Hydrogen generation apparatus incorporating a staged catalyst and method for using same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01J-007/00
B01J-008/00
B01J-010/00
출원번호
US-0599813
(2005-04-12)
등록번호
US-8617265
(2013-12-31)
국제출원번호
PCT/US2005/012458
(2005-04-12)
§371/§102 date
20070717
(20070717)
국제공개번호
WO2005/099885
(2005-10-27)
발명자
/ 주소
Chellappa, Anand
출원인 / 주소
Intelligent Energy, Inc.
대리인 / 주소
Baker Hostetler, LLP
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A method and apparatus for generation of hydrogen. The apparatus includes a hydrogen reactor chamber (99) and a plurality of catalysts within the chamber (99) forming distinct zones or portions (200, 202, and 204), each zone or portion comprising a distinct catalyst or combination thereof. The plura
A method and apparatus for generation of hydrogen. The apparatus includes a hydrogen reactor chamber (99) and a plurality of catalysts within the chamber (99) forming distinct zones or portions (200, 202, and 204), each zone or portion comprising a distinct catalyst or combination thereof. The plurality of catalysts include at least one of a high-activity steam reformation catalyst, coke resistant steam reformation catalyst and steam reformation catalyst that promotes a water gas shift reaction.
대표청구항▼
1. A hydrogen generating apparatus wherein hydrogen is generated by steam reformation of a hydrocarbon fuel, the apparatus comprising: a single hydrogen reactor chamber with mesoscale channels having a height and/or width between 0.01 and 0.5 mm;a series of zones within the mesoscale channels each c
1. A hydrogen generating apparatus wherein hydrogen is generated by steam reformation of a hydrocarbon fuel, the apparatus comprising: a single hydrogen reactor chamber with mesoscale channels having a height and/or width between 0.01 and 0.5 mm;a series of zones within the mesoscale channels each containing one of a high-activity steam reformation catalyst, a coke-resistant steam reformation catalyst and a steam reformation catalyst which promotes a water-gas shift reaction forming a staged configuration each zone being in physical contact with at least one other zone;a reactant stream;an input tube for feeding the reactant stream in fluid communication with a first zone in the reactor chamber; andan output tube for removing product gases in fluid communication with the last sequential zone in the reactor chamber;whereby all the reactant stream is passed from the input tube into the first zone then said reactant stream passes to the next zones before exiting the reactor chamber from the last zone via the output tube. 2. The hydrogen generating apparatus of claim 1, wherein the coke-resistant steam reformation catalyst is loaded at an entrance of said hydrogen reactor chamber. 3. The hydrogen generating apparatus of claim 1, wherein said high-activity steam reformation catalyst is a supported by nickel-based catalyst. 4. The hydrogen generating apparatus of claim 1 wherein said coke-resistant steam reformation catalyst is a supported doped nickel-based catalysts. 5. The hydrogen generating apparatus of claim 4, wherein said supported doped nickel-based catalyst is comprised of at least one of calcium oxide, potassium oxide and calcium aluminate or combinations thereof. 6. The hydrogen generating apparatus of claim 5, wherein said supported doped nickel-based catalysts is further comprised of at least one noble metal. 7. The hydrogen generating apparatus of claim 6, wherein said at least one noble metal is at least one of platinum, palladium, rhodium, or ruthenium or any combination thereof. 8. The hydrogen generating apparatus of claim 1, wherein said coke-resistant steam reformation catalyst is loaded at an entrance of said steam reformer, followed by said high-activity steam reformation catalyst. 9. The hydrogen generating apparatus of claim 1, wherein the high activity steam reformation catalyst contains at least one noble metal component. 10. The hydrogen generating apparatus of claim 1, wherein the plurality of catalysts are powders or coatings supported on a substrate. 11. The hydrogen generating apparatus of claim 10, wherein said substrate is selected from the group consisting of foams, monoliths, felts and mesh, or any combination thereof. 12. The hydrogen generating apparatus of claim 1, wherein a fuel cell is in fluid communication with the hydrogen generating reactor. 13. A hydrogen generating apparatus wherein hydrogen is generated by steam reformation of a hydrocarbon fuel through staged catalysis, the apparatus comprising: a hydrogen reactor chamber containing steam reformation catalysts, the catalysts in zones and each zone or portion in physical contact with at least one other zone or portion of a zone;a mesoscale channeled insert with channels having a height and/or width between 0.01 and 0.5 mm is within the reactor chamber and contains at least a portion of the catalysts;a feed stream;an input tube in fluid communication with the reactor chamber which directs all of the feed stream into the reactor chamber through each zone; andan output tube in fluid communication with the reactor chamber for removing the feed stream after it passes through all zones;wherein the zones are in series, in a predetermined sequential manner;wherein each physically contacted zone or portion contains different steam reformation catalysts; andwherein said different steam reformation catalysts includes a high-activity steam reformation catalyst, a coke-resistant reformation catalyst and a steam reformation catalyst which promotes a water-gas shift reaction. 14. The hydrogen generating apparatus of claim 13, wherein the end of each zone or portion is in contact with another zone or portion is an abrupt end. 15. The hydrogen generating apparatus of claim 13, wherein the end of each zone or portion is in contact with another zone or portion is characterized by a decreasing gradient of one or more catalysts and an increasing gradient of another. 16. The hydrogen generating apparatus of claim 13, wherein the end of each zone or portion is in contact with another zone or portion is characterized by at least one of a decreasing gradient of one or more catalysts and an increasing gradient of another and an abrupt end. 17. A hydrogen generating apparatus wherein hydrogen is generated by steam reformation of a hydrocarbon fuel, the apparatus comprising: a single hydrogen reactor chamber in which is disposed a plurality of steam reformation catalysts within mesoscale channels having a height and/or width between 0.01 and 0.5 mm forming a staged configuration, having a series of zones or portions, each zone or portion in physical contact with at least one other zone or portion, containing at least one of a plurality of steam reformation catalysts;an inlet pipe is in fluid communication with the reactor chamber whereby a feed stream can be directed into the mesoscale channels to a first catalyst zone;a second catalyst zone within the mesoscale channels in physical contact with the first catalyst and in fluid communication with an outlet pipe;whereby a feed stream is passed into the reactor via the inlet and all of the feed stream first passes through the first zone then passes through the second zone before passing through the outlet, andthe plurality of steam reformation catalysts includes a high-activity steam reformation catalyst, a coke-resistant steam reformation catalyst and a steam reformation catalyst which promotes a water-gas shift reaction. 18. The hydrogen generating apparatus of claim 17, wherein the series of zones or portions comprises a first zone, a second zone, and a third zone, in series, wherein an inlet introduces the feed stream to the first zone,wherein an outlet removes feed stream from the third zone, andwherein all of the feed stream that passes through the first zone must also pass through the second zone before passing through the outlet, andwherein all of the feed stream passing through the first zone must also pass through the third zone before passing through the outlet.
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이 특허에 인용된 특허 (3)
Wieland,Stefan; Baumann,Frank, Catalyst for autothermal reforming of hydrocarbons with increased water gas shift activity.
Clawson Lawrence G. ; Mitchell William L. ; Bentley Jeffrey M. ; Thijssen Johannes H. J., Method for converting hydrocarbon fuel into hydrogen gas and carbon dioxide.
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