APPENDIX I: LIST OF REFERENCES

1. American Society for Testing and Materials. 1997. Designation D 97 - 96a. Standard Test Method for Pour Point of Petroleum Products. Annual Book of ASTM Standards, 05.01, 73-80

2. American Society for Testing and Materials. 1992. Designation D 189. Test Method for Conradson Carbon Residue of Petroleum Products. Annual Book of ASTM Standards, 05.01, 112-117

3. American Society for Testing and Materials. 1997. Designation D 240. Standard Test Method for Heat of Combustion of Liquid Hydrocarbon Fuels by Bomb Calorimeter. Annual Book of ASTM Standards, 05.01, 130-137.

4. American Society for Testing and Materials. 1992. Designation D 396-92. Standard Specification for Fuel Oils. Annual Book of ASTM Standards, 05.01, 147-150.

5. American Society for Testing and Materials. 1992. Designation D 445-92. Standard Test Method for Kinematic Viscosity of Transparent and Opaque Liquids (and the Calculation of Dynamic Viscosity). Annual Book of ASTM Standards, 05.01, 154-159.

6. American Society for Testing and Materials. 1992. Designation D 482-91. Standard Test Method for Ash in Petroleum Products. Annual Book of ASTM Standards, 05.01, 182-183.

7. American Society for Testing and Materials. 1988. Designation D 524-88. Standard Test Method for Ramsbottom Carbon Residue of Petroleum Products. Annual Book of ASTM Standards, 05.01, 189-196.

8. American Society for Testing and Materials. 1990. Designation D 1298-85. Standard Practice for Density, Relative Density (Specific Gravity), or API Gravity of Crude Petroleum and Liquid Petroleum Products by Hydrometer Method. Annual Book of ASTM Standards, 05.01, 462-466.

9. American Society for Testing and Materials. 1992. Designation D 2880-90a. Standard Specification for Gas Turbine Fuel Oils. Annual Book of ASTM Standards, 05.02, 458-463.

10. American Society for Testing and Materials. 1997. Designation D 3228-96. Standard Specification for Total Nitrogen in Lubricating Oils and Fuel Oils by Modified Kjeldahl Method. Annual Book of ASTM Standards, 05.03, 294-296.

11. American Society for Testing and Materials. 1990. Designation D 4294-90. Standard Specification for Sulfur in Petroleum Products by Energy-Dispersive X-Ray Fluorescence Spectroscopy. Annual Book of ASTM Standards, 05.03, 336-338.

12. American Society for Testing and Materials. 1997. Designation D 4740-95. Standard Test Method for Cleanliness and Compatibility of Residual Fuels by Spot Test. Annual Book of ASTM Standards, 05.03, 40-42

13. ARMITAGE J.W., CULLIS C.F. 1971. Studies of the reaction between nitrogen dioxide and sulphur dioxide. Combustion and Flame, 16, 125-130.

14. BARTOK W., CRAWFORD A.R., SKOPP A. 1971. Control of NO_X emissions from stationary sources. Chemical Engineering Progress, 67, no. 2, 64-72.

15. BELLAN J., ELGOBASHI S. 1985. Fuel composition effects on high-temperature corrosion in industrial/commercial boilers and furnaces: a review. Journal of Engineering for Gas Turbines and Power, 107, 744-757.

16. BLANTON J.C., DURGIN G.A., PALKO J.E. 1983. Heavy fuels ash deposit formation and removal in water-cooled high temperature gas turbines. Journal of Engineering for Power, 105, 97-105.

17. BOLT J.A., SAAD M.A. 1957. Combustion rates of freely falling fuel drops in a hot atmosphere. 6^th Symposium (International) on Combustion. Williams and Wilkins, Baltimore (USA), 717-725.

18. BOWMAN C.T. 1979. Kinetics of pollutant formation and destruction in combustion. Progress in Engineering and Combustion Science. Pergamon Press Ltd.

19. BRADLEY D., MATTHEWS K.J. 1968. Measurement of high gas temperatures with fine wire thermocouples. Journal of Mechanical Engineering Science, 10, no 4, 299-305.

20. BROMLY J.H., BARNES F.J., LITTLE L.H. 1988. The effect of low levels of CO, H₂ and hydrocarbons on NO₂/NO ratios in heated gases. Journal of the Institute of Energy, 61, 89-97.

