Characteristic of mercury on the surface of ash originating from electrostatic precipitators of lignite and bituminous coal-fired power plants

IF 0.5 4区 环境科学与生态学 Q4 ENGINEERING, ENVIRONMENTAL Environment Protection Engineering Pub Date : 2019-01-01 DOI:10.37190/epe190404
V. Veselý, Z. Szeliga, Z. Vávrová, B. Čech, P. Regucki, R. Krzyżyńska
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Abstract

Mercury concentrations in ash taken from electrostatic precipitations (ESPs) installed in bituminous coal and lignite power plants have been analyzed by the X-ray fluorescence (XRF) method and leaching test supported by detailed coal and ash compositions’ analyses, surface scans and particles size distribution studies. The results showed that mercury was present on the surface of ash particles. Its concentration decreased upon increasing size of ash particles. Leaching tests showed that only small part of mercury was removed with water which suggests the fact that it occurred mostly in the form of insoluble compounds such as Hg, HgO, HgS and Hg2Cl2. There existed ash particles of the diameters from 50 to 60 μm, characterizing by the maximum capability to adsorb mercury and its compounds. The authors suggest that metals like copper and lead formed ash active centers that were preferably occupied by molecules containing atoms of mercury. It was highly possible to expect that content of these elements in ash would have a significant effect on sorption of mercury from combustion gases.
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褐煤和烟煤电厂静电除尘器烟尘表面汞的特征
采用x射线荧光(XRF)方法和浸出试验对安装在烟煤和褐煤电厂的静电沉淀法(esp)中煤灰的汞浓度进行了分析,并对详细的煤和煤灰成分分析、表面扫描和颗粒大小分布进行了研究。结果表明,火山灰颗粒表面存在汞。其浓度随灰粒尺寸的增大而减小。浸出试验表明,只有一小部分汞被水除去,这表明汞主要以不溶性化合物的形式存在,如Hg、HgO、HgS和Hg2Cl2。灰分粒径在50 ~ 60 μm之间,对汞及其化合物的吸附能力最大。作者认为,像铜和铅这样的金属形成了火山灰活性中心,这些活性中心最好被含有汞原子的分子占据。很有可能期望灰烬中这些元素的含量会对从燃烧气体中吸收汞产生重大影响。
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来源期刊
Environment Protection Engineering
Environment Protection Engineering 环境科学-工程:环境
CiteScore
0.80
自引率
0.00%
发文量
9
审稿时长
12 months
期刊介绍: Water purification, wastewater treatment, water reuse, solid waste disposal, gas emission abatement, systems of water and air pollution control, soil remediation.
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