Methods and apparatus for cooling syngas in a gasifier
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C01B-003/24
B01J-008/00
출원번호
US-0621816
(2007-01-10)
등록번호
US-8163047
(2012-04-24)
발명자
/ 주소
Goller, George Albert
Nowak, Daniel Anthony
출원인 / 주소
General Electric Company
대리인 / 주소
Armstrong Teasdale LLP
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
A method of cooling hot fluid flowing through a chamber is provided. The method includes channeling cooling fluid through at least one cooling tube that extends through a passage of the chamber, and circulating the hot fluid flowing within the passage around the at least one cooling tube using at le
A method of cooling hot fluid flowing through a chamber is provided. The method includes channeling cooling fluid through at least one cooling tube that extends through a passage of the chamber, and circulating the hot fluid flowing within the passage around the at least one cooling tube using at least one fluid diverter.
대표청구항▼
1. A method of cooling fluid flowing through a chamber, said method comprising: channeling a hot fluid downwardly from a combustion zone to a first passage surrounding the combustion zone, wherein the combustion zone is defined within a refractory wall, and the first passage is defined between the r
1. A method of cooling fluid flowing through a chamber, said method comprising: channeling a hot fluid downwardly from a combustion zone to a first passage surrounding the combustion zone, wherein the combustion zone is defined within a refractory wall, and the first passage is defined between the refractory wall and an outer wall spaced radially outwardly from the refractory wall;channeling the hot fluid upwardly through the first passage to a second passage surrounding the first passage;channeling cooling fluid through a plurality of cooling tubes positioned within the first passage, wherein the cooling fluid is channeled into an inlet extending through an outer wall of the chamber, through a plurality of cooling tubes coupled to the inlet, and through an outlet extending through the chamber outer wall, each cooling tube of the plurality of cooling tubes including a first end coupled to the inlet, a second end coupled to the outlet, and an outer surface that extends between the first end and the second end, wherein each cooling tube extends through the first passage such that the plurality of cooling tubes are spaced circumferentially about the combustion zone;circulating the hot fluid flowing within the first passage around each cooling tube using at least one fluid diverter coupled to each cooling tube such that the hot fluid is channeled from the combustion zone across each cooling tube outer surface from the first end towards the second end; andchanneling the cooling hot fluid downwardly through the second passage towards an outlet. 2. A method in accordance with claim 1 wherein circulating the fluid within the passage around each cooling tube comprises channeling the fluid around each cooling tube in a pattern that facilitates increasing heat transfer between each cooling tube and the fluid. 3. A method in accordance with claim 1 wherein channeling cooling fluid through each cooling tube comprises channeling cooling fluids through each cooling tube to facilitate transferring heat from the fluid to the cooling fluid. 4. A method in accordance with claim 1 wherein circulating the fluid using at least one fluid diverter comprises circulating the fluid with at least one fluid diverter extending circumferentially around at least one cooling tube of the plurality of cooling tubes. 5. A method in accordance with claim 1 wherein circulating the fluid using at least one fluid diverter comprises circulating the fluid with at least one fluid diverter extending helically around at least one cooling tube of the plurality of cooling tubes. 6. A method in accordance with claim 1 wherein channeling cooling fluid through the plurality of cooling tubes comprises channeling steam through each cooling tube. 7. A method in accordance with claim 1 wherein channeling cooling fluid through the plurality of cooling tubes comprises channeling cooling fluid through each cooling tube to facilitate cooling a wall of the chamber. 