1996: Jet Fuel Data Status and Importance. Presentation at International Air Transport Association Fuel Trade Forum, Johannesburg, South Africa, May 1996. Boeing Airplane Group, Seattle, WA, USA.
Mongia, H.C., 1994: Combustor Modeling in Design Process: Applications and Future Direction. AIAA-94-0466, American Institute for Aeronautics and Astronautics.
Mongia, H.C., 1997a: Gas Turbine Combustion Design, Technology and Research: Current Status and Future Direction. AIAA-97-3369, American Institute for Aeronautics and Astronautics, 17 pp
Mongia, H.C., 1997b: Recent Progress in Low-Emissions Gas Turbine Combustors. Presented at the XIII International Symposium on Airbreathing Engines, Chattanooga, TN, USA, 7-12 September 1997, 7 pp.
Mortlock, A., and R. van Alstyne, 1988: Military, Charter, Unreported, Domestic Traffic and General Aviation 1976, 1984, 1992 and 2015. NASA-CR-1998-207639, National Aeronautics and Space Administration, Langley Research Center, Hampton, VA, USA, March 1998, pp. 1-58.
Mullins, J., A. Simmons, and A. Williams, 1988: Rates of Formation of Soot from Hydrocarbon Flames and Its Destruction. AGARD-CP-422, Advisory Group for Aerospace Research and Development, 23 pp.
Novakov, T., 1982: Soot in the atmosphere. In: Particulate Carbon Atmospheric Life Cycle [Wolff, G.T. and R.L. Klimisch (eds.)]. Plenum Press, New York, NY, USA, pp. 19-37.
NRC, 1997: An Interim Assessment of AEAP's Emissions Characterization and Near-Field Interactions Elements. National Research Council Panel on the Atmospheric Effects of Aviation, National Academy Press, Washington, DC, USA, 16 pp.
Petzold, A. and F.P. Schr�der, 1998: Jet engine exhaust aerosol characterization. Aerosol Science and Technology, 28, 62-76.
Petzold, A., J. Str�m, F.P. Schr�der, and B. K�rcher, 1999: Carbonaceous aerosol in jet engine exhaust: emission characteristics and implications for heterogeneous chemical reactions. Atmosphere and Environment, (in press).
Pueschel, R.F., et al., 1997: Soot aerosol in the lower stratosphere: pole-to-pole variability and contribution by aircraft. Journal of Geophysical Research, 102, 13113-13118.
Pueschel, R.F., S. Verma, G.V. Ferry, S.D. Howard, S. Vay, S.A. Kinne, J. Goodman, and A.W. Strawa, 1998: Sulfuric acid and soot particle formation in aircraft exhaust. Geophysical Research Letters, 25, 1685-1688.
Rickard, G.K. and R. Fulker, 1997: The Quality of Aviation Fuel Available in the United Kingdom, Annual Survey 1996. Technical Report DERA/SMC/SM1/TR970039, Defence Evaluation and Research Agency, Farnborough, Hampshire, United Kingdom, May 1997, 35 pp.
Rickey, J.E., 1995: The Effect of Altitude Conditions on the Particle Emissions of a J85-GE-5L Turbojet Engine. NASA-TM-106669, National Aeronautics and Space Administration, Lewis Research Center, Cleveland, OH, USA, February 1995, pp. 1-50.
Rizk, N.K. and D.A. Smith, 1994: Regional and Business Aircraft Mission Emissions. ASME-94-GT-300, American Society of Mechanical Engineers, New York, NY, USA, June 1994, 10 pp.
Rolls-Royce, 1992: The Jet Engine. Rolls-Royce plc, Derby, United Kingdom, 4th ed., 187 pp.
Rubbert, P.E., 1994: CFD and the Changing World of Airplane Design. ICAS 94-0.2, International Council on Aeronautical Sciences, BCAG, Anaheim, CA,USA, September 1994.
Rudey, R.A., 1975: Status of Technological Advancements for Reducing Aircraft Gas Turbine Pollutant Emissions. NASA-TMX-71846, National Aeronautics and Space Administration, Washington, DC, USA, December 1975.
Schlager, H.P., P. Schulte, and H. Ziereis, 1997: In situ measurements in aircraft exhaust plumes and in the North Atlantic flight corridor. In: Pollutants from Air Traffic: Results of Atmospheric Research 1992-1997 [Schumann, U. (ed.)]. DLR Mitteilung 97-04, ISBN 1434-8462, pp. 57-66.
Scholes, J., D. Stanley, and M. Kimble-Thom, 1998: Evaluation of Soy Diesel in Jet A as a Commercial Aircraft Fuel. Purdue University, Aviation Technology Department, Lafayette, IN, USA.
Schulte, P. and H. Schlager, 1996: Flight measurements of cruise altitude nitric oxide emissions indices of commercial jet aircraft. Geophysical Research Letters, 23, 165-168.
Schulte, P., H. Schlager, H. Ziereis, U. Schumann, S.L. Baughcum, and F., Deidewig, 1997: NOx emission indices of subsonic long-range jet aircraft at cruise altitude: in situ measurements and predictions. Journal of Geophysical Research, 102, 21431-21442.
Schumann, U., 1997: Pollution From Aircraft Emissions in the North Atlantic Flight Corridor (POLINAT). EUR 16978. Office for Publications of the European Communities, Luxembourg, ISBN 92-827-8569-6, 304 pp.
Schumann, U., J. Str�m, R. Busen, R. Baumann, K. Gierens, M. Krautstrunk, F.P. Schr�der, and J. Stingl, 1996: In situ observations of particles in jet aircraft exhausts and contrails for different sulfur-containing fuels. Journal of Geophysical Research, 101, 6853-6869.
Segalman, I., R.G. McKinney, G.J. Sturgess, and L. Huang, 1993: Reduction of NOx by fuel-staging in gas turbine engines-a commitment to the future. In: Fuel and Combustion Technology for Advanced Aircraft Engines. Paper No. 29, Advisory Group for Aerospace Research and Development Conference Proceedings, Propulsion and Energetics Panel, 81st Symposium, AGARD CP-536, Fiuggi, Italy, May 1993.
Seto, S.P. and T.F. Lyon, 1994: Nitrogen oxide emission characteristics of augmented turbofan engines. Journal of Engineering for Gas Turbines and Power, 116.
Shaw, R.J., L. Koops, and R. Hines, 1997: Progress Toward Meeting the Propulsion Technology Challenges for a 21st Century High-Speed Civil Transport. ISABE-97-7048, International Symposium on Airbreathing Engines, September 7-12, 1997.
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