Method oil shale pollutant sorption/NOreburning multi-pollutant control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-053/34
B01D-053/46
F23J-007/00
F23J-015/00
출원번호
US-0004698
(2004-12-02)
등록번호
US-7384615
(2008-06-10)
발명자
/ 주소
Boardman,Richard D.
Carrington,Robert A.
출원인 / 주소
Battelle Energy Alliance, LLC
대리인 / 주소
Trask Britt, P.C.
인용정보
피인용 횟수 :
22인용 특허 :
15
초록▼
A method of decreasing pollutants produced in a combustion process. The method comprises combusting coal in a combustion chamber to produce at least one pollutant selected from the group consisting of a nitrogen-containing pollutant, sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide
A method of decreasing pollutants produced in a combustion process. The method comprises combusting coal in a combustion chamber to produce at least one pollutant selected from the group consisting of a nitrogen-containing pollutant, sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, phosphorous pentaoxide, elemental mercury, and mercuric chloride. Oil shale particles are introduced into the combustion chamber and are combusted to produce sorbent particulates and a reductant. The at least one pollutant is contacted with at least one of the sorbent particulates and the reductant to decrease an amount of the at least one pollutant in the combustion chamber. The reductant may chemically reduce the at least one pollutant to a benign species. The sorbent particulates may adsorb or absorb the at least one pollutant. A combustion chamber that produces decreased pollutants in a combustion process is also disclosed.
대표청구항▼
What is claimed is: 1. A method of decreasing pollutants produced in a combustion process, comprising: introducing oil shale particles into a combustion chamber in the presence of at least one pollutant selected from the group consisting of a nitrogen-containing pollutant, sulfuric acid, sulfur tri
What is claimed is: 1. A method of decreasing pollutants produced in a combustion process, comprising: introducing oil shale particles into a combustion chamber in the presence of at least one pollutant selected from the group consisting of a nitrogen-containing pollutant, sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, phosphorous pentaoxide, elemental mercury, and mercuric chloride; combusting the oil shale particles to produce sorbent particulates and a reductant; exposing the at least one pollutant to at least one of the sorbent particulates and the reductant at a temperature ranging from greater than or equal to approximately 450�� C. to less than approximately 1150�� C.; and exposing the sorbent particulates to at least one of the mercury and mercuric chloride at a temperature of less than or equal to approximately 200�� C. 2. The method of claim 1, wherein introducing the oil shale particles into the combustion chamber comprises introducing the oil shale particles into at least one of a superheater zone, a reheat zone, and an economizer zone of the combustion chamber. 3. The method of claim 1, wherein combusting the oil shale particles to produce the sorbent particulates and the reductant comprises pyrolyzing the oil shale particles at a temperature of greater than or equal to approximately 200�� C. to devolatilize kerogen from the oil shale particles. 4. The method of claim 1, wherein exposing the at least one pollutant to at least one of the sorbent particulates and the reductant comprises reducing the at least one pollutant with the reductant. 5. The method of claim 1, wherein exposing the at least one pollutant to at least one of the sorbent particulates and the reductant comprises reducing the nitrogen-containing pollutant to molecular nitrogen, carbon dioxide, and water. 6. The method of claim 1, wherein combusting the oil shale particles to produce the sorbent particulates and the reductant comprises producing shale minerals, char particles, and kerogen. 7. The method of claim 1, wherein exposing the at least one pollutant to at least one of the sorbent particulates and the reductant at a temperature ranging from greater than or equal to approximately 450�� C. to less than approximately 1150�� C. comprises adsorbing or absorbing the at least one pollutant onto the sorbent particulates. 8. The method of claim 1, wherein exposing the at least one pollutant to at least one of the sorbent particulates and the reductant at a temperature ranging from greater than or equal to approximately 450�� C. to less than approximately 1150�� C. comprises adsorbing or absorbing at least one of sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, and phosphorous pentaoxide onto the sorbent particulates. 