Center for Air Toxic Metals® (CATM®) 2003-2007
EPA Grant Number: CR830929Subproject: this is subproject number R830929 , established and managed by the Center Director under a main grant
(EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
Center: Center for Air Toxic Metals® (CATM®)
Center Director: Groenewold, Gerald
Title: Center for Air Toxic Metals® (CATM®) 2003-2007
Investigators: Pavlish, John H. , Benson, Steven A. , Collings, Mike , Crocker, Charlene , Dunham, Grant , Galbreath, Kevin C. , Hamre, Lucinda , Hill-Brandt, Katie , Holmes, Michael J. , Laudal, Dennis L. , Mibeck, Blaise , Miller, Stanley J. , Musich, Mark , Olson, Ed , Ralston, Nicholas V.C. , Raymond, Laura , Sharma, Ramesh , Sondreal, Everett , Swanson, Mike , Thompson, Jeffrey S. , Zhuang, Ye , Zygarlicke, Christopher J.
Current Investigators: Pavlish, John H. , Benson, Steven A. , Crocker, Charlene , Galbreath, Kevin C. , Heebink, Loreal V. , Holmes, Michael J. , Laumb, Jason D. , Martin, Christopher L. , Mibeck, Blaise , Ralston, Nicholas V.C. , Schmidt, Darren D. , Zhuang, Ye
Institution: University of North Dakota - Main Campus
EPA Project Officer: Stelz, Bill
Project Period: May 1, 2003 through September 30, 2006 (Extended to September 30, 2007)
Project Amount: $3,098,736
RFA: Targeted Research Center (2003)
Research Category: Targeted Research
Description:
Objective:The Center for Air Toxic Metals ® (CATM ®) Program is focused on conducting research directed toward minimizing the impact of air toxic metals on the environment by administering a practically oriented multidisciplinary research, development, and training program on the formation, behavior, measurement, control, and minimization of potentially toxic metal emissions from energy conversion systems through partnerships developed with industry, government, and research organizations.
Objective/Hypothesis :
- develop key information on air toxic metals behavior, state, and fate for risk assessment/control/risk management;
- develop/test/validate sampling and analysis techniques;
- enhance use of existing control technologies;
- identify/develop new, more effective control technologies;
- demonstrate new and existing technologies;
- develop empirical and theoretical predictive techniques;
- optimize utilization options and safe disposal of by-products;
- educate students and raise public awareness;
- evaluate the health impacts/implications of air toxic metals; and
- develop, test, and commercialize technologies through partnerships with industry.
Specifically, the research projects funded under this award will:
- further develop a fundamental understanding of mercury transformations in coal combustion flue gas environments;
- develop methods to improve measurement of mercury and chlorine in combustion flue gases;
- develop mercury control technologies;
- model mercury interactions on activated carbons and evaluate other sorbents and additives;
- study mercury–selenium interactions in aquatic ecosystems;
- investigate mercury and carbon-based sorbent reaction mechanisms; and
- undertake the development of methods for halogen speciation measurements in combustion systems.
The overall approach of the CATM Program is to conduct basic and applied scientific-based research that provides answers to critical questions related to air toxic metals, emissions from industrial sources, and development of control technologies that can be applied by industry to control emissions. Advanced and proven sampling and analytical methods are developed, tested, and used to further characterize air toxic emissions and to develop a better understanding of the fate and formation of air toxic metals throughout industrial processes.
Expected Results:These activities, which both EPA and industry believe are extremely important, will continue to develop a better understanding of air toxic metals formation, transport, fate, measurement, control, modeling, and health effects and, on an ongoing basis, will expeditiously provide up-to-date information that will benefit industrial, government, academic, and public sectors.
