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Journal of the Air & Waste Management Association Volume 49, 1999 - Issue 6
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Critical Review

Mercury Measurement and Its Control: What We Know, Have Learned, and Need to Further Investigate

Thomas D. Brown U.S. Department of Energy, Federal Energy Technology Center, Pittsburgh, Pennsylvania, USA
,
Dennis N. Smith U.S. Department of Energy, Federal Energy Technology Center, Pittsburgh, Pennsylvania, USA
,
Richard A. Hargis Jr. U.S. Department of Energy, Federal Energy Technology Center, Pittsburgh, Pennsylvania, USA
&
William J. O'Dowd U.S. Department of Energy, Federal Energy Technology Center, Pittsburgh, Pennsylvania, USA
Pages 1-97 | Published online: 27 Dec 2011

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Boshu He, Yan Cao, CarlosE. Romero, Harun Bilirgen, Nenad Sarunac, Hans Agarwal & Wei-Ping Pan. (2007) COMPARISON AND VALIDATION OF OHM AND SCEM MEASUREMENTS FOR A FULL-SCALE COAL-FIRED POWER PLANT. Chemical Engineering Communications 194:12, pages 1596-1607.
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R. R. Oder. (2002) An Evaluation of the Alpha Prototype MagMill ™ for Dry Coal Cleaning. Coal Preparation 22:6, pages 323-341.
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Dunyu Liu, Chaoran Wang, Yunpei Fan, Qiuqi Liu, Xudong Wang, Kailong Xu, Jing Jin, Jingjing Ma & Jinchen Ma. (2023) Mercury transformation and removal in chemical looping combustion of coal: A review. Fuel 347, pages 128440.
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Chung-Shin Yuan, Kuan-Chen Chiang, Po-Hsuan Yen, Jun-Hao Ceng, Cheng-En Lee, I-Chieh Du, Ker-Yea Soong & Ming-Shiou Jeng. (2023) Long-range transport of atmospheric speciated mercury from the eastern waters of Taiwan Island to northern South China Sea. Environmental Pollution 318, pages 120899.
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Ji-Ren Zheng, Iau-Ren Ie, Shih-Wen Wang, Chung-Shin Yuan, Hua-Zhen Shen & Yu-Hua Li. (2023) Enhancing the oxidation efficiency of elemental mercury in the presence of NO and SO2 by using Cu(II)O doped TiO2 photothermal catalysts: Kinetics and mechanisms. Fuel 331, pages 125850.
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Yan Du, Jie Yang, Ye Liu, Jiacheng Zhou, Limei Cao & Ji Yang. (2022) Electrochemical reduction and kinetic analysis of oxidized mercury in wastewater by choosing titanium plate as cathode. Separation and Purification Technology 289, pages 120808.
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Adnan Raza Altaf, Haipeng Teng, Liu Gang, Yusuf G. Adewuyi & Maosheng Zheng. (2021) Effect of Sonochemical Treatment on Thermal Stability, Elemental Mercury (Hg 0 ) Removal, and Regenerable Performance of Magnetic Tea Biochar . ACS Omega 6:37, pages 23913-23923.
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Piotr Kunecki, Dorota Czarna-Juszkiewicz & Magdalena Wdowin. (2020) Analysis of solid sorbents for control and removal processes for elemental mercury from gas streams: a review. International Journal of Coal Science & Technology 8:1, pages 23-46.
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Wei Yang, Zhihua Wang & Yangxian Liu. (2020) Review on Magnetic Adsorbents for Removal of Elemental Mercury from Flue Gas. Energy & Fuels 34:11, pages 13473-13490.
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Jinglan Dong, Zhengyang Gao, Weijie Yang, Ang Li & Xunlei Ding. (2019) Adsorption characteristics of Co-anchored different graphene substrates toward O2 and NO molecules. Applied Surface Science 480, pages 779-791.