21. BURGESS A.R. 1990. Particulate formation in liquid fuel combustion. TOTeM2 (2^nd Topic Oriented Technical Meeting: Fuel Combustion Characterisation). International Flame Research Foundation, Paris (France), 1-8.

22. BURGESS A.R., GHAFFARI R. 1989. Pre-ignition phenomena and their effects on overall combustion rates of coal slurry droplets. Proceedings of the 22^nd Symposium (International) on Combustion. The Combustion Institute, Pittsburgh (USA), 2,009-2,018.

23. BURGESS A.R., LANGLEY C.J. 1991. The chemical structure of pre-mixed fuel-rich methane flames. Proceedings of the Royal Society. London (England), A 433, 1-21.

24. BURGESS A.R., MOLERO L.J. 1996. Combustion generated NO_X and SO₂ from heavy liquid fuels. Joint Meeting of the Portuguese, British, Spanish and Swedish Sections of The Combustion Institute. The Combustion Institute, Funchal (Portugal), 6.7.1-6.7.4.

25. CERNANSKY N.P., SAWYER R.F. 1974. NO and NO₂ formation in a turbulent hydrocarbon/air diffusion flame. 15^th Symposium (International) on Combustion. The Combustion Institute, Pittsburgh (USA), 1,039-1,050.

26. CHAGGER H.K., GODDARD P.R., MURDOCH P., WILLIAMS A. 1991. Effect of SO₂ on the reduction of NO_X by reburning with methane. Fuel, 70, 1,137-1,142

27. CHEN A.T, MALTE P.C., THORNTON M.M. 1984. Sulphur nitrogen interaction in stirred flames. 20^th Symposium (International) on Combustion. The Combustion Institute, Pittsburgh (USA), 769-777.

28. CLAYTON R.M., BACK L.H. 1989. Physical and chemical characteristics of cenospheres from the combustion of heavy fuel oils. Journal of Engineering for Gas Turbine and Power, 111, 679-684.

29. COMMISSION OF THE EUROPEAN COMMUNITIES. 1988. 88/609/EEC: Council Directive of 24 November 1988 on the limitation of emissions of certain pollutants into the air from large combustion plants. Official Journal no L 336, 07/12/1988 P. 0001.

30. COMMISSION OF THE EUROPEAN COMMUNITIES. 1997. Proposal for a Council Directive relating to a reduction of the sulphur content of certain liquid fuels and amending Directive 93/12/EEC. Office for Official Publications of the European Communities, Luxembourg, 1-81.

31. CORLEY T.L., WENDT J.O.L. 1984. Postflame behavior of nitrogenous species in the presence of fuel sulphur: II. Rich, CH₄/He/O₂ flames. Combustion and Flame, 58, 141-152.

32. COURTEMANCHE B., LEVENDIS Y.A. 1997. NO-NO₂ emissions from the combustion of solid fuels. Proceedings of the 22^nd International Technical Conference on Coal Utilisation & Fuel Systems, Clearwater (USA), 827-838.

33. COWELL L.H., WEN C.S., LeCREN R.T. 1992. Experimental evaluation of sorbents for sulphur control in a coal-fuelled gas turbine slagging combustor. Journal of Engineering for Gas Turbines and Power, 114, 152-158.

34. CULLIS C.F., HENSON R.M., TRIMM D.L. 1966. The kinetics of the homogeneous gaseous oxidation of sulphur dioxide. Proceedings of the Royal Society, London (England), A 295, 72-83.

35. CULLIS C.F., MULCAHY M.F.R. 1972. The kinetics of combustion of gaseous sulphur compounds. Combustion and Flame, 18, 225-292.

36. CUNNINGHAM A.T.S. 1978. The reduction of atmospheric pollutants during the burning of heavy fuel oil in large boilers. Journal of the Institute of Fuel, 51, 20-29.

37. CUNNIGNHAM A.T.S., DATSCHEFSKI G. 1981. The effects of heavy fuel oil composition on particulate emissions from power station boilers. The Heavy End of the Barrel-Future Trends in Oil Firing, Institute of Energy Symposium, The Institute of Energy, Portsmouth (England), 126-146.

38. DOOLEY R.B., WILSON J.R. 1975. The corrosion of a 50Cr-50Ni alloy in liquid vanadate systems in the temperature range 750-950 °C. Journal of Engineering for Power, 97, 422-428.

39. DRYER F.L. 1977. Water addition to practical combustion systems - concepts and applications. 16^th Symposium (International) on Combustion. The Combustion Institute, Pittsburgh (USA), 279-295.