Abstract for R827649Journal Articles: 52 Displayed | Download in RIS Format
Other center views: | All 347 publications | 110 publications in selected types | All 52 journal articles |
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Benson S. Air quality conference status of research on mercury. Filtration & Separation 1999;36(6):4. |
R827649 (2000) R827649 (Final) |
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Benson SA, Erickson TA, Jensen RR, Laumb JD. Transformations model for predicting size and composition of ash during coal combustions. American Chemical Society Fuel Preprints 2002;47(2):796-798. |
R827649 (2002) R827649 (Final) |
not available |
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Benson SA. Air quality III: mercury, trace elements, and particulate matter. Fuel Processing Technology 2004;85(6-7):423-424. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Benson SA, Laumb JD, Crocker CR, Pavlish JH. SCR catalyst performance in flue gases derived from subbituminous and lignite coals. Fuel Processing Technology 2005;86(5):577-613. |
CR830929 (2005) |
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Benson SA, Laumb JD, Jensen RR, Eylands KE. Characterization of particulate matter collected with a Burkhard sampler. American Chemical Society Fuel Preprints 2001;46(1):296-299. |
R827649 (Final) |
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Biswas P, Senior C, Chang R, Vidic R, Laudal D, Brown T. Mercury measurement and its control: What we know, have learned, and need to further investigate. Journal of the Air & Waste Management Association 1999;49(12):1469-1473 |
R827649 (Final) |
not available |
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Boschee P. EPA mercury regime risks apples-to-oranges results. Electric Light & Power 1999;77(2). |
R827649 (2000) R827649 (Final) |
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Dronen LC, Moore AE, Kozliak EI, Seames WS. An assessment of acid wash and bioleaching pre-treating options to remove mercury from coal. Fuel 2004;83(2):181-186. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Galbreath KC, Zygarlicke CJ, Olson ES, Pavlish JH, Toman DL. Evaluating mercury transformation mechanisms in a laboratory - scale combustion system. Science of the Total Environment 2000;261(1-3):149-155. |
R827649 (2000) R827649 (Final) |
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Galbreath KC, Zygarlicke CJ. Mercury transformations in coal combustion flue gas. Fuel Processing Technology 2000;65:289-310. |
R827649 (2000) R827649 (Final) |
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Galbreath KC, Toman DL, Zygarlicke CJ, Huggins FE, Huffman GP, Wong JL. Nickel speciation of residual oil fly ash and ambient particulate matter using X-ray absorption spectroscopy. Journal of the Air & Waste Management Association 2000;50(11):1876-1886. |
R827649 (2000) R827649 (Final) |
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Galbreath KC, Toman DL, Zygarlicke CJ, Pavlish JH. Trace element partitioning and transformations during combustion of bituminous and subbituminous U.S. coals in a 7-kW combustion system. Energy & Fuels 2000;14(6):1265-1279. |
R827649 (2000) R827649 (Final) |
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Galbreath KC, Crocker CR, Nyberg CM, Huggins FE, Huffman GP, Larson KP. Nickel speciation measurements of urban particulate matter: method evaluation and relevance to risk assessment. Journal of Environmental Monitoring 2003;5(3):56N-61N. |
R827649 (2003) R827649 (Final) |
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Galbreath KC, Crocker CR, Nyberg CM, Huggins FE, et al. Nickel speciation of urban particulate matter from Davie, Florida. American Chemical Society, Division of Fuel Chemical 2003;48(2):779-781. |
R827649 (2003) R827649 (Final) |
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Galbreath KC, Zygarlicke CJ. Formation and chemical speciation of arsenic-, chromium-, and nickel-bearing coal combustion PM2.5. Fuel Processing Technology 2004;85(6-7):701-726. |
CR830929 (2004) R827649 (2002) R827649 (2003) R827649 (Final) |
