Compact fuel cell package
Abstract
The invention relates to a compact and portable fuel cell package. The package includes a fuel cell that generates electrical energy. Some packages also include a fuel processor that produces hydrogen from a fuel source. Fuel cell packages described herein provide power densities (power per unit volume or mass) at levels not yet seen. One package employs an interconnect disposed at least partially between a fuel cell and a fuel processor. The interconnect forms a structural and plumbing intermediary between the two. Given the portable size of fuel cell packages described herein, the invention is well suited to power portable electronics devices. One portable fuel cell package includes a tether, which allows electrical and detachable coupling to an electronics device.
Claims
exact text as granted — not AI-modified1 . A fuel cell package for providing electrical energy, the fuel cell package comprising:
a fuel processor that includes:
a reformer configured to receive a fuel source, configured to output hydrogen, and including a catalyst that facilitates the production of hydrogen from the fuel source,
a heater configured to generate heat for transfer to the reformer;
a fuel cell configured to generate electrical energy using hydrogen output by the fuel processor; and an interconnect disposed at least partially sandwiched between the fuel cell and the fuel processor and including a set of conduits that each communicate a liquid or gas between the fuel processor and the fuel cell, wherein the interconnect serves as passive insulation for conductive heat transfer between the fuel cell and the fuel processor; wherein the interconnect contains a side having a port, at least one flat portion, and at least one recessed area; wherein the side of the interconnect further contains at least one heightened portion and a top plate of the fuel cell contains at least one recessed area, and wherein the at least one heightened portion of the side of the interconnect is separated from the at least one recessed area of the top plate of the fuel cell by a gap.
2 . The fuel cell package of claim 1 wherein each conduit passes from one surface of the interconnect to another surface of the interconnect.
3 . The fuel cell package of claim 1 wherein the interconnect includes a hydrogen conduit that receives hydrogen from a hydrogen channel in the fuel processor and outputs the hydrogen to a hydrogen channel in the fuel cell.
4 . The fuel cell package of claim 1 wherein the interconnect includes an oxygen conduit that receives oxygen from an oxygen channel in the fuel cell and outputs the oxygen to an oxygen channel in the fuel processor.
5 . The fuel cell package of claim 1 wherein the interconnect includes a heating conduit that receives a heating medium from the fuel processor and outputs the heating medium to the fuel cell.
6 . The fuel cell package of claim 1 wherein the interconnect includes a hydrogen return channel that receives unused hydrogen from the fuel cell and outputs the unused hydrogen to the fuel processor.
7 . A fuel cell package for providing electrical energy, the fuel cell package comprising:
a fuel processor that includes
a reformer having an interface portion that can connect to a fuel source, and also having an output, the reformer including a catalyst that facilitates the production of hydrogen from the fuel source, the reformed designed to expel the hydrogen through the output;
a heater configured to generate heat for transfer to the reformer;
a fuel cell configured to generate electrical energy using hydrogen output by the fuel processor; and an interconnect disposed at least partially sandwiched between the fuel cell and the fuel processor and including a set of conduits that each communicate a liquid or gas between the fuel processor and the fuel cell, wherein the interconnect itself serves as passive insulation for conductive heat transfer between the fuel cell and the fuel processor by virtue of it being at least partially sandwiched between the fuel cell and the fuel processor.
8 . The fuel cell package of claim 7 wherein the interconnect is a separate piece from the fuel processor and from the fuel cell before assembly of the fuel cell package and attaches to the fuel processor and attaches to the fuel cell after assembly.
9 . The fuel cell package of claim 7 wherein the fuel cell includes a plate that couples to the interconnect, the plate including a set of channels that each open to a conduit included in the interconnect.
10 . The fuel cell package of claim 9 wherein the interconnect includes mating features that contact the plate after the fuel cell package has been assembled.
11 . The fuel cell package of claim 10 wherein the mating reduces surface area contact between the interconnect and the fuel cell relative to the amount of surface area contact between the interconnect and the fuel cell without the mating features.
12 . The fuel cell package of claim 11 further comprising a gasket disposed between the interconnect and the plate.
13 . The fuel cell package of claim 12 wherein the mating features on the interconnect include heightened features that prevent extrusion of the gasket into a conduit.
14 . A method for assembling a fuel cell package, the method comprising:
providing a fuel processor that includes:
a reformer having an interface portion that can connect to a fuel source, and also having an output, the reformer including a catalyst that facilitates the production of hydrogen from the fuel source, the reformed designed to expel the hydrogen through the output;
a heater configured to generate heat for transfer to the reformer;
providing a fuel cell configured to generate electrical energy using hydrogen output by the fuel processor; and connecting the fuel processor to the fuel cell using an interconnect partially sandwiched between the fuel cell and the fuel processor and including a set of conduits that each communicate a liquid or gas between the fuel processor and the fuel cell, wherein the interconnect itself serves as passive insulation for conductive heat transfer between the fuel cell and the fuel processor by virtue of it being at least partially sandwiched between the fuel cell and the fuel processor.
15 . The method of claim 14 , wherein liquids or gasses traveling from the fuel processor to the fuel cell travel in a first direction from the fuel processor then in a second direction into a top plate of the fuel cell, wherein the first direction is perpendicular to the second direction.
16 . The method of claim 15 , wherein liquids or gasses traveling from the fuel cell to the fuel processor travel in a third direction from the top plate of the fuel cell then in a fourth direction into the fuel processor, wherein the third direction is perpendicular to the fourth direction.
17 . A fuel cell package for providing electrical energy, the fuel cell package comprising:
means for processing fuel, the means for processing fuel including:
means for reforming the fuel by receiving a fuel source, using a catalyst to facilitate the production of hydrogen from the fuel source, and outputting hydrogen; and
means for generating heat transfer to the means for reforming;
means for generating electrical energy using hydrogen output by the fuel processor; and means for interconnecting the means for processing and the means for generating, wherein the means for interconnecting is disposed at least partially sandwiched between the means for processing and the means for generating and acting as passive insulation for conductive heat transfer between the means for processing and means for generating.
18 . The fuel cell package of claim 17 , wherein the means for interconnecting has a side having a port, at least one flat portion, and at least one recessed area;
wherein the side of the means for interconnecting further contains at least one heightened portion and a top plate of the means for generating contains at least one recessed area, and wherein the at least one heightened portion of the side of the means for interconnecting is separated from the at least one recessed area of the top plate by a gap.
19 . The fuel cell package of claim 18 , wherein the gap is filled with insulation.
20 . The fuel cell package of claim 18 , wherein the gap is empty.Join the waitlist — get patent alerts
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