40. DRYER F.L., KERHO S.E. 1987. An overview on carbon formation in heavy oil combustion. Princeton University-Electric Power Technologies Inc report, 1-42.

41. DURIE R.A., JOHNSON G.M., SMITH M.Y. 1971. The effect of sulphur dioxide on hydrogen-atom recombination in the burnt gas of premixed fuel-rich propane-oxygen-nitrogen flames. Combustion and Flame, 17, 194-203.

42. EDISS B.G. 1987. A gas turbine binary cycle. Patent Specification 2,187,273 A. The Patent Office, The British Library, London (England), 1-6.

43. Esso Research and Engineering Company. 1969. Improvements in gas turbine engines. Patent Specification 1,140,757. The Patent Office, The British Library, London (England). 1-7.

44. FELDMAN N. 1982. Control of residual fuel oil particulate emissions by additives. 19^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 1,387-1,393.

45. FENIMORE C.P. 1971. Formation of nitric oxide in premixed hydrocarbon flames. 13^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 373-380

46. FENIMORE C.P. 1972. Formation of nitric oxide from fuel nitrogen in ethylene flames. Combustion and Flame, 19, 289-296.

47. FOSTER A.D. 1970. Gas turbine fuel specifications. General Electric gas turbine state of the art engineering seminar, 5-12/B-1, B-11.

48. GILLS BG. 1973. Production and emission of solids, SO_X and NO_X from liquid fuel flames. Journal of the Institute of Fuel, 46, 71-76.

49. GLASSMAN I. 1986. Combustion. Academic Press Publisher, Orlando.

50. GLASSMAN I. 1988. Soot formation in combustion processes. 22^nd Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 295-311.

51. GOLDSTEIN H.L., SIEGMUND W. 1976. Influence of heavy oil composition and boiler combustion conditions on particulate emission. Environmental Science and Technology, 10, no. 12, 1,109-1,114.

52. GOLLAHALLI S.R. 1979. An experimental study of the combustion of unsupported drops of residual oils and emulsions. Combustion Science and Technology, 19, 245-250.

53. GOLLAHALLI S.R., SALEK M. 1983. Combustion of drops and sprays of heavy fuel oil and their emulsions. 15^th International Congress on Combustion Engines, Gas Turbines, 115-140.

54. GRAVILLE S. 1993. Pollutant formation in the combustion of heavy fuel oil. PhD thesis, The University of London, London (England).

55. GUPTA A.K., LILLEY D.G. 1992. Review: The environmental challenge of gas turbines. Journal of The Institute of Energy, 65, 106-117.

56. HALBGEWACHS M.J., DIAU E.W.G., MEBEL A.M., LIN M.C. 1997. Thermal reduction of NO by NH₃: kinetic modelling of the NH₂+NO product branching ratio. 26^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 2,109-2,115.

57. HALSTEAD C.J., JENKINS D.R. 1969. Sulphur-dioxide-catalysed recombination of radicals in premixed fuel-rich hydrogen + oxygen + nitrogen flames. Transactions of the Faraday Society, 65, 3,013-3,022.

58. HAMPARTSOUMIAN E., NIMMO W., CLARKE A.G., WILLIAMS, A. 1991. The formation of NH₃, HCN and N₂O in an air-staged fuel oil flame, Combustion and Flame, 85, 499-504.

59. HAMPARTSOUMIAN E., NIMMO W. 1995. An experimental investigation of sulphur-nitrogen interactions in turbulent spray flames. Combustion Science and Technology, 110-111, 487-504.

60. HARMAN R.T. 1981. Gas turbine engineering: Applications, cycles and characteristics. Macmillan Publisher, London (England).

61. HARRIS B.W. 1990. Conversion of sulfur dioxide to sulfur trioxide in gas turbine exhaust. Journal of Engineering for Gas Turbine and Power, 112, 585-589.

62. HARGREAVES K.J.A., HERVEY R., ROPER F.G., SMITH D.B. 1981. Formation of NO₂ by laminar flames. 18^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 133-142.

63. HEDLEY A, 1967. Factors affecting the formation of sulphur trioxide in flame gases. Journal of the Institute of Fuel, 40, 142-151.

64. HORI, M. 1988. Nitrogen dioxide by the mixing of hot combustion gas with cold air. 22^nd Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 1,175-1,181.