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Weijie Yang, Zhengyang Gao, Xunlei Ding, Gang Lv & Weiping Yan. (2018) The adsorption characteristics of mercury species on single atom iron catalysts with different graphene-based substrates. Applied Surface Science 455, pages 940-951.
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Qiang Niu, Jinjing Luo, Youxian Xia, Shiqiang Sun & Qiang Chen. (2017) Surface modification of bio-char by dielectric barrier discharge plasma for Hg 0 removal. Fuel Processing Technology 156, pages 310-316.
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Vishnu Sriram, Zhouyang Liu & Joo-Youp Lee. (2017) Modeling of mercuric chloride removal in ductwork and fabric filter by raw activated carbon injection. Fuel 188, pages 223-231.
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Burtron H. Davis & James C. Hower. 2017. Handbook of Industrial Chemistry and Biotechnology. Handbook of Industrial Chemistry and Biotechnology 107 183 .
Jianping Yang, Yongchun Zhao, Junying Zhang & Chuguang Zheng. (2016) Removal of elemental mercury from flue gas by recyclable CuCl 2 modified magnetospheres catalyst from fly ash. Part 1. Catalyst characterization and performance evaluation. Fuel 164, pages 419-428.
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Lingkui Zhao, Caiting Li, Xunan Zhang, Guangming Zeng, Jie Zhang & Yin’e Xie. (2015) Oxidation of elemental mercury by modified spent TiO2-based SCR-DeNOx catalysts in simulated coal-fired flue gas. Environmental Science and Pollution Research 23:2, pages 1471-1481.
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Bo Zhao, Xiao-Wei Liu, Zi-Jian Zhou, Hai-Zhong Shao, Chao Wang & Ming-Hou Xu. (2015) Mercury oxidized by V 2 O 5 –MoO 3 /TiO 2 under multiple components flue gas: An actual coal-fired power plant test and a laboratory experiment. Fuel Processing Technology 134, pages 198-204.
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Evan Granite, Henry Pennline & Richard Hargis. 2011. Industrial Chemistry. Industrial Chemistry 151 175 .
Hong-liang Gao, Jijing Li, Jin-song Zhou, Zhong-yang Luo & Kefa Cen. 2007. Challenges of Power Engineering and Environment. Challenges of Power Engineering and Environment 700 704 .
R. D. Srivastava, H. G. McIlvriedIIIIII, J. C. Winslow, C. P. Maronde & R. P. Noceti. 2007. Kent and Riegel’s Handbook of Industrial Chemistry and Biotechnology. Kent and Riegel’s Handbook of Industrial Chemistry and Biotechnology 843 906 .
Achariya Suriyawong, Michael Gamble, Myong-Hwa Lee, Richard Axelbaum & Pratim Biswas. (2006) Submicrometer Particle Formation and Mercury Speciation Under O 2 −CO 2 Coal Combustion . Energy & Fuels 20:6, pages 2357-2363.
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Malyuba A. Abu-Daabes & Neville G. Pinto. (2005) Synthesis and characterization of a nano-structured sorbent for the direct removal of mercury vapor from flue gases by chelation. Chemical Engineering Science 60:7, pages 1901-1910.
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Erik Pitoniak, Chang-Yu Wu, David W. Mazyck, Kevin W. Powers & Wolfgang Sigmund. (2005) Adsorption Enhancement Mechanisms of Silica−Titania Nanocomposites for Elemental Mercury Vapor Removal. Environmental Science & Technology 39:5, pages 1269-1274.
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Dennis Y. Lu, David L. Granatstein & Donald J. Rose. (2004) Study of Mercury Speciation from Simulated Coal Gasification. Industrial & Engineering Chemistry Research 43:17, pages 5400-5404.
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Ji-Ren Zheng, Iau-Ren Ie, Shih-Wen Wang, Chung-Shin Yuan, Huazhen Shen & Yu-Hua Li. (2022) Enhancing the Oxidation Efficiency of Elemental Mercury in the Presence of No and So2 by Using Cu(Ii)O Doped Tio2 Photothermal Catalysts: Kinetics and Mechanisms. SSRN Electronic Journal.
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