A feedstock mixing apparatus for fuel processing systems, and fuel processing and fuel cell systems incorporating the same. A fuel processing system according to the present invention includes one or more fuel processors adapted to produce a product hydrogen stream from a feed stream containing wate
A feedstock mixing apparatus for fuel processing systems, and fuel processing and fuel cell systems incorporating the same. A fuel processing system according to the present invention includes one or more fuel processors adapted to produce a product hydrogen stream from a feed stream containing water and a carbon-containing feedstock. The fuel processing system further includes a feedstock delivery system adapted to mix the components of the feed stream at a determined mix ratio and to deliver this feed stream to the fuel processor(s). The fuel processing system may also include one or more fuel cell stacks that are adapted to produce an electric current from the product hydrogen stream produced by the fuel processing system. When the fuel processing system includes at least one fuel cell stack, it may be referred to as a fuel cell system.
대표청구항▼
We claim: 1. A fuel cell system, comprising: a fuel processor having a reforming region adapted to produce a stream comprising hydrogen gas as a majority component from a feed stream comprising water and a carbon-containing feedstock; a feedstock delivery system adapted to deliver the feed stream c
We claim: 1. A fuel cell system, comprising: a fuel processor having a reforming region adapted to produce a stream comprising hydrogen gas as a majority component from a feed stream comprising water and a carbon-containing feedstock; a feedstock delivery system adapted to deliver the feed stream containing a predetermined mix ratio of feedstock components to the fuel processor, the feedstock delivery system comprising: a water delivery assembly adapted to provide a stream comprising liquid water; a carbon-containing feedstock delivery assembly adapted to provide a stream comprising a liquid carbon-containing feedstock; and a reservoir adapted to receive a volume of liquid water and a volume of liquid carbon-containing feedstock from the water and the carbon-containing feedstock delivery assemblies; a sensor assembly associated with the reservoir and adapted to detect at least one triggering event related to the gravimetric quantity of one or more of the feedstock components in the reservoir; and wherein the feedstock delivery system is adapted to regulate the flow of the streams comprising the liquid water and the liquid carbon-containing feedstock at least partially in response to the detection of the at least one triggering event by the sensor assembly to produce the feed stream containing a predetermined mix ratio of the liquid water and the liquid carbon-containing feedstock; a fuel cell stack adapted to produce at least a portion of the stream containing hydrogen gas and to produce an electric current therefrom. 2. The fuel cell system of claim 1, wherein the fuel cell system includes means for vaporizing the feed stream produced in the feedstock delivery system. 3. The fuel cell system of claim 1, wherein the sensor assembly is adapted to detect a first triggering event related to the gravimetric quantity of a first one of the water or the carbon-containing feedstock delivered to the reservoir, and a second triggering event related to the gravimetric quantity of either a second one of the water or the carbon-containing feedstock or the total amount of water and carbon-containing feedstock delivered to the reservoir. 4. The fuel cell system of claim 3, wherein each of the triggering events includes a measurable event in which a predetermined threshold value or range of values representative of a predetermined amount of one or more of the water, the carbon-containing feedstock, or the total liquid in the reservoir is reached or exceeded. 5. The fuel cell system of claim 1, wherein the sensor assembly is adapted to detect a first triggering event related to the gravimetric quantity of a first one of the water or the carbon-containing feedstock present in the reservoir, and a second triggering event related to the gravimetric quantity of either a second one of the water or the carbon-containing feedstock or the total amount of water and carbon-containing feedstock present in the reservoir. 6. The fuel cell system of claim 5, wherein each of the triggering events includes a measurable event in which a predetermined threshold value or range of values representative of a predetermined amount of one or more of the water, the carbon-containing feedstock, or the total liquid in the reservoir is reached or exceeded. 7. The fuel cell system of claim 1, wherein the sensor assembly includes at least one sensor external the reservoir. 8. The fuel cell system of claim 1, wherein the sensor assembly includes at least one sensor internal the reservoir. 9. The fuel cell system of claim 1, wherein the sensor assembly includes at least one sensor located partially within the reservoir and partially external the reservoir. 10. The fuel cell system of claim 1, wherein the reservoir includes a mixing device adapted to promote mixing of the carbon-containing feedstock and the water in the reservoir. 11. The fuel cell system of claim 1, wherein the carbon-containing feedstock is selected to be soluble in water. 12. The fuel cell system of claim 1, wherein the carbon-containing feedstock is selected to form an emulsion with water. 13. The fuel cell system of claim 12, wherein the carbon-containing feedstock further includes a surfactant. 14. The fuel cell system of claim 12, wherein the reservoir includes an emulsion-producing device adapted to produce an emulsion of the water and the carbon-containing feedstock. 15. The fuel cell system of claim 1, wherein the feedstock delivery system further includes a controller adapted to regulate the flow of the streams into the reservoir at least partially in response to the at least one triggering event detected by the sensor assembly. 16. The fuel cell system of claim 1, wherein the reforming region is adapted to produce a mixed gas stream containing hydrogen gas and other gases from the feed stream and the fuel processor further includes a separation region adapted to separate the mixed gas stream into a product stream containing at least substantially pure hydrogen gas and a byproduct stream containing at least a substantial portion of the other gases. 17. The fuel cell system of claim 16, wherein the separation region is in fluid communication with a polishing catalyst bed including a methanation catalyst. 18. The fuel cell system of claim 16, wherein the separation region is adapted to separate the mixed gas stream into the product stream and the byproduct stream via a pressure swing adsorption process. 19. The fuel cell system of claim 16, wherein the separation region includes at least one hydrogen-selective metal membrane. 20. A method for producing hydrogen gas for consumption by a fuel cell stack, comprising: delivering a first liquid feedstock component to a mixing chamber until a sensor assembly detects a first triggering event, wherein the first liquid feedstock component comprises a first one of water or a carbon-containing feedstock; delivering a second liquid feedstock component to the mixing chamber until the sensor assembly detects a second triggering event, wherein the second liquid feedstock component comprises a second one of water or a carbon-containing feedstock, and further wherein at least one of the first and the second triggering events is related to the gravimetric quantity of at least one of the first and the second feedstock components delivered to the mixing chamber; withdrawing from the mixing chamber a liquid stream containing a predetermined mix ratio of the first and the second liquid feedstock components; delivering at least a portion of the liquid stream to a fuel processor having a reforming region and adapted to produce a stream containing hydrogen gas as a majority component therefrom; and delivering at least a portion of the stream containing hydrogen gas to a fuel cell stack adapted to produce an electric current therefrom. 21. The method of claim 20, wherein the first triggering event is related to a gravimetric quantity of the first feedstock component delivered the mixing chamber. 22. The method of claim 20, wherein the second triggering event is related to a gravimetric quantity of the second feedstock component delivered to the mixing chamber. 23. The method of claim 20, wherein the method further includes vaporizing the liquid stream withdrawn from the mixing chamber. 24. The method of claim 20, wherein the carbon-containing feedstock is soluble in water. 25. The method of claim 20, wherein the carbon-containing feedstock includes an alcohol. 26. The method of claim 25, wherein the carbon-containing feedstock is selected to form an emulsion with water. 27. The method of claim 20, wherein the method further comprises removing impurities from the stream containing hydrogen gas produced from the portion of the liquid stream. 28. The method of claim 27, wherein the removing step includes utilizing at least one hydrogen-selective membrane to remove impurities from the stream containing hydrogen gas. 29. The method of claim 27, wherein the removing step includes utilizing a pressure-swing adsorption process to remove impurities from the stream containing hydrogen gas.
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