65. HORI M., MATSUNAGA N., MALTE P.C., MARINOV N.M. 1992. The effect of low-concentration fuels on the conversion of nitric oxide to nitrogen dioxide. 24^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 909-916.

66. HUNTER S.C. 1982. Formation of SO₃ in gas turbines. Journal of Engineering for Power, 104, 44-51.

67. INCO (International Nickel Corporation) Alloys. Private communication.

68. JAASMA D., BORMAN G. 1980. Peculiarities associated with the measurement of oxides of nitrogen produced by diffusion flames. Combustion Science and Technology, 23, 89-92.

69. JEFFRIES J.B., CROSLEY D.R. 1986. Laser-induced fluorescence detection of the NS radical in sulphur and nitrogen doped methane flames. Combustion and Flame, 64, 55-64.

70. John Brown Engineering. Ash bearing fuel oil, A fuel for heavy duty gas turbines. 1-8.

71. JORDAN J.B., WILLIAMS A. 1981. Fuel oil - water emulsions. The Heavy End of the Barrel-Future Trends in Oil Firing, Institute of Energy Symposium, The Institute of Energy, Portsmouth (England), 56-73.

72. KALLEND A.S. 1972. Kinetics of the sulphur catalyzed recombination of radicals in hydrogen flames. Combustion and Flame, 19, 227-236.

73. KELLY F.T., LIDDY J.P., SUTHERLAND H., SUTTON G.W., WHITEHEAD E.V. 1989. Clean combustion of heavy fuels. Erdöil und Kohle - Erdgas - Petrochemie vereinigt mit Brennstoff - Chemia, 10, 408-412.

74. KESTEN A.S., SANGIOVANNI J.J., GOLDBERG P. 1980. Conceptual examination of gas phase particulate formation in gas turbine combustors. Journal of Engineering for Power, 102, 613-618.

75. KING K., SPINK C.D., CLARK C.J., COWLEY L.T. 1981. The relationship between residual fuel oil composition and particulate emissions from packaged boilers. The Heavy End of the Barrel-Future Trends in Oil Firing, Institute of Energy Symposium, The Institute of Energy, Portsmouth (England), 108-125.

76. LAW C.D. 1989. Some recent advances in droplet combustion. Proceedings of the Third Colloquium on Drops and Bubbles, AIP Conference Proceedings 197. Ed. by T.G. Wang, 321-337.

77. LAWTON S.A. 1989. The effect of sulphur dioxide on soot and polycyclic aromatic hydrocarbon formation in premixed ethylene flames. Combustion and Flame, 75, 175-181.

78. LEE S.Y., DeCORSO S.M., YOUNG W.E. 1971. Laboratory procedure for evaluating high-temperature corrosion resistance of gas turbine superalloys. Journal of Engineering for Power, 93, 313-320.

79. LEE S.Y., YOUNG W.E. 1976. Gas turbine hot-stage parts in aggressive atmospheres. Journal of Engineering for Power, 98, 540-546.

80. LEE S.Y., YOUNG W.E., HUSSEY C.E. 1972. Environmental effects on the high temperature corrosion of superalloys in present and future gas turbines. Journal of Engineering for Power, 94, 149-153.

81. LEE S.Y., YOUNG W.E., VERMES G. 1973. Evaluation of additives for prevention of high temperature corrosion of superalloys in gas turbines. Journal of Engineering for Power, 95, 333-339.

82. LIGHTMAN P., STREET P.J. 1981. The chemistry and physics of heavy oil combustion. The Heavy End of the Barrel-Future Trends in Oil Firing, Institute of Energy Symposium, The Institute of Energy, Portsmouth (England), 44-55.

83. LIGHTMAN P., STREET P.J. 1983. Single drop behaviour of heavy fuel oils and fuel oil fractions. Journal of the Institute of Energy, 56, 3-11.

84. LYON R.K., COLE J.A., KRAMLICH J.C., CHEN S.L. 1990. The selective reduction of SO₃ to SO₂ and the oxidation of NO to NO₂ by methanol. Combustion and Flame, 81, 30-39.

85. MALIK N.H. 1986. Combustion of single droplets of multicomponent fuels. Ph D thesis, The University of London, London (England).

86. MALIK N.H., BURGESS A.R. 1985. Ignition of single droplets of multicomponent fuels. I. Chem. E. Symp. Series, 94, 577-581.

