Fuel cell
First Claim
Patent Images
1. A fuel cell assembly, comprising:
- a proton exchange membrane having a first major surface and a second major surface;
an anode electrode, the anode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer;
an anode adhesive frame including at least two vacant regions;
an anode gas diffusion layer disposed within each anode adhesive frame vacant region, wherein;
each anode gas diffusion layer with the anode adhesive frame is situated between the anode electrode and the first major surface of the proton exchange membrane;
the anode adhesive frame forms a gas seal around each anode gas diffusion layer and between the anode electrode and the first major surface of the proton exchange membrane; and
each anode gas diffusion layer and the anode adhesive frame lie substantially in a common plane;
a cathode electrode, the cathode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer; and
a cathode adhesive frame including at least two vacant regions; and
a cathode gas diffusion layer disposed within each cathode adhesive frame vacant region, wherein;
each cathode gas diffusion layer with the cathode adhesive frame is situated between the cathode electrode and the second major surface of the proton exchange membrane;
the cathode adhesive frame forms a gas seal around each anode gas diffusion layer and between the cathode electrode and the second major surface of the proton exchange membrane;
each cathode gas diffusion layer and the cathode adhesive frame lie substantially in a common plane; and
the cathode adhesive frame adheres to the anode adhesive frame to form a gas seal disposed about each anode gas diffusion layer, the proton exchange membrane, and the cathode gas diffusion layer.
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Accused Products
Abstract
An example fuel cell assembly may include a proton exchange membrane (or membrane electrode assembly) that has a first major surface and a second major surface. An anode electrode, which may include a patterned metal layer with a plurality of apertures extending through the patterned metal layer, may also be provided. An anode gas diffusion layer secured to an anode adhesive frame may be situated between the anode electrode and the first major surface of the proton exchange membrane. A cathode electrode may, in some instances, include a patterned metal layer with a plurality of apertures extending through the patterned metal layer. A cathode gas diffusion layer secured to a cathode adhesive frame may be situated between the cathode electrode and the second major surface of the proton exchange membrane. In some instances a fuel cell assembly may be flexible so that the fuel cell assembly can be rolled into a rolled configuration that defines an inner cavity with open ends. A fuel pellet may be inserted into the inner cavity, and one or more end caps may be provided to cover and seal the open ends.
190 Citations
13 Claims
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1. A fuel cell assembly, comprising:
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a proton exchange membrane having a first major surface and a second major surface; an anode electrode, the anode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer; an anode adhesive frame including at least two vacant regions; an anode gas diffusion layer disposed within each anode adhesive frame vacant region, wherein; each anode gas diffusion layer with the anode adhesive frame is situated between the anode electrode and the first major surface of the proton exchange membrane; the anode adhesive frame forms a gas seal around each anode gas diffusion layer and between the anode electrode and the first major surface of the proton exchange membrane; and each anode gas diffusion layer and the anode adhesive frame lie substantially in a common plane; a cathode electrode, the cathode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer; and a cathode adhesive frame including at least two vacant regions; and a cathode gas diffusion layer disposed within each cathode adhesive frame vacant region, wherein; each cathode gas diffusion layer with the cathode adhesive frame is situated between the cathode electrode and the second major surface of the proton exchange membrane; the cathode adhesive frame forms a gas seal around each anode gas diffusion layer and between the cathode electrode and the second major surface of the proton exchange membrane; each cathode gas diffusion layer and the cathode adhesive frame lie substantially in a common plane; and the cathode adhesive frame adheres to the anode adhesive frame to form a gas seal disposed about each anode gas diffusion layer, the proton exchange membrane, and the cathode gas diffusion layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A fuel cell assembly, comprising:
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a proton exchange membrane having a first major surface and a second major surface; an anode electrode, the anode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer; an anode adhesive frame including at least two vacant regions; an anode gas diffusion layer disposed within each anode adhesive frame vacant region, wherein; each anode gas diffusion layer with the anode adhesive frame is situated between the anode electrode and the first major surface of the proton exchange membrane; and the anode adhesive frame forms a gas seal around each anode gas diffusion layer and between the anode electrode and the first major surface of the proton exchange membrane; a cathode electrode, the cathode electrode including a patterned metal layer with a plurality of apertures extending through the patterned metal layer; and a cathode adhesive frame including at least two vacant regions; and a cathode gas diffusion layer, wherein the cathode gas diffusion layer with the cathode adhesive frame is situated between the cathode electrode and the second major surface of the proton exchange membrane; a cathode gas diffusion layer disposed within each cathode adhesive frame vacant region, wherein; each cathode gas diffusion layer and the cathode adhesive frame are situated between the cathode electrode and the second major surface of the proton exchange membrane; the cathode adhesive frame forms a gas seal around each anode gas diffusion layer and between the cathode electrode and the second major surface of the proton exchange membrane; and the cathode adhesive frame adheres to the anode adhesive frame to form a gas seal disposed about each anode gas diffusion layer, the proton exchange membrane, and the cathode gas diffusion layer; wherein, the fuel cell assembly is arranged in a rolled configuration to define an inner cavity with open ends; and one or more end caps for covering the open ends. - View Dependent Claims (10, 11, 12, 13)
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Specification
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Current AssigneeHoneywell International Inc.
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Original AssigneeHoneywell International Inc.
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InventorsEickhoff, Steven J.
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Primary Examiner(s)Ruddock, Ula C.
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Assistant Examiner(s)MARKS, JACOB B
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Application NumberUS12/705,383Publication NumberTime in Patent Office1,796 DaysField of Search429/479US Class Current429/480CPC Class CodesB32B 37/18 involving the assembly of d...B32B 38/0012 Mechanical treatment, e.g. ...H01M 2008/1095 Fuel cells with polymeric e...H01M 4/8626 characterised by the formH01M 8/004 Cylindrical, tubular or woundH01M 8/0232 Metals or alloysH01M 8/0239 Organic resins; Organic pol...H01M 8/0245 in the form of layered or c...H01M 8/0252 tubularH01M 8/0273 with sealing or supporting ...H01M 8/065 by dissolution of metals or...H01M 8/1006 Corrugated, curved or wave-...H01M 8/242 comprising framed electrode...H01M 8/2465 Details of groupings of fue...Y02E 60/50 Fuel cellsY10T 156/1043 Subsequent to assembly
