Record Display for the EPA National Library Catalog

RECORD NUMBER: 5 OF 67

Main Title Calcination of Calcium-Based Sorbents for Control of SO2 Emissions from Coal Fired Boilers.
Author Harrison, D. J. ; Newton, G. H. ; Pershing, D. W. ;
CORP Author Utah Univ., Salt Lake City. Dept. of Chemical Engineering.;Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab.
Year Published 1986
Report Number EPA-R-811001; EPA/600/D-86/015;
Stock Number PB86-148145
Additional Subjects Air pollution control ; Sorbents ; Sulfur dioxide ; Boilers ; Experimental design ; Limestone ; Calcium oxides ; Dolomites ; Surfaces ; Industrial wastes ; Combustion products ;
Holdings
Library Call Number Additional Info Location Last
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Status
NTIS  PB86-148145 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 26p
Abstract
The paper summarizes the results of an experimental study that focused on the production of high surface area materials from various sorbents. (NOTE: Injecting calcium-based sorbents into coal burning utility boilers to control SO2 emissions is being considered by the EPA as an acid rain control technology because capital equipment requirements are small and the process is entirely dry. Both theoretical calculations and experimental results indicate that SO2 capture is strongly related to the surface area of the calcined sorbent. Thus, an improved understanding of the formation of surface area is required for the complete optimization of the sorbent injection process.) Weight loss and B.E.T. surface area data were obtained as a function of residence time and furnace temperature for 14 different sorbents which were members of 4 distinct classes: limestones, dolomites, hydrated limes, and pressure hydrated dolomitic limes. The results demonstrate major differences between classes of sorbents. In general, the hydrated limes calcined faster and produced higher surface areas than the corresponding carbonates. The dolomitic materials also produced higher surface areas than the comparable calcitic sorbents. Pressure hydrated dolomitic limes performed the best, producing surface areas in excess of 140 sq m/g; the limestones performed the worst.