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首页> 外文期刊>Environmental Science & Technology >Catalytic Control of Typical Particulate Matters and Volatile Organic Compounds Emissions from Simulated Biomass Burning
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Catalytic Control of Typical Particulate Matters and Volatile Organic Compounds Emissions from Simulated Biomass Burning

机译:模拟的生物质燃烧对典型颗粒物和挥发性有机化合物排放的催化控制

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摘要

Emissions of particulate matters (PMs) and volatile organic compounds (VOCs) from open burning of biomass often cause severe air pollution; a viable approach is to allow biomass to bum in a furnace to collectively control these emissions, but practical control technologies for this purpose are lacking. Here, we report a hollandite manganese oxide (HMO) catalyst that can efficiently control both typical PMs and VOCs emissions from biomass burning. The results reveal that typical alkali-rich PMs such as KCl particles are disintegrated and the K~+ ions are trapped in the HMO "single-walled" tunnels with a great trapping capacity. The K~+-trapping HMO increases the electron density of the lattice oxygen and the redox ability, thus promoting the combustion of soot PMs and the oxidation of typical VOCs such as aldehydes and acetylates. This could pave a way to control emissions from biomass burning concomitant with its utilization for energy or heat generation.
机译:生物质的露天燃烧排放的颗粒物(PMs)和挥发性有机化合物(VOCs)通常会造成严重的空气污染;一种可行的方法是让生物质在炉子中燃烧,以共同控制这些排放,但是缺乏为此目的的实用控制技术。在这里,我们报告了一种重钙锰矿锰氧化物(HMO)催化剂,该催化剂可有效控制生物质燃烧过程中典型的PM和VOC排放。结果表明,典型的富碱PMs(如KCl颗粒)被分解,并且K〜+离子被捕集到具有很大捕集能力的HMO“单壁”隧道中。捕获K +的HMO增加了晶格氧的电子密度和氧化还原能力,从而促进了烟尘PM的燃烧和典型VOC(如醛和乙酰化物)的氧化。这可能为控制生物质燃烧伴随其用于能源或热量产生的排放铺平道路。

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  • 来源
    《Environmental Science & Technology》 |2016年第11期|5825-5831|共7页
  • 作者

    Yaxin Chen; Guangkai Tian; Meijuan Zhou; Zhiwei Huang; Chenxi Lu; Pingping Hu; Jiayi Gao; Zhaoliang Zhang; Xingfu Tang;

  • 作者单位

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China;

    School of Chemistry & Chemical Engineering, University of Jinan, Jinan, Shandong 250022, China;

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China;

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China;

    School of Chemistry & Chemical Engineering, University of Jinan, Jinan, Shandong 250022, China;

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China;

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China;

    School of Chemistry & Chemical Engineering, University of Jinan, Jinan, Shandong 250022, China;

    Institute of Atmosphere Sciences, Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention (LAP~3), Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China,Collaborative Innovation Center of Atmospheric Environment and Equipment Technology (CICAEET), Nanjing, Jiangsu 210044, China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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