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    Removal of elemental mercury by KI-impregnated clay

    New search for: Shen, Boxiong
    New search for: Chen, Jianhong
    New search for: Cai, Ji

    Abstract This study described the use of clay impregnated by KI in gas phase elemental mercury (Hgo) removal in flue gas. The effects of KI loading, temperature, O2, SO2 and H2O on Hgo removal were investigated using a fixed bed reactor. The Hgo removal efficiency of KI-clay with 3% KI loading could maintain at a high level (approximately 80 %) after 3 h. The KI-clay demonstrated to be a potential adsorbent for Hgo removal when compared with activated carbon based adsorbent. O2 was found to be an important factor in improving the Hgo removal. O2 was demonstrated to assist the transfer of KI to I2 on the surface of KI-clay, which could react with Hgo directly. NO and SO2 could slightly improve Hgo removal, while H2O inhibited it greatly. The results indicated that after adsorption, most of the mercury escaped from the surface again. Some of the mercury may have been oxidized as it left the surface. The results demonstrated that the chemical reaction primarily occurred between KI and mercury on the surface of the KI-clay.

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    Removal of elemental mercury by KI-impregnated clay

    New search for: Shen, Boxiong
    New search for: Chen, Jianhong
    New search for: Cai, Ji

    Abstract This study described the use of clay impregnated by KI in gas phase elemental mercury (Hgo) removal in flue gas. The effects of KI loading, temperature, O2, SO2 and H2O on Hgo removal were investigated using a fixed bed reactor. The Hgo removal efficiency of KI-clay with 3% KI loading could maintain at a high level (approximately 80 %) after 3 h. The KI-clay demonstrated to be a potential adsorbent for Hgo removal when compared with activated carbon based adsorbent. O2 was found to be an important factor in improving the Hgo removal. O2 was demonstrated to assist the transfer of KI to I2 on the surface of KI-clay, which could react with Hgo directly. NO and SO2 could slightly improve Hgo removal, while H2O inhibited it greatly. The results indicated that after adsorption, most of the mercury escaped from the surface again. Some of the mercury may have been oxidized as it left the surface. The results demonstrated that the chemical reaction primarily occurred between KI and mercury on the surface of the KI-clay.

    Access

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    Check availability in my library
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    Removal of elemental mercury by KI-impregnated clay

    New search for: Shen, Boxiong
    New search for: Chen, Jianhong
    New search for: Cai, Ji

    Abstract This study described the use of clay impregnated by KI in gas phase elemental mercury (Hgo) removal in flue gas. The effects of KI loading, temperature, O2, SO2 and H2O on Hgo removal were investigated using a fixed bed reactor. The Hgo removal efficiency of KI-clay with 3% KI loading could maintain at a high level (approximately 80 %) after 3 h. The KI-clay demonstrated to be a potential adsorbent for Hgo removal when compared with activated carbon based adsorbent. O2 was found to be an important factor in improving the Hgo removal. O2 was demonstrated to assist the transfer of KI to I2 on the surface of KI-clay, which could react with Hgo directly. NO and SO2 could slightly improve Hgo removal, while H2O inhibited it greatly. The results indicated that after adsorption, most of the mercury escaped from the surface again. Some of the mercury may have been oxidized as it left the surface. The results demonstrated that the chemical reaction primarily occurred between KI and mercury on the surface of the KI-clay.

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    Title:

    Removal of elemental mercury by KI-impregnated clay

    Contributors:

    Shen, Boxiong (author) / Chen, Jianhong (author) / Cai, Ji (author)

    Published in:

    Frontiers of Environmental Science & Engineering ; 10 ; 236-243

    Publication date:

    2014-12-15

    Size:

    8 pages

    ISSN:

    2095-221X , 2095-2201

    DOI:

    https://doi.org/10.1007/s11783-014-0765-7

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    clay , elemental mercury , removal efficiency , potassium iodide , mechanism Environment , Environment, general

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