Rapid startup of fuel processor using water adsorption
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C01B-003/00
C01B-003/02
B01J-008/00
B01J-008/02
B01J-008/04
출원번호
US-0853398
(2001-05-14)
발명자
/ 주소
Gittleman, Craig S
출원인 / 주소
General Motors Corporation
대리인 / 주소
Brooks Cary W.
인용정보
피인용 횟수 :
11인용 특허 :
2
초록▼
An apparatus and method is disclosed for rapidly heating fuel processor components during startup of a fuel cell powered vehicle. Rapid heating is achieved by placing a water adsorbent downstream of the fuel processor's primary reactor, which converts a hydrocarbon-based fuel to a hydrogen-rich fuel
An apparatus and method is disclosed for rapidly heating fuel processor components during startup of a fuel cell powered vehicle. Rapid heating is achieved by placing a water adsorbent downstream of the fuel processor's primary reactor, which converts a hydrocarbon-based fuel to a hydrogen-rich fuel. In addition to hydrogen, the reformed fuel (reformate) includes carbon dioxide, carbon monoxide and water. The water adsorbent, which has a high heat of adsorption, produces heat as it adsorbs water in the reformate. Heat generated by water adsorption enhances the rate at which fuel processor components, such as a water-gas-shift reactor, reach their operating temperatures. In addition, water adsorption reduces water condensation on the water-gas-shift reactor catalyst. Once the fuel processor components attain their operating temperatures, water desorbs from the adsorbent and is available for converting carbon monoxide to carbon dioxide and hydrogen in the water-gas-shift reactor.
대표청구항▼
1. A fuel processor comprising:a primary reactor for converting a hydrocarbon-based fuel to hydrogen, carbon dioxide, carbon monoxide and water;a water-gas-shift reactor having an inlet in fluid communication with an outlet of the primary reactor, the water-gas-shift reactor containing a catalyst th
1. A fuel processor comprising:a primary reactor for converting a hydrocarbon-based fuel to hydrogen, carbon dioxide, carbon monoxide and water;a water-gas-shift reactor having an inlet in fluid communication with an outlet of the primary reactor, the water-gas-shift reactor containing a catalyst that is adapted to convert at least a portion of the carbon monoxide from the primary reactor to carbon dioxide and hydrogen; anda water adsorbent located within a flow path between the outlet of the primary reactor and an outlet of the water-gas-shift reactor, the water adsorbent generating heat during startup of the fuel processor by adsorbing at least a portion of the water from the primary reactor. 2. The fuel processor of claim 1, wherein the water adsorbent is interspersed with the water-gas-shift reactor catalyst. 3. The fuel processor of claim 1, wherein the water adsorbent has a heat of adsorption of at least about 10 kcal/mole H 2 O. 4. The fuel processor of claim 1, wherein the water adsorbent has a heat of adsorption of at least about 20 kcal/mole H 2 O. 5. The fuel processor of claim 1, wherein the water adsorbent is a monolith. 6. The fuel processor of claim 1, wherein:the mass ratio of water adsorbent to water-gas-shift reactor catalyst is about 0.02 to about 0.20. 7. The fuel processor of claim 1, further comprising a source of dry gas for purging water from a void volume adjacent the water adsorbent during fuel processor shutdown. 8. The fuel processor of claim 1, further comprising:a preferential oxidation reactor having an inlet in fluid communication with the outlet of the water-gas-shift reactor, the preferential oxidation reactor containing a catalyst that is adapted to convert at least a portion of the carbon monoxide from the water-gas-shift reactor to carbon dioxide; anda second water adsorbent located within a flow path between the outlet of the water-gas-shift reactor and an outlet of the preferential oxidation reactor. 9. The fuel processor of claim 1, wherein the fuel processor is a part of a fuel cell engine, the fuel cell engine comprising a fuel cell stack for generating electricity from hydrogen generated by the fuel processor. 10. A fuel processor comprising:a primary reactor for converting a hydrocarbon-based fuel to hydrogen, carbon dioxide, carbon monoxide and water;a water-gas-shift reactor having an inlet in fluid communication with an outlet of the primary reactor, the water-gas-shift reactor containing a catalyst that is adapted to convert at least a portion of the carbon monoxide from the primary reactor to carbon dioxide and hydrogen; anda zeolite water adsorbent located within a flow path between the outlet of the primary reactor and an outlet of the water-gas-shift reactor, the zeolite water adsorbent generating heat during startup of the fuel processor by adsorbing at least a portion of the water from the primary reactor. 11. The fuel processor of claim 10, wherein the zeolite water adsorbent has a molar ratio of silicon to aluminum less than about five. 12. The fuel processor of claim 10, wherein the zeolite water adsorbent is a type A zeolite or has FAU structure. 