87. MALTE P.C., KRAMLICH J.C. 1980. Further observations of the effect of sample probes on pollutant gases drawn from flame zones. Combustion Science and Technology, 22, 263-269.

88. Manual of operation of the UCL drop-tube furnace. 1995. Ed. LJ Molero. Department of Chemical and Biochemical Engineering, University College London, London (England).

89. MARCANO N.M. 1992. Combustion of bitumen-in-water emulsion. PhD Thesis, The University of Leeds, Leeds (England).

90. MARRONE N.J., KENNEDY I.M., DRYER F.L. 1984. Coke formation in the combustion of isolated heavy oil droplets. Combustion Science and Technology, 36, 149-170.

91. MASDIN E.G., ESSENHIGH R.H. 1958. Burning times of liquid fuel drops in a convection-radiation field. Combustion and Flame, 2, 443-446.

92. MASDIN E.G., THRING M.W. 1962. Combustion of single droplets of liquid fuel. Journal of the Institute of Fuel, 6, 251-260.

93. MAY W.R., ZETLMEISL M.J., ANNAND R.R. 1975. High-temperature corrosion in gas turbines and steam boilers by fuel impurities. Part V: Lead containing slags. Journal of Engineering for Power, 97, 441-447.

94. MAY W.R., ZETLMEISL M.J., ANNAND R.R. 1976. High temperature corrosion in gas turbines and steam boilers by fuel impurities. Part VI: A statistical study of the effects of sodium, temperature and additive on corrosion rates and slag friability. Journal of Engineering for Power, 98, 506-510.

95. MAY W.R., ZETLMEISL M.J., ANNAND R.R. 1976. High temperature corrosion in gas turbines and steam boilers by fuel impurities. Part VII: Evaluation of magnesium-aluminium-silicon combinations as corrosion inhibitors. Journal of Engineering for Power, 98, 511-516.

96. MERRYMAN E.L., LEVY A. 1974. Nitrogen oxide formation in flames: the roles of NO₂ and fuel nitrogen. 15^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 1,073-1,083.

97. MILLER J.A., BOWMAN C.T. 1989. Mechanism and modelling of nitrogen chemistry in combustion. Progress in Energy and Combustion Science, 15, 287-338.

98. MOLERO L.J. 1990. Particulate formation in the combustion of heavy fuel oil. MSc Thesis, University of London, London (England).

99. MOLERO L.J., BURGESS A.R. 1998. Interaction of pollutants during the combustion of Orimulsion. Submitted to the 27^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA).

100. MUZIO L.J., ARAND J.K. 1977. Gas phase decomposition of nitric oxide in combustion products. 16^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 199-208.

101. NAJJAR Y.S.H. 1982. Combustor liner temperatures in the gas turbine using heavy fuels. Journal of the Institute of Energy, 55, 187-194.

102. NAJJAR Y.S.H. 1982. Some performance characteristics of the gas turbine combustors using heavy fuels. Journal of the Institute of Energy, 55, 195-200.

103. NAJJAR Y.S.H. 1986. A developed model for the prediction of soot formation and oxidation in the gas turbine. Journal of the Institute of Energy, 148, 148-153.

104. NATARAJAN R. 1979. Combustion of multi-component liquid fuel drops. Fuel, 58, 815-818.

105. NIMMO W., HAMPARTSOUMIAN E., SEDIGHI K., WILLIAMS A. 1991. Control of NO_X emissions by combustion-air staging: the measurement of NH₃, HCN, NO and N₂O concentrations in fuel-oil flames. Journal of the Institute of Energy, 64, 128-134.

106. NIMMO W., RICHARDSON J., HAMPARTSOUMIAN E. 1995. The effect of fuel-nitrogen functionality on the formation of NO, HCN and NH₃ in practical liquid-fuel flames, Journal of the Institute of Energy, 68, 170-177.

107. PATARINI V., BORNSTEIN N.S., DeCRESCENTE M.A. 1979. Hot corrosion of gas turbine components. Journal of Engineering for Power, 101, 177-185.

108. PERRY R.H., GREEN D. 1984. Perry's Chemical Engineer's Handbook. Published by McGraw-Hill Book Co., 3-248.

109. PFEFFERLE L.D., CHURCHILL S.W. 1986. NO_X production from the combustion of ethane doped with ammonia in a thermally stabilised plug flow burner. Combustion Science and Technology, 49, 235-249.

