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Technical Paper

Issues Related to Solution Chemistry in Mercury Sampling Impingers

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Pages 688-698 | Published online: 27 Dec 2011

REFERENCES

  • Westoo, G. Methylmercury as Percentage of Total Mercury in Flesh and Viscera of Salmon and Sea Trout of Various Ages; Science 1973, 181, 567–568.
  • Carpi, A. Mercury from Combustion Sources: A Review of the Chemical Species Emitted and Their Transport in the Atmosphere; Water, Air, SoilPollut. 1997, 98, 241–254.
  • Lindberg, S.E.; Stratton, W.J. Atmospheric Mercury Speciation: Concentrations and Behavior of Reactive Gaseous Mercury in Ambient Air; Environ. Sci. Technol. 1998, 32 (1), 49–57.
  • Engstrom, D.R.; Balogh, S.J.; Swain, E.B. Evidence for Historic Increases in Mercury Methylation from the Sediments of 14 Lakes in Northeastern Minnesota. In Proceedings of the A&WMA Specialty Conference on Mercury in the Environment; A&WMA: Pittsburgh, PA, 1999; pp 199–210.
  • Clarkson, T.W. Metal Toxicity in the Central Nervous System; Environ. Health Perspect. 1987, 74, 59–64.
  • Clarkson, T.W. The Role of Biomarkers in Reproductive and Developmental Toxicology; Environ. Health Perspect. 1987, 74, 103–107.
  • Clarkson, T.W. Health Effects Associated with Mercury Contamination. Third International Conference on Municipal Waste Combustion, Williamsburg, VA, March 1993; pp 592–597.
  • Goyer, R.A. Toxic Effects of Metals. In Casarett and Doull's Toxicology—The Basic Science of Poisons, 4th ed.; Amdur, M.O., Doull, J., Klaassen, C.D., Eds.; Pergamon: New York, 1991; pp 623–680.
  • Keating, M.H.; Mahaffey, K.R. Mercury Study Report to Congress; EPA-452/R-97-003; U.S. Environmental Protection Agency, Office of Air Quality Planning and Standards: Research Triangle Park, NC, 1997.
  • Hanisch, C. Where is Mercury Deposition Coming From? Environ. Sci. Technol. News, April 1998, 176A–179A.
  • Hall, B.; Schager, P.; Lindqvist, O. Chemical Reactions of Mercury in Combustion Flue Gases; Water, Air, Soil Pollut. 1991, 56, 3–14.
  • Ghorishi, B.S.; Gullett, B.K. Sorption of Mercury Species by Activated Carbons and CalciumBased Sorbents: Effect of Temperature, Mercury Concentration and Acid Gases; Waste Manage. Res. 1998, 16 (6), 582–593.
  • Galbreath, K.C.; Zygarlicke, C.J. Critical Review: Mercury Speciation in Coal Combustion and Gasification Flue Gases; Environ. Sci. Technol. 1996, 30 (8), 2421–2426.
  • Senior, C.L.; Bool, L.E.; Huffman, G.P.; Huggins, F.E.; Shah, N.; Sarofim, A.; Olmez, I.; Zeng, T. A Fundamental Study of Mercury Partitioning in Coal Fired Power Plant Flue Gas. In Proceedings of the 90th Annual Meeting & Exhibition of A&WMA, Toronto, Ontario, Canada; A&WMA: Pittsburgh, PA, 1997.
  • Senior, C.L.; Sarofim, A.F.; Zeng, T.; Helble, J.J.; Mamani-Paco, R. Gas-phase Transformations of Mercury in CoalFired Power Plants; Fuel Process. Technol. 2000, 63, 197–213.
  • Wilhelm, S.M. Generation and Disposal of Petroleum Processing Waste That Contains Mercury; Environ. Prog. 1999, 18 (2), 130–143.
  • Carroll, G.J.; Thurnau, R.C.; Fournier, D.J. Mercury Emissions from a Hazardous Waste Incinerator Equipped with a State-of-the-Art Wet Scrubber; J. Air & Waste Manage. Assoc. 1995, 45, 730–736.
  • Siret, B.; Eagleson, S. A New Wet Scrubbing Technology for Control of Elemental (Metallic) and Ionic Mercury Emissions. In Proceedings of the 1997 International Conference on Incineration Technologies and Thermal Treatment Technologies; Oakland, CA, 1997.
  • Richardson, C.; Blythe, G.; Rhudy, R.; Brown, T. Enhanced Control of Mercury by Wet FGD Systems. In Proceedings of the 93rd Annual Meeting & Exhibition of A&WMA, Salt Lake City, UT; A&WMA: Pittsburgh, PA, 2000.
