Assessment of Trace Organic Emissions Test Results from the Montgomery Count South MWC in Dayton, Ohio

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significance or for which the effects are unknown include the high level of particulate matter surface area for particles smaller than 10 J..lm, the suspected high levels of heavy hydrocarbons, and the possible effects of the ESP materials of construction. The ESP is constructed of Cor-Ten, a low alloy steel with 0.25 to 0.4% copper. The bench scale results of CDD/CDF formation in MWC fly ash by Hagenmaier et a1. indicated that CDD/CDF is formed by a fly ash catalyzed reaction with chlorine (C12) in the presence of surplus oxygen (02) at 572°F (300°C).6 The reaction is catalyzed by metals, and copper has been shown to be a very effective catalyst. Stieglitz and Vogg's experiments on the formation of test CDD/CDF on fly ash demonstrated the importance of temperature and of oxygen and moisture content of the gases passing over MWC fly ash in a heated bench scale reactor.7 They found that maximum CDD/CDF formation occurred at 572°F (300°C). At 572°F (300°C) increases in the oxygen content from 1 to 10% increased the amount of CDD/CDF formed in the fly ash from 100 to 1200%. The addition of moisture to the gas further increased the amount of formation to 2200%. The results from Montgomery County confirm these findings. CDD/CDF formation at Montgomery County is temperature dependent with highest indicated formation rates near 572°F (30QoC). The facility has a high level of surface area available for catalytic reactions entering the ESP which is constructed with a small amount of copper. The facility operates at a high moisture (26-40%) and high oxygen content (12-15%). All of these factors possibly contribute to the high levels of CDD/CDF formed in the ESP. Effects of Combustion Condition and Sorbent Injection Combustion conditions did not appear to have an appreciable effect on the furnace emissions of CDD/CDF as measured by concentrations in the mixing chamber. CDD/CDF concentrations were not measured during test condition 1 runs. However, a comparison of CDD/CDF concentration during runs for tests without sorbent injection (conditions 2 and 6) indicated comparable concentrations of CDD/CDF in the mixing chamber. Comparison of data from test conditions 1 (normal combustion) and 6 (poor combustion) also indicated comparable concentrations of CDD/CDF at the ESP inlet. For those two test conditions the average stack concentrations of CDD/CDF on a weight basis were marginally higher for the normal combustion tests (17,100 ng/dscm) than for the poor combustion tests (14,800 ng/dscm). On a toxic equivalent basis the average CDD/CDF concentrations in the stack were marginally higher for the poor combustion tests (118 ng/dscm) than for the normal combustion tests (103 ng/dscm). The higher 13