| Publication Type |
report |
| School or College |
University of Utah |
| Author |
Buitrago, Paula A.; Silcox, Geoffrey D. |
| Title |
The effects of oxy-firing conditions on gas-phase mercury oxidation by chlorine and bromine: Topical report: April 2009 to June 2010 |
| Date |
2010-10 |
| Description |
Bench-scale experiments were conducted in a quartz-lined, natural gas-fired reactor with the combustion air replaced with a blend of 27 mole percent oxygen, with the balance carbon dioxide. Quench rates of 210 and 440 K/s were tested. In the absence of sulfur dioxide, the oxy-firing environment caused a remarkable increase in oxidation of mercury by chlorine. At 400 ppm chlorine (as HCl equivalent), air-firing results in roughly 5 percent oxidation. At the same conditions with oxy-firing, oxidation levels are roughly 80 percent. Oxidation levels with bromine at 25 and 50 ppm (as HBr equivalent) ranged from 80 to 95 percent and were roughly the same for oxy- and air-firing conditions. Kinetic calculations of levels of oxidation at air- and oxy-conditions captured the essential features of the experimental results but have not revealed a mechanistic basis for the oxidative benefits of oxy-firing conditions. Mixtures of 25 ppm bromine and 100 and 400 ppm chlorine gave more than 90 percent oxidation. At all conditions, the effects of quench rate were not significant. The presence of 500 ppm SO2 caused a dramatic decline in the levels of oxidation at all oxy-fired conditions examined. This effect suggests that SO2 may be preventing oxidation in the gas phase or preventing oxidation in the wet-conditioning system that was used in quantifying oxidized and elemental mercury concentrations. Similar effects of SO2 have been noted with air-firing. The addition of sodium thiosulfate to the hydroxide impingers that are part of wet conditioning systems may prevent liquid-phase oxidation from occurring. |
| Publisher |
University of Utah, Department of Chemical Engineering |
| Subject |
oxy-firing conditions; gas-phase mercury oxidation; bench-scale experiments; liquid-phase oxidation |
| Bibliographic Citation |
Buitrago, P. A., Silcox, G. D. (2010). The effects of oxy-firing conditions on gas-phase mercury oxidation by chlorine and bromine: Topical report: April 2009 to June 2010. University of Utah, Department of Chemical Engineering. |
| Relation Has Part |
Topical Report: April 2009-June 2010 |
| ARK |
ark:/87278/s60g6jbq |
| Setname |
ir_eua |
| ID |
214522 |
| Reference URL |
https://collections.lib.utah.edu/ark:/87278/s60g6jbq |
