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Show ACKNOWLEDGEMENTS Appreciation is extended to the California Institute for Energy Efficiency (MOU- 4901510), the A R B (6533), and the S C A Q M D (951521) for their funding support. Gratitude is given to Mr. C. Youssef (Southern California Gas Company) and Dr. R. Gemmer (GRI) for valuable programmatic discussions that lead to these series of tests. Lastly, the author would like to thank Dr. M . Miyasato of the University of California Irvine whose support and valuable insights were integral to the outcome of this study. REFERENCES 1. Edwards, J. B., Combustion: Formation and Emissions of Trace Species, Ann Arbor Science Publishers, Ann Arbor, MI, 1974. 2. Kramlich, J. C , Clark, W . D., Seeker, W . M. R., and Samuelsen, G. S., "Theoretical Evaluation of Exhaust Emissions of C O and T H C as Indicators of Incinerator Performance," Energy & Environmental Research Corp. Report prepared for USEPA, Contract 68-03-3113, 1994. 3. Kramlich, J. C , Clark, W . D., Seeker, W . M. R., Samuelsen, G. S., and Lee, C. C, "Engineering Analysis of Hazardous Waste Incineration- Continuous Monitoring of Incinerators," The National Heat Transfer Conference, Denver, CO, 1985. 4. Chagger, H. K., Jones, J. M., Poukashanian, M., and Williams, A., "The Nature of Hydrocarbon Emissions Formed During the Cooling of Combustion Products," Fuel, 1997, 76, 9: 861-864. 5. Warnatz, J., Maas, U., and Dibble, R. W., Combustion, Springer-Verlag, Berlin, 1996, pp. 240-243. 6. Energy and Environmental Research Corporation, NOx and VOC Species Profiles for Gas Fired Stationary Combustion Sources, vol 1, 1994. 22 |