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References and Further Readings                                 225

            17. Galbreath KC, Zygarlicke CJ (1996) Mercury speciation in coal combustion and gasification
               flue gases. Environ Sci Technol 38(8):2421–2426
            18. Gelencser A (2004) Carbonaceous aerosol. Springer, Berlin 350
            19. Glarborg P, Miller JA, Kee RJ (1986) Kinetic modeling and sensitivity analysis of nitrogen
               oxide formation in well stirred reactors. Combust Flame 65:177–202
            20. Glarborg P (1993) NOx chemistry in pulse combustion. In: Workshop on pulsating
               combustion and its applications. Lund, Sweden, August 1993
            21. Habib MA, Elshafei M, Dajani M (2008) Influence of combustion parameters on NO x
               production in an industrial boiler. Comput Fluids 37:12–23
            22. Harris SJ, Weiner AM, Ashcraft CC (1986) Soot particle inception kinetics in a premixed
               ethylene flame. Combust Flame 64:65–81
            23. Harvey D (2014) UCDavis ChemWiki. http://chemwiki.ucdavis.edu/Analytical_Chemistry/
               Analytical_Chemistry_2.0/08_Gravimetric_Methods/8C_Volatilization_Gravimetry. accessed
               12 June 2014
            24. Hayhurst AN, Vince IM (1980) Nitric oxide formation from N 2 in flames: the importance of
               ‘prompt’ NO, progress in energy combust. Science 6:35–51
            25. Haynes BS, Wagner H (1981) Soot formation. Prog Energy Combust Sci 7(4):229–273
            26. Heinsohn R, Kabel R (1999) Sources and control of air pollution. Prentice Hall, Upper Saddle
               River
            27. Higman C, van Burgt M (2008) Coal gasification 2nd edn. Gulf Professional Publishers,
               Houston
            28. Homann KH (1984) Formation of large molecules, particulates, and ions in premixed
               hydrocarbon flames; progress and unresolved questions. Proc Combust Inst 20:857–870
            29. Hupa M, Backman F, Bostroem S (1989) Nitrogen oxide emissions of biolers in Finland. J Air
               Pollut Control Assoc 39:1496–1501
            30. Kobayashi H, Howard JB, Sarofim AF (1976) Coal devolatilization at high temperatures. In:
               16th symposium (Int’l.) on combustion, The Combustion Institute, Symposium (International)
               on Combustion (16th), held at The Massachusetts Institute of Technology, Cambridge,
               Massachusets, 15–20 August 1976
            31. Linak WP, Miller CA, Seames WS, Wendt JOL, Ishinomori T Endo Y, Miyamae S (2002) On
               trimodal particle size distributions in fly ash from pulverized-coal combustion. Proc Combust
               Inst 29:441–447
            32. Malte PC, Pratt DT (1975) Measurement of atomic oxygen and nitrogen oxides in jet-stirred
               combustion. Proc Combust Inst 15:1061–1070
            33. Martin GB, Berkau EE (1971) An investigation of the conversion of various fuel nitrogen
               compounds to nitrogen oxides in oil combustion. In: 70th National American Institute of
               Chemical Engineers Meeting, Atlantic City, N. J., August, 1971
            34. Mauss F, Schafer T, Bockhorn H (1994) Inception and growth of soot particles in dependence
               on the surrounding gas phase. Combust Flame 99(3–4):697–705
            35. Merdes AC, Keener TC, Khang S-J, Jenkins RG (1998) Investigation into the fate of mercury
               in bituminous coal during mild pyrolysis. Fuel 77(15):1783–1792
            36. Migule AH, Kirchstretter TW, Harley RA, Hering SV (1998) On-road emissions of particulate
               polycyclic aromatic hydrocarbons and black carbon from gasoline and diesel vehicles. Environ
               Sci Technol 32:450–455
            37. Miller JA, Branch MC, McLean WJ, Chandler DW, Smooke MD, Lee RJ (1984) The
               conversion of HCN to NO and N 2 in H 2 –O 2 –HCN–Ar flames at low pressure. In: Twentieth
               symposium (International) on combustion, The Combustion Institute, pp 673–684
            38. Pfefferle LD, Bermudez G, Byle J (1994) Benzene and higher hydrocarbon formation during
               allene pyrolysis. In: Bockhorn H (ed) Soot formation in combustion. Springer, Berlin
            39. Ratafia-Brown J (1994) Overview of trace element partitioning in flames and furnaces of
               utility coal-fired boilers. Fuel Process Technol 39:139–157
            40. Senior CL et al (1998) Toxic substances from coal combustion—a comprehensive assessment.
               In: Proceedings of the 15th annual international Pittsburgh coal conference, Pittsburgh, PA,
               USA, Sept 1998
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