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Galbreath KC, Zygarlicke CJ, Tibbetts JE, Schulz RL, Dunham GE. Effects of NOx, α-Fe2O3, γ-Fe2O3, and HCl on mercury transformations in a 7-kW coal combustion system. Fuel Processing Technology 2005;86(4):429-448. |
CR830929 (2004) CR830929 (2005) R827649 (2002) R827649 (2003) R827649 (Final) |
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Galbreath KC, Schulz RL, Toman DL, Nyberg CM, Huggins FE, Huffman GP, Zillioux EJ. Nickel and sulfur speciation of residual oil fly ashes from two electric utility steam-generating units. Journal of the Air & Waste Management Association 2005;55(3):309-318. |
CR830929 (2005) |
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Hassett DJ, Eylands KE. Mercury capture on coal combustion fly ash. Fuel 1999;78(2):243-248. |
R827649 (2000) R827649 (Final) |
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Hassett DJ, Heebink LV, Pflughoeft-Hassett DF. Potential for mercury vapor release from coal combustion by-products. Fuel Processing Technology 2004;85(6-7):613-620. |
CR830929 (2004) R827649 (2002) R827649 (2003) R827649 (Final) |
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Heebink LV, Hassett DJ. Release of mercury vapor from coal combustion ash. Journal of the Air & Waste Management Association 2002;52(8):927-930. |
R827649 (2002) R827649 (Final) |
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Jensen RR, Karki S, Salehfar H. Artificial neural network-based estimation of mercury speciation in combustion flue gases. Fuel Processing Technology 2004;85(6-7):451-462. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Gupta H, Benson SA, Fan L-S, Laumb JD, Olson ES, Crocker CR, Sharma RK, Knutson RZ, Rokanuzzaman ASM, Tibbetts JE. Pilot-scale studies of NOx reduction by activated high-sodium lignite chars: a demonstration of the CARBONOX process. Industrial and Engineering Chemistry Research 2004;43(18):5820-5827. |
CR830929 (2005) |
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Laudal DL, Brown TD, Nott BR. Effects of flue gas constituents on mercury speciation. Fuel Processing Technology 2000;65:157-165. |
R827649 (2000) R827649 (Final) |
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Laudal DL, Pavlish JH, Graves J, Stockdill D. Mercury mass balances: a case study of two North Dakota power plants. Journal of the Air & Waste Management Association 2000;50(10):1798-1804. |
R827649 (2000) R827649 (Final) |
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Laudal DL, Thompson JS, Pavlish JH, Brickett LA, Chu P. Use of continuous mercury monitors at coal-fired utilities. Fuel Processing Technology 2004;85(6-7):501-511. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Laudal DL, Thompson JS, Pavlish JH, Brickett L, Chu P, Srivastava RK, Lee CW, Kilgroe J. Mercury speciation at power plants using SCR and SNCR control technologies. Environmental Manager. 2003;(February):16-22. |
R827649 (2002) R827649 (2003) R827649 (Final) R827649C001 (Final) |
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Laumb JD, Benson SA, Olson EA. X-Ray photoelectron spectroscopy analysis of mercury sorbent surface chemistry. Fuel Processing Technology 2004;85(6-7):577-585. |
CR830929 (2004) R827649 (2002) R827649 (2003) R827649 (Final) |
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Mann MD. Mercury emissions. FGD and DeNOx Newsletter, May 1999, No. 253, pp. 5-6. |
R827649 (2000) |
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Miller SJ, Dunham GE, Olson ES, Brown TD. Flue gas effects on a carbon-based mercury sorbent. Fuel Processing Technology 2000;65:343-363. |
R827649 (2000) R827649 (Final) |
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Olson ES, Miller SJ, Sharma RK, Dunham GE, Benson SA. Catalytic effects of carbon sorbents for mercury capture. Journal of Hazardous Materials 2000;74(1-2):61-79. |
R827649 (2001) R827649C001 (2001) R827649C001 (Final) |
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Olson ES, Sharma RK, Pavlish JH. On the analysis of mercuric nitrate in flue gas by GC-MS. Analytical and Bioanalytical Chemistry 2002;374(6):1045-1049. |
R827649 (2002) R827649 (Final) |