  • Otani, Y.; Kanaoka, C.; Usui, C.; Matsui, S.; Emi, H. Adsorption of Mercury Vapor on Particles; Environ. Sci. Technol. 1986, 20 (7), 735738.
  • Otani, Y.; Emi, H.; Kanaoka, C.; Uchijima, I.; Nishino, H. Removal of Mercury Vapor from Air with SulfurImpregnated Adsorbents; Environ. Sci. Technol. 1988, 22 (6), 708–711.
  • Larjava, K.; Laitinen, T.; Vahlman, T.; Artman, S.; Siemens, V.; Broekaert, J.A.C.; Klockow, D. Measurement and Control of Mercury Species in Flue Gases from Liquid Waste Incineration; Int. J. Environ. Anal. Chem. 1992, 49, 73–85.
  • Lancia, A.; Musmarra, D.; Pepe, F.; Volpicelli, G. Adsorption of Mercuric Chloride Vapours from Incinerator Flue Gases in Calcium Hydroxide Particles; Combust. Sci. Technol. 1993, 93, 277–289.
  • Gullett, B.K.; Raghunathan, K. Reduction of CoalBased Metal Emissions by Furnace Sorbent Injection; Energy Fuels 1994, 8 (5), 10681076.
  • Krishnan, S.V.; Gullett, B.K.; Jozewicz, W. Sorption of Elemental Mercury by Activated Carbons; Environ. Sci. Technol. 1994, 28 (8), 15061512.
  • Krishnan, S.V.; Gullett, B.K.; Jozewicz, W. Mercury Control in Municipal Waste Combustors and CoalFired Utilities; Environ. Prog. 1997, 16 (1), 47–53.
  • Licata, A.; Babu, M.; Nethe, L.P. An Economic Approach to Controlling Acid Gases, Mercury, and Dioxins from MWCs. In Proceedings of the 16th ASME Biennial National Waste Processing Conference and North American Waste-to-Energy Conference; Boston, MA, 1994.
  • Ghorishi, S.B.; Sedman, C.B. Low Concentration Mercury Sorption Mechanisms and Control by CalciumBased Sorbents: Application in CoalFired Processes; J. Air & Waste Manage. Assoc. 1998, 48, 11911198.
  • Wu, C.Y.; Lee, T.G.; Tyree, G.; Arar, E.; Biswas, P. Capture of Mercury in Combustion Systems by In SituGenerated Titania Particles with UV Irradiation; Environ. Eng. Sci. 1998, 15 (2), 137 148.
  • Dunham, G.E.; Miller, S.J.; Chang, R.; Bergman, P. Mercury Capture by an Activated Carbon in a Fixed-Bed Bench-Scale System; Environ. Prog. 1998, 17 (3), 203208.
  • Ho, T.C.; Ghai, A.R.; Guo, F.; Wang, K.S.; Hopper, J.R. Adsorption and Desorption of Mercury on Sorbents at Elevated Temperatures; Combust. Sci. Technol. 1998, 154, 263–289.
  • Hassett, D.J.; Eylands, K.E. Mercury Capture on Coal Combustion Fly Ash; Fuel 1999, 78, 243–248.
  • Huggins, F.E.; Huffman, G.P.; Dunham, G.E.; Senior, C.L. XAFS Examination of Mercury Sorption on Three Activated Carbons; Energy Fuels 1999, 13 (1), 114–121.
  • Laudal, D.L.; Heidt, M.K. Evaluation of Flue Gas Mercury Speciation Methods; EPRI TR108988; Electric Power Research Institute: Palo Alto, CA, December 1997.
  • Metzger, M.; Braun, H. In-Situ Mercury Speciation in Flue Gas by Liquid and Solid Sorption Systems; Chemosphere 1987, 16 (4), 821832.
  • Bloom, N.S.; Prestbo, E.M.; Miklavcic, V.L. Flue Gas Mercury Emissions and Speciation from Fossil Fuel Combustion. In Proceedings of the Conference on Managing Air Toxics: State of the Art; Washington, DC, 1993.
  • Horne, P.A.; Williams, P.T. Sampling and Analysis of Mercury Species in Effluent Gases Derived from Waste Incineration; Waste Manage. 1996, 16 (7), 579 586.
  • Method 5, Determination of Particulate Emissions from Stationary Sources; U.S. Environmental Protection Agency, U.S. Government Printing Office: Washington, DC, July 1994; 40 CFR Part 60, Appendix A.
  • Mortimer, C.E. Chemistry—A Conceptual Approach, 2nd ed.; D. Van Nostrand: New York, 1971.
  • Method 101A, Determination of Particulate and Gaseous Mercury Emissions from Sewage Sludge Incinerators; U.S. Environmental Protection Agency, U.S. Government Printing Office: Washington, DC, July 1994; 40 CFR Part 61, Appendix B.