13. The fuel processor of claim 10, wherein the zeolite water adsorbent has a crystalline lattice in which some or all of the silicon or aluminum have been isomorphously substituted with a different element. 14. The fuel processor of claim 10, wherein the zeolite water adsorbent is interspersed with the water-gas-shift reactor catalyst. 15. The fuel processor of claim 10, wherein the zeolite water adsorbent has a heat of adsorption greater than or about equal to 10 kcal/mole H 2 O. 16. The fuel processor of claim 10, wherein the zeolite water adsorbent has a heat of adsorption greater than about 20 kcal/mole H 2 O. 17. The fuel processor of claim 10, wherein the zeolite water adsorbent has the form of a monolith. 18. The fuel processor of claim 10, wherein:the mass ratio of the zeolite water adsorbent to water-gas-shift re actor catalyst is about 0.02 to 0.20. 19. The fuel processor of claim 10, further comprising a source of dry gas for purging water from a void volume adjacent the zeolite water adsorbent during fuel processor shutdown. 20. The fuel processor of claim 10, further comprising:a preferential oxidation reactor having an inlet in fluid communication with an outlet of the water-gas-shift reactor, the preferential oxidation reactor containing a catalyst that is adapted to convert at least a portion of the carbon monoxide from the water-gas-shift reactor to carbon dioxide; anda second water adsorbent located within a flow path between the outlet of the water-gas-shift reactor and an outlet of the preferential oxidation reactor. 21. The fuel processor of claim 10, wherein the fuel processor is a part of a fuel cell engine, the fuel cell engine comprising a fuel cell stack for generating electricity from hydrogen generated by the fuel processor. 22. A method of heating a fuel processor during startup, the fuel processor comprising a primary reactor for converting a hydrocarbon-based fuel to hydrogen, carbon dioxide, carbon monoxide and water, and a water-gas-shift reactor having an inlet in fluid communication with an outlet of the primary reactor, the water-gas-shift reactor containing a catalyst that is adapted to convert at least a portion of the carbon monoxide from the primary reactor to carbon dioxide and hydrogen, the method comprising:providing a water adsorbent located within a flow path between the outlet of the primary reactor and an outlet of the water-gas-shift reactor, the water adsorbent generating heat during startup of the fuel processor by adsorbing at least a portion of the water from the primary reactor. 23. The method of claim 22, further comprising providing a zeolite water adsorbent. 24. The method of claim 22, further comprising purging water from a void volume adjacent the water adsorbent with a dry gas during fuel processor shutdown. 25. The method of claim 22, further comprising introducing air or oxygen into the water-gas-shift reactor to light off the catalyst. 26. The method of claim 22, further comprising:providing a second water adsorbent located within a flow path between the outlet of the water-gas-shift reactor and an outlet of a preferential oxidation reactor. 27. A method of starting-up a fuel processor comprising a primary reactor that converts a hydrocarbon fuel to an effluent comprising hydrogen, carbon dioxide, carbon monoxide and water, and a water-gas-shift reactor having a catalyst that promotes the water-gas-shift reaction of said carbon monoxide with water to produce more hydrogen and carbon dioxide, comprising the steps of: (a) positioning a water adsorbent adjacent said; (b) flowing said effluent through said adsorbent to adsorb said water on said adsorbent and release the heat of adsorption; (c) heating said catalyst with said heat of adsorption; and (d) introducing oxygen into the heated catalyst to light-off said catalyst and commence said water-gas-shift reaction. 28. A method according to claim 27 wherein said adsorbent has a heat of adsorption of at least about 10 kcal/mole H 2 O. 29. A method according to claim 27 wherein said adsorbent is upstream of said catalyst, and said heat is carried into said catalyst by said effluent. 30. A method according to claim 27 wherein said adsorbent is interspersed with said catalyst.
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이 특허에 인용된 특허 (2)
Gittleman, Craig S.; Gupta, Ramesh, Combined water gas shift reactor/carbon dioxide adsorber for use in a fuel cell system.
Schaper Lambert (Amsterdam NLX) Runderkamp Bernardus J. (The Hague NLX) Sie Swan T. (Amsterdam NLX) Spakman Nicoline W. (The Hague NLX), Process for preparing hydrocarbons from gasification of coal.
Kim, Soonho; Lee, Doohwan; Lee, Hyun-chul; Lee, Dong-woo; Park, Tae-sang, Shift reactor, fuel cell system employing the same, and operating method of the same.
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