Full Record Display for the EPA National Library Catalog


Main Title Sulfur Recovery from Flue Gas Via Reversible Dry Absorbent.
CORP Author Callery Chemical Co., Pa.
Year Published 1969
Report Number CCC-69-31; PH-22-68-40; 0578;
Stock Number PB-193 483
Additional Subjects ( Waste gases ; Adsorption) ; ( Air pollution ; Sulfur compounds) ; ( Wastes(Industrial) ; Recovery) ; ( Sulfates ; Adsorption) ; Oxides ; Oxidation ; Fluidized bed processes ; Catalysts ; Sodium compounds ; Vanadium compounds ; Economics ; Sulfuric acid ; Sulfur trioxide ; Sulfur dioxide ; Waste gas recovery ; Sodium sulfates ; Desorption ; Vanadium pentoxide
Library Call Number Additional Info Location Last
NTIS  PB-193 483 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 82p
Abstract The feasibility was studied of a process for removal of sulfur oxides from flue gas using a reversible dry absorbent. Sulfur dioxide in the flue gas is first oxidized to SO3 and then absorbed on a fluidized solid. The sorbent consists of Na2SO4 impregnated on an inert carrier and takes up SO3 through the formation of sodium pyrosulfate. Oxidation of SO2 was not studied, however, catalytic oxidation was used to prepare an SO3 feed stream for the experimental program. An experimental program was carried out to develop kinetic and equilibrium data for the reaction of Na2SO4 supported on silica gel with SO3. The data were obtained under conditions suitable for a cyclic absorption and desorption process. Nitrogen oxides and water vapor in the concentration normally found in flue gas were found to have little effect on the SO3 absorption rate. Desorption of SO3 at a concentration of 6% in the gas was found to be very rapid at 930 F, and essentially quantitative recovery of SO3 was obtained at 1020 F. A process design was developed based on the reaction rates and temperature conditions determined in the experimental program. Economic studies pointed up the importance of using an inexpensive catalyst and sorbent and minimizing the loss of these materials. Therefore, the concept of using a combined catalyst and sorbent consisting of fly ash impregnated with V2O5 and Na2SO4 was developed. Preliminary experiments carried out using a fly ash based catalyst and fly ash sorbent were promising. The desorbed SO3 can be absorbed in sulfuric acid to produce concentrated H2SO4 or oleum for sale, or by maintaining a slightly reducing atmosphere in the desorber, a concentrated stream of SO2 (44%) can be produced. The estimated capital and operating costs show that the process is competitive with alternative processes. (Author)
NTIS Title Notes Summary rept. 20 Jun 68-19 Jun 69.
PUB Date Free Form 1969,
Category Codes 7A; 13B; 68A; 59B
NTIS Prices PC A05 MF A01
Document Type NT
Cataloging Source NTIS/MT
Control Number 326512689
Origin NTIS
Type CAT