110. PFEFFERLE L.D., CHURCHILL S.W. 1989. Effect of fuel sulphur on nitrogen oxide formation in a thermally stabilised plug-flow burner. Industrial Engineering Chemical Research, 28, 1,004-1,010.

111. RAIMBAULT C. 1995. Overview heavy fuels. TOTeM11 (Topic Oriented Technical Meeting: Liquid Fuels: Heavy oils, wastes and slurries), International Flame Research Foundation, Biarritz (France), 1-22.

112. READER C. 1990. A new fuel arrives - Orimulsion. Petroleum Review, The Institute of Petroleum, 81-83.

113. Repsol Petróleo S.A. 1995. Private communication.

114. SANO T. 1985. NO₂ formation in the mixing region of hot burned gas with cool air - effect of surrounding air. Combustion Science and Technology, 43, 259-269.

115. SARV H., NIZAMI A.A., CERNANSKY N.P. 1983. Droplet size effects on NO_X formation in a one-dimensional monodisperse spray combustion system. Journal of Engineering for Power, 105, 791-796.

116. SAWYER R.F. 1969. Fundamental processes controlling the air pollution emissions from turbojet engines. AIAA paper 69-1040, AIAA 6^th Annual Meeting and Technical Display, 1-7.

117. SAWYER R.F., STARKMAN E.S. 1968. Gas turbine exhaust emissions. Society of Automotive Engineers paper no. 680462, 1-8.

118. SHAW H. 1973. Reduction of nitrogen oxide emissions from a gas turbine combustor by fuel modifications. Journal of Engineering for Power, 95, 301-308.

119. SINGH P.P., MULIK P.R., COHN A. 1983. Effect of using emulsions of high N containing fuels and water in a gas turbine combustor on NO_X and other emissions. Journal of Engineering for Power, 105, 430-437.

120. SINGH P.P., YOUNG W.E., AMBROSE. 1972. Formation and control of oxides of nitrogen emissions from gas turbine combustion systems. Journal of Engineering for Power, 94, 271-278.

121. SMART J.P., ROBERTS P.A., de SOETE G.G. 1990. The formation of nitrous oxide in large-scale pulverised-coal flames. Journal of the Institute of Energy, 63, 131-135.

122. SONG Y., BLAIR D., SIMINSKI V., BARTOK W. 1981. Conversion of fixed nitrogen to N₂ in rich combustion, 18^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), Pittsburgh, 53-63.

123. SPENGLER C.J., LEE S.Y. 1983. An approach to the corrosion and deposition evaluation of various turbine fuels: A laboratory rig for gas turbine simulation. CIMAC Congress, Paris (France), 533-558.

124. Technical data on Fuel, 7^th Edition. 1977. The British National Committee, World Power Conference. London (England). Edited by H.M. Spiers.

125. STARKMAN E.S., MIZUTANI Y., SAWYER R.F., TEIXEIRA D.P. 1971. The role of chemistry in gas turbine emissions. Journal of Engineering for Power, 93, 333-344.

126. STEINBERG M., SCHOFIELD K. 1990. The chemistry of sodium and sulfur in flames. Progress in Energy and Combustion Science. Pergamon Press Ltd, 16, 311-317.

127. STEVENS C.G., TIDY D. 1981. The mechanism of deposition of fuel-derived sodium in gas turbines. Journal of the Institute of Energy, 54, 3-11.

128. STEVENS C.G., TIDY D. 1983. The mechanism of deposition of vanadium, sodium and magnesium under gas turbine conditions. Journal of the Institute of Energy, 56, 12-19.

129. TANG S.K., CHURCHILL S.W., LIOR N. 1981. The effect of fuel-sulfur on NO_X formation in a refractory burner. AIChE Symposium Series, Trends in Air Pollution Control, 77-85.

130. TAYLOR R.A., BURGESS A.R. 1988. Particulate formation in fuel oil combustion. Fuel Science & Technology International, 6(1), 43-81.

131. TESNER P.A., SNEGIRIOVA T.D., KNORRE V.G. 1971. Kinetics of dispersed carbon formation. Combustion and Flame, 17, 253-260.

132. TOOF J.L. 1986. A model for the prediction of thermal, prompt and fuel NO_X emissions from combustion turbines. Journal of Engineering for Gas Turbines and Power, 108, 340-347.

