Journal
FUEL
Volume 86, Issue 15, Pages 2351-2359Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2007.02.016
Keywords
mercury; chlorine; coal flue gas
Categories
Ask authors/readers for more resources
Pilot-scale experiments were conducted to investigate mercury transformations in coal flue gas when firing subbituminous coal with a CaCl2 additive. Cofiring the CaCl2 additive with the subbituminous coal resulted in approximately 50% oxidized mercury, as a result of reactive chlorine species formed in coal flue gas, compared to the dominance of elemental mercury in the baseline flue gas. The mercury data indicate that mercury-flue gas chemistry reactions may occur at fairly high temperatures (>400 degrees C) in chlorine-enriched flue gas. Field tests were conducted to further demonstrate the impact of cofiring CaCl2 on the eventual fate of mercury. These tests were completed on a 650-MW subbituminous coal-fired power plant equipped with selective catalytic reduction (SCR), a fabric filter (FF), and a wet scrubber. Overall mercury removals across the SCR-FF-wet scrubber system ranged from 75% to 96% with 200-800 ppm (coal basis) chlorine addition compared to 18-32% during baseline operations. Field data indicate that the SCR enhanced mercury oxidation, possibly as a result of the supplemental formation of reactive chlorine species and the aid of the SCR catalyst. As a result, most of the mercury in the flue gas was in an oxidized state and was removed in the downstream wet scrubber, indicating that cofiring CaCl2 is an effective mercury control approach for a subbiturninous coal-fired plant equipped with an SCR and wet scrubber. (C) 2007 Elsevier Ltd. All rights reserved.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available