Heat exchanger for heating of fuel cell combustion air
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F28D-007/08
F28D-007/00
출원번호
US-0018774
(2004-12-20)
등록번호
US-7255157
(2007-08-14)
발명자
/ 주소
Richardson,Curtis A.
출원인 / 주소
Delphi Technologies, Inc.
인용정보
피인용 횟수 :
7인용 특허 :
4
초록▼
A heat exchanger for a solid-oxide fuel cell assembly. A plurality of parallel tubes conveys fuel cell stack exhaust gas from a first manifold means to a second manifold means. The tubes are highly corrugated to increase the wall area and decrease the wall thickness. The tubes are disposed in a jack
A heat exchanger for a solid-oxide fuel cell assembly. A plurality of parallel tubes conveys fuel cell stack exhaust gas from a first manifold means to a second manifold means. The tubes are highly corrugated to increase the wall area and decrease the wall thickness. The tubes are disposed in a jacket through which is passed incoming air to be heated. The tubes may be linear between two manifolds, or they may be curved such that the first and second manifold functions are accommodated within a single component.
대표청구항▼
What is claimed is: 1. A heat exchanger, comprising: a) at least one fuel cell exhausting a first fluid; b) a first plate defining a first slot, a second slot, and a first manifold; c) a second plate defining a second manifold and a third manifold; d) a first tubular element for conveying said firs
What is claimed is: 1. A heat exchanger, comprising: a) at least one fuel cell exhausting a first fluid; b) a first plate defining a first slot, a second slot, and a first manifold; c) a second plate defining a second manifold and a third manifold; d) a first tubular element for conveying said first fluid at a first starting temperature, said first tubular element having first and second ends, said first end of said first tubular element in fluid communication with said first slot, said second end of said first tubular element in fluid communication with said second manifold; e) a second tubular element for conveying said first fluid having first and second ends, said first end of said second tubular element in fluid communication with said second manifold, said second end of said second tubular element in fluid communication with said first manifold; f) a third tubular element for conveying said first fluid having first and second ends, said first end of said third tubular element in fluid communication with said first manifold, said second end of said fourth tubular element in fluid communication with said third manifold; g) a fourth tubular element for conveying said first fluid having first and second ends, said first end of said fourth tubular element in fluid communication with said third manifold, said second end of said third tubular element in fluid communication with said second slot; and h) a jacket surrounding at least one of said tubular elements for conveying a second fluid at a second starting temperature around said at least one of said tubular elements, whereby heat is transferred between said first fluid and said second fluid. 2. A heat exchanger in accordance with claim 1 wherein at least one of said tubular elements is corrugated. 3. A heat exchanger in accordance with claim 1 wherein said first fluid and said second fluid are both gases. 4. A heat exchanger in accordance with claim 1 wherein said first fluid is fuel cell exhaust and said second fluid is air. 5. A heat exchanger in accordance with claim 1 further including a cover plate, wherein said second manifold is defined by said cover plate and a first well formed in said second plate, and wherein said third manifold is defined by said cover plate and a second well formed in said second plate. 6. A heat exchanger in accordance with claim 1 wherein said tubular elements are arranged for parallel flow of said first fluid therein between said first and second plates. 7. A heat exchanger, comprising: a) at least one fuel cell exhausting a first fluid; b) an array of said tubular elements arranged into five M-shaped flow paths for conveying said first fluid at a first starting temperature, said tubular elements having first and second ends; c) first and second connecting means attached to said first and second ends, respectively, for conducting said first fluid into and out of said at least one tubular element, said tubular elements arranged for parallel flow of said first fluid therein between said first and second connecting means; and d) a jacket surrounding said tubular elements for conveying a second fluid at a second starting temperature around said tubular elements, whereby heat is transferred between said first fluid and said second fluid. 8. A fuel cell assembly comprising a heat exchanger for exchanging heat between fuel cell exhaust gas and incoming air, said exchanger including: at least one fuel cell exhausting said exhaust gas; a first plate defining a first slot, a second slot, and a first manifold; a second plate defining a second manifold and a third manifold; a first tubular element for conveying said exhaust gas at a first starting temperature, said first tubular element having first and second ends, said first end of said first tubular element in fluid communication with said first slot, said second end of said first tubular element in fluid communication with said second manifold; a second tubular element for conveying said exhaust gas having first and second ends, said first end of said second tubular element in fluid communication with said second manifold, said second end of said second tubular element in fluid communication with said first manifold; a third tubular element for conveying said exhaust gas having first and second ends, said first end of said third tubular element in fluid communication with said first manifold, said second end of said third tubular element in fluid communication with said third manifold; a fourth tubular element for conveying said exhaust gas having first and second ends, said first end of said fourth tubular element in fluid communication with said third manifold, said second end of said fourth tubular element in fluid communication with said second slot, and a jacket surrounding said at least one of said tubular elements for conveying said incoming air at a second starting temperature around said at least one of said tubular elements, whereby heat is transferred between said exhaust gas and said incoming air. 9. A heat exchanger in accordance with claim 8 wherein at least one of said tubular elements is corrugated. 10. A heat exchanger in accordance with claim 9 wherein said tubular elements are arranged for parallel flow of said exhaust therein between said first and second plates. 11. A fuel cell assembly comprising a heat exchanger for exchanging heat between fuel cell exhaust gas and incoming air, said exchanger including: at least one fuel cell exhausting said exhaust gas; an array of twenty tubular elements arranged into five M-shaped flow paths for conveying said exhaust gas at a first starting temperature, said tubular elements including first and second ends; first and second connecting means attached to said first and second ends, respectively, for conducting said exhaust gas into and out of said tubular elements, said tubular elements arranged for parallel flow of said exhaust therein between said first and second connecting means; and a jacket surrounding said tubular elements for conveying said incoming air at a second starting temperature around said tubular elements, whereby heat is transferred between said exhaust gas and said incoming air. 12. A method for exchanging heat in a fuel cell assembly, the method comprising: providing a first plate defining a first slot, a second slot, and a first manifold; providing a second plate defining a second manifold and a third manifold; providing a first tubular element having first and second ends, said first end of said first tubular element in fluid communication with said first slot, said second end of said first tubular element in fluid communication with said second manifold; providing a second tubular element having first and second ends, said first end of said second tubular element in fluid communication with said second manifold, said second end of said second tubular element in fluid communication with said first manifold; providing a third tubular element having first and second ends, said first end of said third tubular element in fluid communication with said first manifold, said second end of said third tubular element in fluid communication with said third manifold; providing a fourth tubular element having first and second ends, said first end of said fourth tubular element in fluid communication with said third manifold, said second end of said fourth tubular element in fluid communication with said second slot; providing a jacket at least partially surrounding the at least one of said tubular elements; conveying a fuel cell exhaust fluid at a first starting temperature through at least a portion of at least one of said tubular element elements; and conveying an incoming fluid at a second starting temperature between the jacket and the at least one of said tubular elements, whereby heat is transferred between the fuel cell exhaust fluid and the incoming fluid. 13. A method in accordance with claim 12 wherein the fuel cell exhaust fluid is a gas. 14. A method in accordance with claim 12 wherein the incoming fluid is air. 15. A method in accordance with claim 12 wherein at least one of the tubular elements is corrugated.
Micheli Paul L. (Morgantown WV) Williams Mark C. (Morgantown WV) Parsons Edward L. (Morgantown WV), Indirect-fired gas turbine bottomed with fuel cell.
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