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CANA After Burner Temperature Study <br />Testing Results <br />Visible Emissions: <br />The visible emissions were evaluated every 15 seconds and rated on a scale from 0% to 100% opacity by <br />a qualified inspector. <br />The opacity readings for each cremation were then averaged over the six- minute period with the <br />highest emissions. Figure 1 shows that visible emissions increased as the operating temperature <br />increased. Comparison is given to a typical state emission limit. <br />Particulate Matter: <br />The results of sampling show that particulate matter emissions also increased with temperature. <br />Overall, the emissions of particulate matter were very low. <br />The average test results for particulate matter (shown in Figure 2) as well as the results for all of the <br />following pollutants, are for the inlet to the scrubber. A comparison. of the emissions before and after <br />the water scrubber showed that the device had little to no effect on the emissions of any of the <br />pollutants. <br />Carbon Monoxide: <br />The levels of carbon monoxide (Figure 3) were very low for each test condition, well below the typical <br />state standard of 100 parts per million. <br />Nitrogen Oxides and Sulfur Dioxide: <br />The levels of these gases (shown in Figures 4 and 5) were within acceptable limits. <br />Hydrogen Chloride: <br />Hydrogen chloride (HCl) is a gaseous pollutant produced by the burning of plastics or other material <br />containing chlorine. The HCl emissions would not be expected to change with temperature. The <br />average HCl emission for all the conditions was 0.15 pound per hour of operation. <br />Metals: <br />Like HCI, emissions of mercury, cadmium, and lead are not expected to vary with operating <br />temperature. The metal of concern from crematories is mercury, which mainly comes from dental <br />fillings. The average mercury emission was 0.23 gram per hour of operation. <br />Dioxins and Furans: <br />Dioxins and furans are complex compounds released from many different combustion sources. The <br />presence of chlorine in the combustion process is an important factor for dioxin and furan formation. <br />The test results show that the emissions of dioxins and furans went up as the temperature increased. <br />The emissions, (shown in Figure 6) are low compared to other types of incinerators. The measurement <br />unit is the nanogram, which is one - billionth of a gram. <br />Conclusion: <br />The test results show that the emissions of nearly all the tested pollutants increased when the <br />operating temperature was raised. This indicates that there is no justification or benefit for the high <br />operating temperatures required in many states. <br />