Applied investigation on the interaction of hazardous elements binding on ultrafine and nanoparticles in Chinese anthracite-derived fly ash

Luis F.O. Silva; Andre Jasper; Maria L Andrade; Carlos H. Sampaio; Shifeng Dai; Xiao Li; Tian Li; Weimei Chen; Xibo Wang; Huidong Liu; Lixin Zhao; Shelley G. Hopps; Robert F. Jewell; James C. Hower

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Applied investigation on the interaction of hazardous elements binding on ultrafine and nanoparticles in Chinese anthracite-derived fly ash

机译：中国无烟煤粉煤灰中超微粒子与纳米颗粒结合有害元素的应用研究

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A multifaceted instrumental approach was employed to determine the chemistry and mineralogy of pulverized-coal-combustion fly ashes from two Chinese power plants. Techniques included traditional optical microscopy, X-ray diffraction, and chemical analysis along with a variety of electron beam methods. The aim is to demonstrate and bring together the wide variety of procedures dealing with F as the key element of concern, and determining its location in the mineral nanoparticles. The Hg content of the Anwen (Songzao coalfield) fly ashes is higher than that of the Diandong (East Yunnan) fly ashes, possibly owing to the greater C and Cl in the Anwen fly ashes. Both fly ash sources contain a variety of amorphous and nano-crystalline trace-element-bearing particles, both associated with multi-walled carbon nanotubes and as particles independent of carbons.

机译：一种多方面的仪器方法被用来确定来自两个中国发电厂的煤粉燃烧粉煤灰的化学和矿物学。技术包括传统的光学显微镜，X射线衍射，化学分析以及各种电子束方法。目的是演示和汇集处理F作为关注的关键元素的各种程序，并确定其在矿物纳米颗粒中的位置。安汶（松枣煤田）飞灰的汞含量高于滇东（滇东）飞灰的汞含量，这可能是由于安汶飞灰中的C和Cl较大。两种粉煤灰源均包含各种无定形和纳米晶含痕量元素的颗粒，它们均与多壁碳纳米管相关并且作为独立于碳的颗粒。

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来源
《Science of the total environment》 |2012年第1期|p.250-264|共15页
作者
Luis F.O. Silva; Andre Jasper; Maria L Andrade; Carlos H. Sampaio; Shifeng Dai; Xiao Li; Tian Li; Weimei Chen; Xibo Wang; Huidong Liu; Lixin Zhao; Shelley G. Hopps; Robert F. Jewell; James C. Hower;
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作者单位

Centra Universitario Univates, Programa de Pos Graduacao Ambiente e Desenvolvimento, Rua Avelino Tallini, 171, Universitario, 95900-000 Lajeado, RS, Brazil,Environmental Science and Nanotechnology Department, Catarinense Institute of Environmental Research and Human Development - IPADHC, Capivari de Baixo, Santa Catarina, Brazil;

Centra Universitario Univates, Programa de Pos Graduacao Ambiente e Desenvolvimento, Rua Avelino Tallini, 171, Universitario, 95900-000 Lajeado, RS, Brazil;

Department of Plant Biology and Soil Science, University of Vigo, 36310 Vigo, Spain;

Universidade Federal do Rio Grande do Sul, Escota de Engenharia, Departamento de Metalurgia, Centro de Tecnologia, Av. Bento Goncalves, 9500, Bairro Agronomia, CEP: 91501-970, Porto Alegre, RS, Brazil;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

China University of Mining & Technology, Beijing, China;

University of Kentucky Center for Applied Energy Research, 2540 Research Park Drive, Lexington, KY 40511, USA;

University of Kentucky Center for Applied Energy Research, 2540 Research Park Drive, Lexington, KY 40511, USA;

University of Kentucky Center for Applied Energy Research, 2540 Research Park Drive, Lexington, KY 40511, USA;

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正文语种 eng
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关键词
nanominerals; ultra-fine particles; chinese coal fly ash; advanced characterization;

机译：纳米矿物超细颗粒;中国粉煤灰高级表征;

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4. Effect of Nano Silica and Ultrafine Fly Ash on Compressive Strength of High Volume Fly Ash Mortar [C] . Steve W. M. Supit, Faiz U. A. Shaikh, Prabir K. Sarker International Conference on Green Building, Materials and Civil Engineering . 2013

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5. Development of concrete mixtures incorporating ultrafine fly ash and silica fume. [D] . Shrestha, Sandeep. 2010

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8. Soil/Fly-Ash Leachate Interactions: Release, Transport and Retention of Trace Elements [R] . Honeyman, B. D. , Leckie, J. O. 1981

机译：土壤/粉煤灰渗滤液相互作用：微量元素的释放，运输和保留

Applied investigation on the interaction of hazardous elements binding on ultrafine and nanoparticles in Chinese anthracite-derived fly ash

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