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Pilot Plant Testing of Elemental Mercury Reemission from a Wet Scrubber (2)
Citation:
CHANG, J. C. AND Y. ZHAO. Pilot Plant Testing of Elemental Mercury Reemission from a Wet Scrubber (2). ENERGY AND FUELS. American Chemical Society, Washington, DC, 22(1):338-342, (2008).
Impact/Purpose:
This is a 2006 presented paper rewritten for a journal
Description:
This paper discusses the recent observations of elemental mercury (HgO) reemissions from a pilot-scale limestone wet scrubber. Simulated flue gas was generated by burning natural gas in a down-fired furnace and doped with 2000 ppm of sulfur dioxide (S02). Mercuric chloride (HgCl2) solution was delivered to the scrubber at a controlled rate to simulate the absorption of ionized mercury (Hg2+). Testing results have shown that after Hg2+ was injected, elevated HgO concentrations were soon detected both in the scrubber effluent flue gas and the hold tank air, which reflected the occurrence of HgO reemissions in both places. When the HgCl2 feed was stopped the HgO reemission continued for more than 2 h. In addition, a significant HgO reemission was also detected outside the scrubber loop. In an attempt to understand the HgO reemission increase across the wet scrubber system under transient and steady states and to understand the underlying relationship with the mercury complexes retained in the wet scrubber system, a mercury reemission model was developed. With this model, it was found that the HgO reemission rate under the current testing conditions can be simulated by a first-order reaction and only a portion of Hg x S(IV) complexes retained in the slurry were participating in the reemission reaction.
