Abstract
Previous chapters have indicated that petroleum, the main source material for aviation fuels, must be expected to approach exhaustion within the next few decades, and that comparable fuels may well be derivable from such alternative sources as shale, tar and coal. Much development work awaits completion before these ‘alternative-source’ fuels become available in sufficient economic quantities to supplement effectively the conventional aviation gasolines and kerosines. Furthermore, the price differential will clearly remain unfavourable until quantity production is established and, probably, conventional fuels continue to become more expensive.
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12.8 References
W. L. Lom and A. F. Williams, Substitute Natural Gas, Applied Science Publishers, London, 1976
T. Gold and S. Soter, ‘The deep-earth-gas hypothesis’, Scientific American, Vol. 242, June 1980, pp. 154–62
W. L. Lom, Liquefied Natural Gas, Applied Science Publishers, London, 1974
K. E. Cox and K. D. Williamson, Hydrogen: its Technology and Implications. Vol. 1, Hydrogen production technology, CRC Press, Cleveland, Ohio, 1977
Symposium on Hydrogen in Air Transportation, DGLV/DFVLR, Stuttgart, September 1979
M. S. Casper (ed.), Hydrogen manufacture by electrolysis, thermal decomposition and unusual techniques, Noyes Data Corporation, New Jersey, 1978
C. A. McAuliffe, Hydrogen and Energy, Macmillan, London, 1980
L. O. Williams, Hydrogen Power, Pergamon, Oxford, 1980
C. Marchetti, ‘Hydrogen and energy’, Chemical Economy Engineering Review, January 1973, pp. 7–25
K. Goddard, ‘Liquid fuels from biomass’, Chart. Mech. Engr., Vol. 26, 1979, pp. 33–5
M. Calvin, ‘Petroleum plantations’, US Dept. of Energy, Energy Technology Conference, Washington D.C., 1978
N. P. W. Moore and B. N. Roy, ‘Comparative studies of methane and propane as engine fuels’, Proc. I. Mech. E., Vol. 170, No. 40, 1956, pp. 1157–72
Private communication, Beech Aircraft Corporation, Wichita, Kansas 67201–0085
R. J. Weber, Research in USA on LNG as an airplane fuel, NASA TM X-52821. October 1970
P. G. Parikh, R. F. Sawyer and A. L. London, ‘Pollutants from methane fueled gas turbine combustors’, J. Eng. for Power, Trans. ASME, April 1973, pp. 97–104
R. W. Graham and A. J. Glassman, Some advantages of methane in an aircraft gas turbine, NASA TM 81559, October 1980
Anon., ‘Cheaper flying with LPG says Aerospatiale’, Flight International, 12 June 1982, pp. 1513–14
M. Smyth, ‘What role for LPG in petrol crises?’, Engineers Australia, 10 August 1979, pp. 15–16
S. Kajita, J. Kitajima and T. Kimura, Combustion of methane and liquefied butane in a gas turbine combustor, ASME 81-GT-50
E. M. Goodger, Alternative Fuels for Transport, Alternative Fuel Technology Series, Vol. 1, Cranfield Press, Cranfield, 1981
Lewis Laboratory Staff, Hydrogen for turbojet and ramjet powered flight, NACA RM E 57D23, April 1957
C. F. Baerst and J. C. Riple, ‘Preliminary studies of a turbofan engine and fuel system for use with liquid hydrogen’, Symposium on Hydrogen in Air Transportation, DGLR/DFVLR, Stuttgart, September 1979
G. D. Brewer, ‘A plan for active development of LH2 for use in aircraft’, Int. J. Hydrogen Energy, Vol. 4, 1979, pp. 169–77
R. D. Witcofski, Comparison of alternate fuels for aircraft, NASA TM 80155, September 1979
C. Joyce, ‘Can aircraft fly on alcohol?’, New Scientist. 24 September 1981, pp. 790–3
Anon., ‘1200 miles on alcohol’, Flight International, 17 July 1982, p. 127
R. C. Farmer, ‘Methanol a new fuel source?’, Gas Turb. Int., Vol. 16, 1975, pp. 38–40
L. W. Huellmantel, S. G. Liddle and D. C. Hammond, ‘Combustion of methanol in an automotive gas turbine’, Int. Symp. on Alcohol Fuel Technology, Wolfsburg, W. Germany, 1977
A. T. Bruno, ‘Peanuts: people’s paté to gourmet’s delight’, Reader’s Digest, September 1978, pp. 107–10
E. S. Starkman, H. K. Newhall, R. Sutton, T. Maguire and L. Farbar, Ammonia as a spark-ignition engine fuel: theory and applications, SAE 660155, 1966
J. W. Hodgson, ‘Alternate fuels for transportation, Part 3, Ammonia for the automobile’, Mech. Eng., Vol. 96, 1974, pp. 22–35
N. C. Kailos, Utilization of ammonia as an alternate fuel in army aircraft engines, Tech. Report No. USAAVLABS-TR-66–52, June 1966
F. J. Verkamp, ‘Ammonia combustion properties and performance in gas turbine burners’, 11th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, Pennsylvania, 1967
Anon., Development of an ammonia-burning gas turbine engine, Solar (International Harvester) Report ER 1584–2, 3 April 1968
E. W. Schmidt, ‘Hydronitrogens as future automobile fuels’, in J. M. Calucci (ed.), Future Automotive Fuels, Plenum Press, New York and London, 1977, pp. 320–41
E. S. Starkman, ‘Nitroparaffins as a potential engine fuel’, Ind. Eng. Chem., Vol. 51, 1959, pp. 1477–80
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© 1985 Eric Goodger and Ray Vere
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Goodger, E., Vere, R. (1985). Aviation Fuel Substitutes. In: Aviation Fuels Technology. Palgrave, London. https://doi.org/10.1007/978-1-349-06904-0_12
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DOI: https://doi.org/10.1007/978-1-349-06904-0_12
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