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Show A165E713.T A SUMMARY OF AIR TOXIC EMISSIONS FROM NATURAL GAS-FIRED COMBUSTION TURBINES ABSTRACT Bruce A. Fangmeier Richard M. Himes, P.E. Mark D. McDannel, P.E. Carnot 15991 Red Hill Avenue Tustin, California 92680 Robert A. Lott Gas Research Institute 8600 West Bryn Mawr Avenue Chicago, Illinois 60631 Barbara Toole-O'Neil Electric Power Research Institute 3412 Hillview Avenue Palo Alto, California 94303 AFRC/JFRC Pacific Rim International Conference On Environmental Control of Combustion Processes Maui, Hawaii October 16-20, 1994 The Clean Air Act Amendments (CAAA) of 1990 have imposed more stringent emission controls and reporting requirements that effect both industry and utilities. In addition to criteria pollutants (e.g., NOx, CO, S02, VOCs, and particulate matter) addressed under Titles I and IV, the CAAA have also potentially identified a whole new class of air toxic emissions under Title ill for possible control and mitigation. With respect to reporting requirements, Title V establishes a Federally enforceable facility operating permit program for all major sources of air pollutants (criteria and toxic). Each major source needs to characterize emission levels for all regulated pollutants. As air toxic emissions data with sufficiently low detection limits is very scarce, the current study focused on quantifying air toxic emissions from natural gas-fired boilers and turbines. The current paper presents the results collected from a broad range of gas turbine models and power ratings by Carnot as part of a series of programs funded by a natural gas pipeline transmission company, the Gas Research Institute, and the Electric Power Research Institute. In sum, the results show relatively low pollutant emissions under full load operation. At 50% maximum continuous rating, however, CO and formaldehyde emissions increase exponentially. Although these operating regimes are rarely encountered under electric utility operating scenarios, natural gas compressor stations cycle over a much broader power range in order to match natural gas supply with demand. In addition, these results are suggestive of a |