Record Display for the EPA National Library Catalog

RECORD NUMBER: 508 OF 1213

OLS Field Name OLS Field Data
Main Title Feasibility of Fabric Filter as Gas-Solid Contactor to Control Gaseous Pollutants.
Author Veazi, F. Munro ; Kielmeye, William H. ;
CORP Author Owens-Corning Fiberglas Corp., Granville, Ohio. Technical Center.
Year Published 1970
Report Number PH-22-68-64; 0595;
Stock Number PB-195 884
Additional Subjects ( Air pollution ; Sulfur dioxide) ; ( Air pollution control equipment ; Gas filters) ; ( Coated fabrics ; Contactors) ; ( Sodium aluminates ; Adsorbents) ; ( Dolomite (Rock) ; Adsorbents) ; ( Magnesium oxides ; Adsorbents) ; ( Carbonates ; Adsorbents) ; Glass cloth ; Chemisorption ; Flue gases ; Calcium oxides ; Sodium carbonates ; Temperature ; Fly ash ; Adsorption ; Air pollution control ; Nahcolite ; Waste gas recovery
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB-195 884 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/23/1988
Collation 116p
Abstract
The chemical contacting potential of fabric filters was evaluated with emphasis on the 600-1000 F temperature range according to a new fabric capability. SO2 was carried in flue gases that closely resembled in composition the effluent of coal-burning facilities. The technical feasibility of using a glass fabric filter bag house as a collector of reacted materials and as a contactor for reactants to remove objectional gases from exhaust gas streams up to temperatures of 900 F was demonstrated. Of the reactant materials investigated in the temperature range of 700 F to 900 F, slaked lime and slaked dolomite are possible candidates for SO2 removal in the filter bag system from a standpoint of reactant efficiency, total SO2 removal and potential economical cost. In the temperature range of 300 F to 500 F, alkalyzed alumina proved to be very effective for SO2 removal, but would probably require regeneration for its economical use. Nahcolite, a naturally occurring sodium bicarbonate, is also effective in removing SO2 in the temperature range of 300 F to 500 F but would also require regeneration to be economical. Manganese dioxide can be used most effectively in the temperature range of 500 F to 700 F, but also requires regeneration to be economically useful. (NAPCA-abstract)