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RECORD NUMBER: 5 OF 18

OLS Field Name OLS Field Data
Main Title Emissions of Sulfur Trioxide from Coal-Fired Power Plants.
Author R. K. Srivastava ; C. A. Miller ; C. Erickson ; R. Jambhekar
CORP Author Environmental Protection Agency, Research Triangle Park, NC. Air Pollution Prevention and Control Div.
Year Published 2002
Stock Number PB2013-101926
Additional Subjects Sulfates ; Power plants ; Emissions ; Acid deposition ; Violations ; Sulfur ; Coal ; Oxidation ; Mist production ; Fossil-fuel power plants ; Coal-fired power plants ; Sulfur trioxide(SO3) ; Selective Catalytic Reduction(SCR)
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NTIS  PB2013-101926 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 04/24/2013
Collation 20p
Abstract
Emissions of sulfur trioxide (SO3) are a key component of plume opacity and acid deposition. Consequently, these emissions need to be low enough not to cause opacity violations and acid deposition. Generally, a small fraction of sulfur in coal is converted to SO3 in coalfired combustion devices such as electric utility boilers. The emissions of SO3 from such a boiler depend on coal sulfur content, combustion conditions, flue gas characteristics, and air pollution devices being used. It is well known that the catalyst used in the selective catalytic reduction (SCR) technology for nitrogen oxides (NOx) control oxidizes a small fraction of sulfur dioxide (SO2) in the flue gas to SO3. The extent of this oxidation depends on the catalyst formulation and SCR operating conditions. Gas-phase SO3 and sulfuric acid (H2SO4), on being quenched in plant equipment (e.g., air preheater and wet scrubber), result in fine acidic mist, which can cause increased plume opacity and undesirable emissions. Recently, such effects have been observed at plants firing high-sulfur coal and equipped with SCR systems and wet scrubbers. This paper investigates the factors that affect acidic mist production in coal-fired electric utility boilers and discusses approaches for mitigating emission of this mist.