PILOT-AND FULL-SCALE DEMONSTRATION OF ADVANCED MERCURY CONTROL TECHNOLOGIES FOR LIGNITE-FIRED POWER PLANTS | |
Benson, Steven A. ; Crocker, Charlene R. ; Galbreath, Kevin C. ; Gunderson, Jay R. ; Holmes, Michael J. ; Laumb, Jason D. ; Mackenzie, Jill M. ; Olderbak, Michelle R. ; Pavlish, John H. ; Yan, Li ; Zhuang, Ye | |
University of North Dakota | |
关键词: Testing; 01 Coal, Lignite, And Peat; Dry Scrubbers; Oxidation; Gases; | |
DOI : 10.2172/840345 RP-ID : NONE RP-ID : FC26-03NT41897 RP-ID : 840345 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
The overall objective of the project was to develop advanced innovative mercury control technologies to reduce mercury emissions by 50%-90% in flue gases typically found in North Dakota lignite-fired power plants at costs from one-half to three-quarters of current estimated costs. Power plants firing North Dakota lignite produce flue gases that contain >85% elemental mercury, which is difficult to collect. The specific objectives were focused on determining the feasibility of the following technologies: Hg oxidation for increased Hg capture in dry scrubbers, incorporation of additives and technologies that enhance Hg sorbent effectiveness in electrostatic precipitators (ESPs) and baghouses, the use of amended silicates in lignite-derived flue gases for Hg capture, and the use of Hg adsorbents within a baghouse. The approach to developing Hg control technologies for North Dakota lignites involved examining the feasibility of the following technologies: Hg capture upstream of an ESP using sorbent enhancement, Hg oxidation and control using dry scrubbers, enhanced oxidation at a full-scale power plant using tire-derived fuel and oxidizing catalysts, and testing of Hg control technologies in the Advanced Hybrid{trademark} filter.
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