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Show burner manufacturer who apparently has little monetary gain from taking on the added emissions guarantee challenges, and certainly not guaranteeing emissions lower than the environmental permit requires solely for the purpose of someone else selling emissions credits on a mercantile exchange, without profiting form the sale of those credits as well. Flame trajectory dynamics and flame chemistry measurement technology is being advanced at a exciting rate. Combustion technologists are leading the way in this highly beneficial transition to cleaner air. REFERENCES [1]. Proposed Revision of the Standards of Performance for NOx Emissions from New Fossil-Fuel Fired Steam Generating Units; Proposed Revisions to Reporting Requirements for Standards of Performance for New Fossil-Fuel Fired Steam Generating Units; Proposed Rule, U.S. Environmental Protection Agency, Federal Register, Vol. 62, No. 131, pp36948-36963, July 9,1997. [2]. Code of Federal Regulations, Protection of the Environment, Section 40, part 60. [3]. Bloomer, J.J., Industrial Combustion Coordinated Rulemaking - The Development of Future Combustion Emissions Regulations, American Flame Research Committee, 1997 International Symposium, Sept. 1997. [10]. Zabielski, M.F., Woody, B.A., and Hollick, H.H., NOx Chemistry in Natural Gas Flames, United Technologies Research Center, for the Gas Research Institute No. 93/0043, December, 1992. [11]. Latham, C.E., Engelhardt, D.A., and Sommer, T.M., Reburn Technology - A Commercial Update, Power-Gen International, Dec !997. [12]. Rostorfer, C.R., Krueger, S., Middleton, C, Morrison, D.K., Sommer, T.M., and Latham, C.E., Demonstration of Orimulsion Reburning on a Coal-fired Utility Boiler, Power-Gen International, Dec 1997. [13]. Browner, CM., EPA's Proposed Regional Strategy to Reduce Ozone across the Eastern U.S., U.S. EPA letter to The Honorable Frank O'Bannon, Oct 10,1997. [14]. Gaydon, A.G., and Wolfhard, H.G., Flames; Their Structure, Radiation and Temperature, Chapman and Hall, Ltd., London, 1960, pp 161-174. [15]. Vogt, R.L., Boiler Benefits from Precision Flame Shaping, Power-Gen International, Dec 1997. [16]. Lewis, B., and von Elbe,G., Combustion, Flames and Explosions of Gases, Academic Press, Inc., London and N e w York, 1961, pp 228-232. [4]. Implementation of Ozone and Particulate Matter National Air Quality Standards and Regional Haze Regulations, U.S. Environmental Protection Agency, Federal Register pp57158-57159, Vol. 62, No. 209, Oct 29,1997. [5]. Varga, G.M., Future Industrial Combustion: A Vision of Improved Productivity and Product Quality, American Flame Research Committee, 1997 International Symposium, Sept. 1997. [6]. Vogt, R.L., Advanced Flame Shaping Technology. A B M A , Industrial Boiler Conference, Sept 97. [7]. Fenimore, C.P., Chemistry in Premixed Flames, The Macmillan Company, N e w York, 1964, ppl 1-59. [17]. Passell, P., Trading on the Pollution Exchange, The N e w York Times, October 24, 1997, p D1&4. [18]. Walsh, C, A clean swap, Emissions trade buys industries credit, time. Connecticut Post, July 6, 1998, p A1&6. [8]. Franklin, H.N., and Hannay, D.P., Design Aspects of Selective Catalytic Reduction and How They Effect Operation, Power-Gen International, Dec 1997. [9]. Vogt, R.L., Precision Flame Shaping and the Effect on Emissions. American Flame Research Committee, 1997 International Symposium, Sept. 1997. |