9. The method of claim 1, further comprising combusting a primary fuel with the oil shale particles. 10. The method of claim 1, wherein exposing the at least one pollutant to at least one of the sorbent particulates and the reductant at a temperature ranging from greater than or equal to approximately 450�� C. to less than approximately 1150�� C. comprises reacting at least one of sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, and phosphorous pentaoxide with the sorbent particulates. 11. A method of controlling pollutants, comprising: convening oil shale to sorbent particulates and kerogen in a combustion chamber; heating the kerogen to form a reductant; exposing the reductant to at least one nitrogen-containing pollutant at a first temperature in the combustion chamber; and exposing the sorbent particles to at least one pollutant selected from the group consisting of sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, phosphorous pentaoxide, elemental mercury, and mercuric chloride at a second temperature in the combustion chamber. 12. The method of claim 11, further comprising combusting a primary fuel at a temperature in a range of from about 1096�� C. to about 1625�� C. to produce the nitrogen-containing pollutant and the at least one pollutant. 13. The method of claim 11, wherein converting oil shale to sorbent particulates and kerogen comprises combusting the oil shale at a temperature of greater than or equal to approximately 200�� C. 14. The method of claim 11, wherein heating the kerogen to form a reductant comprises exposing the kerogen to a temperature of greater than or equal to approximately 350�� C. 15. The method of claim 11, wherein exposing the reductant to at least one nitrogen-containing pollutant at a first temperature in the combustion chamber comprises reacting the at least one nitrogen-containing pollutant and the reductant at a temperature of greater than or equal to approximately 400�� C. to produce nitrogen gas. 16. The method of claim 11, wherein exposing the sorbent particles to at least one pollutant comprises calcinating the sorbent particles at a temperature of from approximately 450�� C. to approximately 1150�� C. in the presence of at least one of sulfuric acid, sulfur trioxide, carbonyl sulfide, carbon disulfide, chlorine, hydroiodic acid, iodine, hydrofluoric acid, fluorine, hydrobromic acid, bromine, phosphoric acid, and phosphorous pentaoxide. 17. The method of claim 11, wherein exposing the sorbent particles to at least one pollutant at a second temperature in the combustion chamber comprises reacting the sorbent particles with at least one of elemental mercury and mercuric chloride at a temperature of less than approximately 200�� C.
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이 특허에 인용된 특허 (15)
Seeker William R. (San Clemente CA) Chen Shih L. (Irvine CA) Kramlich John C. (Irvine CA), Advanced reburning for reduction of NOx emissions in combustion systems.
Amrhein Gerald T. (Louisville OH) Vecci Stanley J. (Alliance OH) Rackley John M. (Alliance OH), Furnace ammonia and limestone injection with dry scrubbing for improved simultaneous SOX and NO.
Johnson Dennis Wayne ; Bhat Pervaje Ananda ; Goots Thomas Robert, Method and system for SO.sub.2 and SO.sub.3 control by dry sorbent/reagent injection and wet scrubbing.
Dean Anthony M. (Hampton NJ) DeGregoria Anthony J. (Englewood NJ) Hardy James E. (Lebanon NJ) Hurst Boyd E. (Long Valley NJ) Lyon Richard K. (Pittstown NJ), Non-catalytic method for reducing the concentration of NO in combustion effluents by injection of ammonia at temperature.
Neal Lewis G. (Danville CA) Haslbeck John L. (Paducah KY) Tseng Hsiaopin (Kansas City MO), Sorbent and processes for removing nitrogen oxides, sulfur oxides and hydrogen sulfide from gas streams.
Durham, Michael D.; Sjostrom, Sharon; Baldrey, Kenneth E.; French, Nina Bergan; Bisque, Ramon, Method and system for controlling mercury emissions from coal-fired thermal processes.
Durham, Michael; French, Nina Bergan; Bisque, Ramon E.; Baldrey, Kenneth E., Method and system for controlling mercury emissions from coal-fired thermal processes.
Boardman, Richard D.; Carrington, Robert A., Oil shale derived pollutant control materials and methods and apparatuses for producing and utilizing the same.
Fedi, Roberto; Clausi, Antonio; Cinti, Giovanni, Process for purifying a flow of combustion fumes from a clinker production plant and relative apparatus.
Hanson, Ronald D.; Martin, Cameron E.; Wewer, Robert W.; Boerema, Randall J.; Derritt, Tyler J.; McCann, Nicole M., System and method for dense phase sorbent injection.
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