  • Method 29, Determination of Metals Emissions from Stationary Sources; U.S. Environmental Protection Agency, U.S. Government Printing Office: Washington, DC, July 1994; 40 CFR Part 60, Appendix A.
  • Stevens, F.M.; Froberg, W.R.; Lanier, W.S.; Rauenzahn, S.; Burns, D.; Grohse, P.; O'Rourke, J.A. Field Validation of Sampling Procedures for the Speciation of Mercury in Flue Gas. In Proceedings of the 1997 International Conference on Incineration Technologies and Thermal Treatment Technologies; Oakland, CA, 1997.
  • Giglio, J.J.; O'Rourke, J.A.; Grohse, P.M.; Wilshire, F.W.; Ryan, J.V.; Linak, W.P.; Ghorishi, B. The Development of a Method for the Spe-ciation of Source Mercury Emissions. In Proceedings of the 1998 Intenational Conference on Incineration Technologies and Thermal Treatment Technologies; Salt Lake City, UT, 1998.
  • Brown, T.D.; Smith, D.N.; Hargis, R.A.; O'Dowd, W.J. 1999 Critical Review: Mercury Measurements and Its Control: What We Know, Have Learned, and Need to Further Investigate. In Proceedings of the 92nd Annual Meeting & Exhibition of A&WMA; A&WMA: Pittsburgh, PA, 1999.
  • Brown, T.D.; Smith, D.N.; Hargis, R.A.; O'Dowd, W.J. Critical Review Overview: Mercury Measurements and Its Control: What We Know, Have Learned, and Need to Further Investigate; J. Air & Waste Manage. Assoc. 1999, 49, 628–640.
  • Hall, B. Reactions of Mercury with Flue Gas Components; Report OOK 90:06; Department of Inorganic Chemistry, Chalmers University of Technology and University of Goteborg: Goteborg, Sweden, 1990.
  • Hall, B.; Lindqvist, O.; Ljungstrom, E. Mercury Chemistry in Simulated Flue Gases Related to Waste Incineration Conditions; Environ. Sci. Technol. 1990, 24 (1), 108 111.
  • Ghorishi, S.B. Fundamentals of Mercury Speciation and Control in Coal” Fired Boilers; EPA-600/R-98-014 (NTIS PB98-127095); U.S. Environmental Protection Agency, Air Pollution Prevention and Control Division: Research Triangle Park, NC, 1998.
  • Gaspar, J.A.; Widmer, N.C.; Cole, J.A.; Seeker, W.R. Study of Mercury Speciation in a Simulated Municipal Waste Incinerator Flue Gas. In Proceedings of the 1997 International Conference on Incineration Technologies and Thermal Treatment Technologies; Oakland, CA, 1997.
  • Widmer, N.C.; Cole, J.A.; Seeker, W.R.; Gaspar, J.A. Practical Limitation of Mercury Speciation in Simulated Municipal Waste Flue Gas; Combust. Sci. Technol. 1998, 134, 315 326.
  • Sliger, R.N.; Kramlich, J.C.; Marinov, N.M. Towards the Development of a Chemical Kinetic Model for the Homogeneous Oxidation of Mercury by Chlorine Species; Fuel Process. Technol. 2000, 65, 423438.
  • Zhao, L.L.; Rochelle, G.T. Mercury Absorption in Aqueous Hypochlorite. In Proceedings of the 1st EPRI-DOE-EPA Combined Utility Air Pollutant Control Symposium; Washington, DC, 1997.
  • Handbook of Chemistry and Physics, 63rd ed.; Weast, R.C., Astle, M.J., Eds.; CRC: West Palm Beach, FL, 1982.
  • Livengood, C.D.; Mendelsohn, M.H. Process for Combined Control of Mercury and Nitric Oxide. In Proceedings of the 2nd EPRI-DOE-EPA Combined Utility Air Pollutant Control Symposium; Atlanta, GA, 1999.
  • Method 26, Determination of Hydrogen Chloride Emissions From Stationary Sources; U.S. Environmental Protection Agency, U.S. Government Printing Office: Washington, DC, July 1994; 40 CFR Part 60, Appendix A.
  • Muzio, L.J.; Teague, M.E.; Kramlich, J.C.; Cole, J.A.; McCarthy, J.M.; Lyon, R.K. Errors in Grab Sample Measurements of N2O from Combustion Sources; J. Air Pollut. Control Assoc. 1989, 39, 287.
  • Lyon, R.K.; Cole, J.A. Kinetic Modelling of Artifacts in the Measurement of N2O from Combustion Sources; Combust. Flame 1989, 77, 139.

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