IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0756128
(1985-07-08)
|
우선권정보 |
FR-0012013 (1984-07-27) |
발명자
/ 주소 |
- Warzawski Bernard (Paris FRX) Fauvel Pierre (Limours FRX)
|
출원인 / 주소 |
- Occidental Chemical Corp. (Niagra Falls NY 02)
|
인용정보 |
피인용 횟수 :
17 인용 특허 :
2 |
초록
▼
A single fuel cell (20) is built up from a plurality of plane members (21, 32, 42, 24). A plurality of such cells are stacked together to constitute a fuel cell structure. Each fuel cell in the structure requires access to three independent fluid circuits: an electrolyte circuit including an inlet o
A single fuel cell (20) is built up from a plurality of plane members (21, 32, 42, 24). A plurality of such cells are stacked together to constitute a fuel cell structure. Each fuel cell in the structure requires access to three independent fluid circuits: an electrolyte circuit including an inlet orifice (88A, 98A) and an outlet orifice (88B, 98B); a gas fuel circuit including inlet and outlet orifices (108); and an oxidant circuit which may be constituted by inlets and outlets in communication with ambient air. In the final structure, these circuits must be effectively sealed from one another and from the surroundings (except for the special case of ambient air oxidant). This invention improves such sealing by preventing unwanted seepage between adjacent ones of the plane members (21, 32, 42, 24) due to defects in planeness and parallelism of the individual plane members. This is done by surrounding an area to be sealed off from another area by at least one rib which stands proud of the surface of the associated plane member and which is associated with at least one groove. When the stack is assembled the ribs are ideally deformed and received in the associated grooves, but in the vicinity of non-ideal portions of the plane members the ribs serve to block gaps through which the fluids would otherwise pass.
대표청구항
▼
A fuel cell structure constituted by a plurality of identical juxtaposed cells which are disposed in electrical contact with one another and in which multiple cell forming frames are fixed together in a predetermined elementary frame sequence, the said cell structure including three distributions ne
A fuel cell structure constituted by a plurality of identical juxtaposed cells which are disposed in electrical contact with one another and in which multiple cell forming frames are fixed together in a predetermined elementary frame sequence, the said cell structure including three distributions networks which are common to all of the cells, as follows: an electrolyte distribution network for distributing electrolyte from an external source and including, in particular, a common inlet channel and a common outlet channel; a fuel distribution network for distributing fuel from an external source and including, in particular, at least one fuel inlet channel and at least one outlet channel for removing unburnt fuel and inert gases from the cell structure; and an oxidant distribution network including, in particular, a plurality of oxidant inlet and outlet orifices situated in the bottom and top faces of the cell structure; each cell additionally comprising: first and second porous electrodes which are preferably plane in shape with parallel faces, one being a cathode and the other an anode, and each including a specific catalyst; an electrolyte filling the gap situated between the said electrodes; and first and second impermeable bipolar current collectors comprising respective first and second frames of plastic material having at least one central conductive zone having channels on each of its faces, the first collector coming into electrical contact via the high points of its cathode face with the external surface of the said cathode, and via its anode face with the external surface of the anode of an adjacent cell, and the second collector coming into electrical contact via the high points of its anode face with the external surface of the said anode, and via its cathode face with the cathode of the other adjacent cell; the oxidizing gas from the said common oxidant distribution network flowing between the said cathode and the cathode face of the first collector and being supplied to the said cathode, and the fuel gas from the said common fuel distribution network flowing between the said anode and the anode face of the second collector and being supplied to the said anode; the said first and second frames being provided with orifices to allow the electrolyte and the fuel to flow through the cell structure, the said orifices contributing by their juxtaposition to defining the said common inlet and outlet channels; the said first electrode being applied against a third frame made of plastic material and having a central orifice in the form of a quadrilateral, the top and bottom portions of the third frame including orifices for conveying fuel and electrolyte through the cell structure, said orifices corresponding to the orifices provided in the frames of the collectors, and likewise contributing to the formation of the said inlet and outlet channels for the fuel and the electrolyte, means being provided on one face of the third frame to enable electrolyte to be conveyed from the inlet channel, to an electrolyte compartment situated between the two electrodes, and from the said compartment to an outlet channel, the said means including grooves that open out into set back portions that constitute electrolyte distributing and collecting manifolds disposed on the top and bottom portions of the third frame along two opposite sides of the central orifice and in communication with the electrolyte chamber by means of a plurality of parallel microchannels delimited by ribs, the second electrode being applied against one of the faces of a fourth frame facing the said current collector, the said fourth frame being made of an insulating plastic material, and being of identical contour to the third frame against which the first electrode is applied having fuel and electrolyte conveying orifices corresponding to those provided in the said third frame, and being applied by a plane face against the face of the said third frame having the grooves and the electrolyte distributing and collecting manifolds, the frames are fixed together in a predetermined elementary frame sequence to constitute a repetitive stack of cells and to define the said fuel distribution network, the said oxidant distribution network, and the said electrolyte distribution network; the improvement wherein said frames are made of a molded, deformable material, and wherein at least the fuel and electrolyte distribution networks are surrounded, at least on one face of one of the frames constituting the said elementary frame sequence, by at least one rib integral with said frame, said at least one rib standing proud from said face, and the distance the said at least one rib projects from said face being sufficient to compensate for the statistical average of all the defects in evenness and parallelism of the totality of the frames defining said fuel cell structure, and with at least one groove integrally molded within one of said frames bearing said at least one rib and the frame facing said at least one rib, and said at least one groove lying adjacent to said at least one rib and extending parallel to the said at least one rib to receive excess material from the at least one rib when the cell structure components are fixed together.
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