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Olson ES, Laumb JD, Benson SA, Dunham GE, Sharma RK, Mibeck BA, Miller SJ, Holmes MJ, Pavlish JH. Chemical mechanisms in mercury emission control technologies. Journal of Physique IV 2003;107(4):979-982. |
R827649 (2003) R827649 (Final) |
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Olson ES, Laumb JD, Benson SA, Dunham GE, et al. The multiple site model for flue gas-mercury interactions on activated carbons: the basic site. American Chemical Society, Division of Fuel Chemical 2003;48(1):30-31. |
R827649 (2003) R827649 (Final) |
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Olson ES, Crocker CR, Benson SA, Pavlish JH, Holmes MJ. Surface compositions of carbon sorbents exposed to simulated low-rank coal flue gases. Journal of the Air & Waste Management Association 2005;55(6):747-754. |
CR830929 (2004) CR830929 (2005) R827649 (2003) R827649 (Final) |
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Pavlish JH. Status of particulate matter research and development. Filtration & Separation 1999;36(2):11. |
R827649 (2000) R827649 (Final) |
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Pavlish JH, Sondreal EA, Mann MD, Olson ES, Galbreath KC, Laudal DL, Benson SA. State review of mercury control options for coal-fired power plants. Fuel Processing Technology 2003; 82(2-3):89-165. |
R827649 (2002) |
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Pavlish JH, Sondreal EA, Mann MD, Olson ES, Galbreath KC, Laudal DL, Benson SA. Status review of mercury control options for coal-fired power plants. Fuel Processing Technology 2003;82(2-3):89-165. |
R827649 (2003) R827649 (Final) |
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Pavlish JH, Holmes MJ, Benson SA, Crocker CR, Galbreath KC. Application of sorbents for mercury control for utilities burning lignite coal. Fuel Processing Technology 2004;85(6-7):563-576. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Pflughoeft-Hassett DF, Hassett DJ, Heebink LV, Buckley TD. The current state of the science related to the re-release of mercury from coal combustion products. Ash at Work 2006;1:26-27. |
CR830929 (2006) |
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Raymond LJ, Ralston NVC. Mercury: selenium interactions and health implications. Seychelles Medical and Dental Journal 2004;7(1):72-77. |
CR830929 (2004) R827649 (Final) |
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Sondreal EA, Benson SA, Pavlish JH. Status of research on air quality: mercury, trace elements, and particulate matter. Fuel Processing Technology 2000;65:5-19. |
R827649 (2000) R827649 (Final) |
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Sondreal EA, Benson SA, Hurley JP, Mann MD, Pavlish JH, Swanson ML, Weber GF, Zygarlicke CJ. Review of advances in combustion technology and biomass cofiring. Fuel Processing Technology. 2001;71(1-3):7-38. |
R827649 (2001) R827649C001 (2001) R827649C001 (Final) |
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Sondreal EA, Jones ML, Groenewold GH. Tides and trends in the world’s electric power industry. The Electricity Journal 2001;14(1):61-79. |
R827649 (Final) |
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Sondreal EA, Benson SA, Pavlish JH, Ralston NV. An overview of air quality III: mercury, trace elements, and particulate matter. Fuel Processing Technology 2004;85(6-7):425-440. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Thompson JS, Pavlish JH. Cryogenic trapping of oxidized mercury species from combustion flue gas. Fuel Processing Technology 2000;65:167-175. |
R827649 (2000) R827649 (Final) |
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Timpe RC, Mann MD, Pavlish JH. Organic sulfur and hap removal from coal using hydrothermal treatment. Fuel Processing Technology 2001;73(2):127-141. |
R827649 (2000) R827649 (2001) R827649C001 (2001) R827649C001 (Final) |
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Xin M, Gustin MS, Ladwig K, Pflughoeft-Hassett DF. Air-substrate mercury exchange associated with landfill disposal of coal combustion products. Journal of the Air & Waste Management Association 2006;56(8):1167-1176. |
