초록 ▼

A system and method for controlling or otherwise effectively parameterizing the transport of dissolved, retained and/or exhausted gaseous byproducts generated in the operation of a fuel cell device comprises a gas permeable membrane (320) for substantially in-line, gravity-independent partitioning o

A system and method for controlling or otherwise effectively parameterizing the transport of dissolved, retained and/or exhausted gaseous byproducts generated in the operation of a fuel cell device comprises a gas permeable membrane (320) for substantially in-line, gravity-independent partitioning of, for example, carbon dioxide (710) in a DMFC device (700). Various features and parameters of the present invention may be suitably adapted to optimize the gas transport function for any specific fuel cell design. The present invention provides improved control of the rate of removal of gaseous byproducts from a fuel cell fuel solution in addition to improved application of fuel cell technology to power inter alia portable electronic devices.

대표청구항 ▼

1. A system for controlling the concentration of at least one gaseous redox byproduct in at least one of an anode fuel solution and a cathode oxidant solution of a fuel cell, the system comprising:a fluid flow field having an inlet and an outlet defining a length wherein said at least one of an anod

1. A system for controlling the concentration of at least one gaseous redox byproduct in at least one of an anode fuel solution and a cathode oxidant solution of a fuel cell, the system comprising:a fluid flow field having an inlet and an outlet defining a length wherein said at least one of an anode fuel solution and a cathode oxidant slows from said inlet to said outlet; at least one barrier that is at least partially permeable to at least one of said gaseous byproducts; said barrier comprising at least a first surface and a second surface; said first surface of said barrier positioned adjacent and substantially along the length of said fluid flow field and having an effective amount of contact with said at least one of an anode fuel solution and a cathode oxidant solution; and said barrier disposed to at least effectively seal said system from migration of said at least one of an anode fuel solution and a cathode oxidant solution and said gaseous redox byproduct beyond said second surface of said barrier other than via substantially permeative transport through said barrier as at least one of an anode fuel solution and a cathode oxidant flows from said inlet to said outlet. 2. The system according to claim 1, wherein said first surface is an interior surface and said second surface is an exterior surface.3. The system according to claim 1, wherein said barrier comprises a substantially planar geometry.4. The system according to claim 1, wherein said barrier has a geometry comprising at least one of a sphere, a spheroid, an ovoid, a toroid, a cylinder, a cone, a conic section, a regular solid, an irregular solid, a polyhedron, a polyhedroid and a corrugated surface.5. The system according to claim 1, wherein said fluid flow field comprises at least one of a laminar flow field, a linear flow field, a non-linear flow field, a curvilinear flow field and a convoluted flow field.6. The system according to claim 1, wherein said gaseous redox byproduct comprises at least one of CO2, CH3OH, CHOOH, H2CO, H2, O2, H2O and H2O2.7. The system according to claim 1, wherein said barrier comprises at least one of a polymer membrane, a porous ceramic, a porous silicon matrix, a stainless steel grit and fitted glass.8. The system according to claim 1, wherein said barrier is substantially self-gasketing.9. The system according to claim 1, wherein said system further comprises a substantially integral article of manufacture.10. A device for controlling the concentration of at least one gaseous redox byproduct in a fuel cell solution comprising;a barrier which is permeable to at least one gaseous compound, said barrier comprising at least an interior surface and an exterior surface, the barrier forming a fluid flow field having an inlet end an outlet wherein said at least one gaseous redox byproduct flows from said inlet to said outlet along said barrier; said interior surface of said barrier comprising at least one fluid flow path for flowing said at least one gaseous redox byproduct contained therein; and said barrier disposed to at least effectively seal said device from migration of said gaseous redox byproduct beyond said exterior surface other than via substantially permeative transport through said barrier as said at least one gaseous redox byproduct flows through at least one fluid flow path. 11. A system for controlling the concentration of carbon dioxide in a methanol fuel cell fuel solution, comprising:a fluid flow field having a length; a barrier permeable to CO2 positioned substantially along the length of the fluid flow field and having at least an interior and an exterior surface; and means for effectively sealing said interior surface of said barrier to said fluid flow field so as to prevent CH3OH and CO2 migration beyond said exterior surface of said barrier other than via substantially permeative transport through said barrier as said carbon dioxide flows through said fluid flow field. 12. The system according to claim 11, wherein said fluid flow field further comprises a convoluted fluid flow path.13. The system according to claim 11, wherein said barrier comprises a hydrophobic membrane.14. The system according to claim 11, wherein said sealing means comprises at least one of a peripherally secured screen cap and a sealed cathode cap.15. The system according to claim 11, wherein said sealing means comprises an open mesh.16. The system according to claim 11, wherein said system comprises a DMFC.17. A system for controlling exhaust transport of water vapor in a fuel cell solution, comprising:a fluid flow field having a length; a barrier permeable to water vapor, the barrier positioned substantially along the length of said fluid flow field and having at least an interior and an exterior surface; and means for at least effectively sealing said membrane so as to prevent bulk solution leakage. 18. The system according to claim 17, wherein said barrier comprises a hydrophilic membrane.19. The system according to claim 17, wherein said system comprises a DMFC.