8. A radiant cooler for use with a gasifier, said radiant cooler comprising: an inlet extending through an outer wall of a chamber of the gasifier;an outlet extending through the outer wall; anda plurality of cooling tubes extending between said inlet and said outlet, each cooling tube of said plurality of cooling tubes comprising a first end coupled to said inlet, a second end coupled to said outlet, and an outer surface that extends between said first end and said second end, each said cooling tube extending through a first passage defined between the outer wall and a refractory wall positioned within the chamber, wherein the refractory wall defines a combustion zone that is at least partially surrounded by the first passage such that said plurality of cooling tubes are spaced circumferentially about said combustion zone and wherein an interior wall divides the chamber between the outer wall and the refractory wall into two passages such that the first passage including the cooling tubes extends between the refractory wall and the interior wall, and the second passage is formed between the interior wall and the outer wall, the first passage is oriented for channeling a hot fluid from the combustion zone and upwardly through the first passage, each said cooling tube is oriented within the first passage such that the hot fluid is channeled substantially parallel with respect to each cooling tube and across each said cooling tube outer surface from said first end towards said second end, said inlet oriented to channel cooling fluid into each said cooling tube, each said cooling tube comprising at least one fluid diverter coupled to an outer surface of said cooling tube for circulating the hot fluid flowing through the first passage around each said cooling tube outer surface from said first end towards said second end, and wherein said second passage is oriented for channeling the reactant fluid from said first passage downwardly through said second passage. 9. A radiant cooler in accordance with claim 8 wherein said at least one fluid diverter is configured to facilitate increasing heat transfer between said at least one cooling tube and the hot fluid. 10. A radiant cooler in accordance with claim 8 wherein said radiant cooler is configured to facilitate transferring heat from the hot fluid to a cooling fluid flowing through said radiant cooler. 11. A radiant cooler in accordance with claim 8 wherein said at least one fluid diverter extends circumferentially around said cooling tube. 12. A radiant cooler in accordance with claim 8 wherein said at least one fluid diverter extends helically around said cooling tube. 13. A radiant cooler in accordance with claim 8 wherein said radiant cooler is configured to facilitate transferring heat from the hot fluid to steam flowing through said radiant cooler. 14. A radiant cooler in accordance with claim 8 wherein said radiant cooler facilitates cooling a wall of the chamber. 15. A gasifier comprising: a chamber defined by at least an outer wall;a refractory wall positioned within said chamber, said refractory wall comprising an inner surface that defines a combustion zone therein;an interior wall positioned between said outer wall and said refractory wall such that a first passage is defined between said interior wall and said refractory wall and a second passage is defined between said interior wall and said outer wall, wherein said first passage is oriented for channeling a flow of reactant fluid from said combustion zone upwardly through said first passage, said second passage is oriented for channeling the reactant fluid from said first passage downwardly through said second passage; anda radiant cooler comprising: an inlet extending through said outer wall;an outlet extending through said outer wall; anda plurality of cooling tubes extending between said inlet and said outlet, each cooling tube of said plurality of cooling tubes comprising a first end coupled to said inlet, a second end coupled to said outlet, and an outer surface that extends between said first end and said second end, each said cooling tube extending through said first passage such that the plurality of cooling tubes are spaced circumferentially about the combustion zone and such that the reactant fluid is channeled upwardly from said combustion zone and across each said cooling tube outer surface from said first end towards said second end, each said cooling tube configured to channel a flow of cooling fluid from said inlet to said outlet, each said cooling tube comprising at least one fluid diverter coupled to said cooling tube for circulating the reactant fluid flowing through the passage around said cooling tube outer surface from said first end towards said second end. 16. A gasifier in accordance with claim 15 wherein said at least one fluid diverter is configured to facilitate increasing heat transfer between said cooling tube and the reactant fluid. 17. A gasifier in accordance with claim 15 wherein said radiant cooler is configured to facilitate transferring heat from the reactant fluid to a cooling fluid flowing through said radiant cooler. 18. A gasifier in accordance with claim 15 wherein said at least one fluid diverter extends circumferentially around said cooling tube. 19. A gasifier in accordance with claim 15 wherein said at least one fluid diverter extends helically around said cooling tube. 20. A gasifier in accordance with claim 15 wherein said radiant cooler is configured to facilitate transferring heat from the reactant fluid to steam flowing through said radiant cooler.
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