CR830929 (2006) |
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Zhao Y, Mann MD, Pavlish JH, Mibeck BAF, Dunham GE, Olson ES. Application of gold catalyst for mercury oxidation by chlorine. Environmental Science & Technology 2006;40(5):1603-1608. |
CR830929 (2004) CR830929 (2005) CR830929 (2006) R827649 (Final) |
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Zhao Y, Mann MD, Olson ES, Pavlish JH, Dunham GE. Effects of sulfur dioxide and nitric oxide on mercury oxidation and reduction under homogeneous conditions. Journal of the Air & Waste Management Association 2006;56(5):628-635. |
CR830929 (2004) CR830929 (2005) CR830929 (2006) |
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Zhuang Y, Thompson JS, Zygarlicke CJ, Pavlish JH. Development of a mercury transformation model in coal combustion flue gas. Environmental Science & Technology 2004;38(21):5803-5808. |
CR830929 (2004) R827649 (Final) |
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Zhuang Y, Zygarlicke CJ, Galbreath KC, Thompson JS, Holmes MJ, Pavlish JH. Kinetic transformation of mercury in coal combustion flue gas in a bench-scale entrained-flow reactor. Fuel Processing Technology 2004;85(6-7):463-472. |
CR830929 (2004) R827649 (2003) R827649 (Final) |
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Zygarlicke CJ, Zhuang Y, Galbreath KC, Thompson JS, Holmes MJ, Tibbetts JE, Schulz RL, Dunham GE. Experimental investigation of mercury transformations in pilot-scale combustion systems and a bench-scale entrained flow reactor. Fuel Processing Technology. |
R827649 (2002) |
not available |
Air, mercury, emissions, adsorption, absorption, chemical transport, health effects, human health, toxics, particulates, metals, sorbents, oxidants, nitrogen oxides, sulfates, pollution prevention, clean technologies, innovative technology, renewable, waste reduction, waste minimization, cost-benefit, environmental chemistry, physics, engineering, pathology, modeling, monitoring, analytical, measurement methods, industry, selenium, mercury sorbents, mercury additives.
, ENVIRONMENTAL MANAGEMENT, Air, Scientific Discipline, Risk Assessment, Health Risk Assessment, Ecological Risk Assessment, air toxics, Atmospheric Sciences, Environmental Monitoring, exposure assessment, mercury emissions, emission control strategies, aerosol particles, air sampling, airborne metals, metals, air quality standardsProgress and Final Reports:
2004 Progress Report
2005 Progress Report
2006 Progress Report
Subprojects under this Center:
(EPA does not fund or establish subprojects; EPA awards and manages the overall grant for this center).
R827649C001 Development And Demonstration Of Trace Metals Database
R827649C002 Nickel Speciation Of Residual Oil Ash
R827649C003 Atmospheric Deposition: Air Toxics At Lake Superior
R827649C004 Novel Approaches For Prevention And Control For Trace Metals
R827649C005 Wet Scrubber System
R827649C006 Technology Commercialization And Education
R827649C007 Development Of Speciation And Sampling Tools For Mercury In Flue Gas
R827649C008 Process Impacts On Trace Element Speciation
R827649C009 Mercury Transformations in Coal Combustion Flue Gas
R827649C010 Nickel, Chromium, and Arsenic Speciation of Ambient Particulate Matter in the Vicinity of an Oil-Fired Utility Boiler
R827649C011 Transition Metal Speciation of Fossil Fuel Combustion Flue Gases
R827649C012 Fundamental Study of the Impact of SCR on Mercury Speciation
R827649C013 Development of Mercury Sampling and Analytical Techniques
R827649C014 Longer-Term Testing of Continuous Mercury Monitors
R827649C015 Long-Term Mercury Monitoring at North Dakota Power Plants
R827649C016 Development of a Laser Absorption Continuous Mercury Monitor
R827649C017 Development of Mercury Control Technologies
R827649C018 Developing SCR Technology Options for Mercury Oxidation in Western Fuels
R827649C019 Modeling Mercury Speciation in Coal Combustion Systems
R827649C020 Stability of Mercury in Coal Combustion By-Products and Sorbents
R827649C021 Mercury in Alternative Fuels
R827649C022 Studies of Mercury Metabolism and Selenium Physiology