133. TORT F., BERNASCONI C. 1995. Analytical characterisation of heavy liquid fuels. TOTeM11 (Topic Oriented Technical Meeting: Liquid Fuels: Heavy oils, wastes and slurries), International Flame Research Foundation, Biarritz (France), 1-41.

134. TSEREGOUNIS S., SMITH O. 1983. Enhancement of fuel-nitrogen oxidation by fuel-sulphur in fuel-rich flames. Combustion Science and Technology, 30, 231-239.

135. TSEREGOUNIS S., SMITH O. 1984. An experimental investigation of fuel sulphur-fuel nitrogen interactions in low pressure premixed flames. 20^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 761-768.

136. TUTTLE J.H., COLKET M.B., MELLOR A.M. 1976. Characteristic time correlations of emissions from conventional aircraft type flames. Report no. PURD-CL-76-05. Purdue University and Environmental Protection Agency, 1-133.

137. URBAN D.L., DRYER F.L. 1990. New results in coke formation in the combustion of heavy fuel droplets. 23^rd Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 1,437-1,443.

138. URBAN D.L., DRYER F.L. 1990. Relationship of the Coke Formation Index to heavy fuel oil properties. Joint Meeting of the Western States and Canadian Section of the Combustion Institute, The Combustion Institute, Banff (Canada), 1-5.

139. URBAN D.L., DRYER F.L. 1990. Formation of coke particulate in the combustion of residual oil. Particle size and mass prediction from initial droplet parameters. AIAA/ASME Thermodynamics and Heat Transfer Conference Session on Heat Transfer in Practical Combustion Systems. Seattle (USA), 1-7.

140. WENDT J.O.L., EKMANN J.M. 1975. Effect of fuel sulfur species on nitrogen oxide emissions from premixed flames. Combustion and Flame, 25, 355-360.

141. WENDT J.O.L., MORCOMB J.T., CORLEY T.L. 1979. Influence of fuel sulphur on fuel nitrogen oxidation mechanism. 17^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 671-678.

142. WENDT J.O.L., STERNLING C.V. 1973. Catalysis of SO₂ oxidation by nitrogen oxides. Combustion and Flame, 21, 387-390.

143. WENDT J.O.L., WOOTAN E.C., CORLEY T.L. 1983. Postflame behavior of nitrogenous species in the presence of fuel sulfur. I. Rich, moist, CO/Ar/O₂ flames. Combustion and Flame, 49, 261-274.

144. WHITE D.J., BATAKIS A., LeCREN R.T., YACOBUCCI H.G. 1982. Low NO_X combustion systems for burning heavy residual fuels and high-fuel-bound nitrogen fuels. Journal of Engineering for Power, 104, 377-385.

145. WHITEHEAD E.V. 1981. Fuel oil chemistry. The Heavy End of the Barrel-Future Trends in Oil Firing, Institute of Energy Symposium, The Institute of Energy, Portsmouth (England), 16-43.

146. WHITEHEAD D.M., FINN J.C., BEADLE P.C. 1983. Studies related to residual fuel oil composition and the formation and burnout of particulates during combustion. Erdgas-Petrochemie vereignigt mit Brennstoff-Chemie, Bd 36, Heft 12, 577-581.

147. WHITLOW G.A., LEE S.E., MULIK P.R., WENGLARZ R.A., SHERLOCK T. P. 1983. Combustion turbine deposition observations from residual and simulated residual oil studies. Journal of Engineering for Power, 105, 88-96.

148. WILLIAMS A. 1976. Combustion of sprays of liquid fuels. Paul Elek Publishers.

149. WILLIAMS A. 1979. Fundamentals of oil combustion. Energy and Combustion Science. Pergamon Press Ltd., 135-147.

150. YEN T.F. 1974. Structure of petroleum asphaltene and its significance. Energy Sources, 1, 447-463.

151. ZACHARIAH M.R., SMITH O.I. 1987. Experimental and numerical studies of sulphur chemistry in H₂/O₂/SO₂ flames. Combustion and Flame, 69, 125-139.

152. ZAMANSKY V. M., HO L., MALY P.M., SEEKER W.R. 1996. Gas phase reactions of hydrogen peroxide and hydrogen peroxide/methanol mixtures with air pollutants. 26^th Symposium (International) on Combustion, The Combustion Institute, Pittsburgh (USA), 1-21.

153. ZELDOVICH Y. 1947. The oxidation of nitrogen in combustion and explosions. Acta Physicochimica USSR, 21, no 4, 577-628.

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