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Journal of the Air & Waste Management Association Volume 56, 2006 - Issue 1
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Technical Paper

Oxidation of Mercury across Selective Catalytic Reduction Catalysts in Coal–Fired Power Plants

Constance L. Senior Reaction Engineering International, Salt Lake City, UT, USACorrespondence[email protected]
Pages 23-31 | Published online: 27 Feb 2012
 
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Abstract

A kinetic model for predicting the amount of mercury (Hg) oxidation across selective catalytic reduction (SCR) systems in coal–fired power plants was developed and tested. The model incorporated the effects of diffusion within the porous SCR catalyst and the competition between ammonia and Hg for active sites on the catalyst. Laboratory data on Hg oxidation in simulated flue gas and slipstream data on Hg oxidation in flue gas from power plants were modeled. The model provided good fits to the data for eight different catalysts, both plate and monolith, across a temperature range of 280–420 °C, with space velocities varying from 1900 to 5000 hr–1. Space velocity, temperature, hydrochloric acid content of the flue gas, ratio of ammonia to nitric oxide, and catalyst design all affected Hg oxidation across the SCR catalyst. The model can be used to predict the impact of coal properties, catalyst design, and operating conditions on Hg oxidation across SCRs.

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