Improved feedstocks for hydrogen-producing fuel processing and fuel cell systems, and fuel processing and fuel cell systems incorporating the same. The fuel processing systems include a fuel processor adapted to produce a product hydrogen stream from at least one feed stream containing at least a ca
Improved feedstocks for hydrogen-producing fuel processing and fuel cell systems, and fuel processing and fuel cell systems incorporating the same. The fuel processing systems include a fuel processor adapted to produce a product hydrogen stream from at least one feed stream containing at least a carbon-containing feedstock and an aversive agent. The fuel processing systems may also include a fuel cell stack adapted to produce an electric current from the product hydrogen stream. The feedstock is at least substantially formed of a hydrocarbon or alcohol. In some instances the feedstock includes methanol and the aversive agent is delivered to a hydrogen-producing region of the fuel processor with the carbon containing feedstock. The aversive agent can include at least one odorant, flavorants regurgitant, and/or dye. In other instances, the feed stream includes water or the feed stream is delivered to a fuel stack that produces and electric current therefrom.
대표청구항▼
I claim: 1. A fuel processing system, comprising: a feedstock supply containing at least a carbon-containing feedstock and an aversive agent having a different composition than the carbon-containing feedstock, wherein the carbon-containing feedstock includes an alcohol that is a liquid at 25° C. an
I claim: 1. A fuel processing system, comprising: a feedstock supply containing at least a carbon-containing feedstock and an aversive agent having a different composition than the carbon-containing feedstock, wherein the carbon-containing feedstock includes an alcohol that is a liquid at 25° C. and 1 atm, wherein the aversive agent includes at least one of an odorant that imparts an odor to the carbon-containing feedstock that is distinct from an odor of the carbon-containing feedstock, a flavorant that imparts a taste to the carbon-containing feedstock that is distinct from any taste of the carbon-containing feedstock, and a regurgitant, and further wherein the aversive agent is at least substantially free from sulfur compounds; a feed stream containing at least a mixture of the carbon-containing feedstock and the aversive agent from the feedstock supply; and a hydrogen-producing fuel processor in fluid communication with the feedstock supply and adapted to produce a product hydrogen stream containing hydrogen gas from the feed stream, wherein the fuel processor includes at least one hydrogen-producing region containing a reforming catalyst adapted to produce a mixed gas stream containing hydrogen gas and other gases from the feed stream, and further hydrogen gas forms at least a majority of the mixed gas stream. 2. The fuel processing system of claim 1, wherein the fuel processing system further includes a feedstock delivery system adapted to deliver the feed stream to the fuel processor. 3. The fuel processing system of claim 1, wherein the feed stream further includes water. 4. The fuel processing system of claim 1, wherein the aversive agent is at least substantially miscible in the carbon-containing feedstock. 5. The fuel processing system of claim 1, wherein the aversive agent is at least substantially free of phosphorous and heavy metals. 6. The fuel processing system of claim 1, wherein the aversive agent is not removed from the feed stream prior to the feed stream being delivered to the hydrogen-producing region of the fuel processor. 7. The fuel processing system of claim 6, wherein the aversive agent is selected to not poison the reforming catalyst when brought in contact therewith. 8. The fuel processing system of claim 1, wherein the aversive agent has a boiling point of less than approximately 300° C. 9. The fuel processing system of claim 1, wherein the aversive agent has a molecular weight of less than 1000. 10. The fuel processing system of claim 1, wherein the aversive agent includes a flavorant selected to deter ingestion of the feed stream. 11. The fuel processing system of claim 10, wherein the flavorant has at least one of a bitter taste, a sour taste, and a spicy taste. 12. The fuel processing system of claim 10, wherein the flavorant is selected from the group consisting of denatonium benzoate, capsaicin, denatonium capsaicinate, quinine hydrochloride, sucrose octaacetate, saccharide, and the combinations and the derivatives thereof. 13. The fuel processing system of claim 10, wherein the flavorant has a readily detectable taste when present in a concentration of 50 ppm. 14. The fuel processing system of claim 1, wherein the aversive agent includes an odorant selected to deter ingestion of the feed stream. 15. The fuel processing system of claim 14, wherein the odorant includes at least one organic amine having at least one amine functional group. 16. The fuel processing system of claim 15, wherein the odorant includes an organic amine selected from the group consisting of trimethylamine, triethylamine, tripropylamine, n-butylamine, n-pentylamine, n-hexylamine, n-heptylamine, n-octylamine, and n-decylamine. 17. The fuel processing system of claim 16, wherein the odorant includes at least one organic amine having at least two amine functional groups. 18. The fuel processing system of claim 17, wherein the at least one organic amine is selected from the group consisting of 1,3-diaminopropane, 1,4-diaminobutane, 1,5-diaminopentane, and 1,7-diaminoheptane. 19. The fuel processing system of claim 1, wherein the aversive agent includes a flavorant and an odorant. 20. The fuel processing system of claim 1, wherein the aversive agent includes a regurgitant configured to induce vomiting. 21. The fuel processing system of claim 1, wherein the aversive agent further includes a dye configured to make the color of the feed stream distinct from the carbon-containing feedstock. 22. The fret processing system of claim 1, wherein the carbon-containing feedstock includes methanol. 23. The fuel processing system of claim 1, wherein the fuel processing system further includes a separation region adapted to receive the mixed gas stream and to separate the mixed gas stream into a hydrogen-rich stream containing at least substantially hydrogen gas and a byproduct stream containing at least a substantial portion of the other gases, and further wherein the product hydrogen stream is formed from the hydrogen-rich stream. 24. The fuel processing system of claim 23, wherein the separation region is adapted to produce the hydrogen-rich stream and the byproduct stream by a pressure-driven separation process. 25. The fuel processing system of claim 24, wherein the separation region is adapted to produce the hydrogen-rich stream and the byproduct stream via a pressure-swing adsorption process. 26. The fuel processing system of claim 24, wherein the separation region includes at least one hydrogen-permeable membrane, and further wherein the hydrogen-rich stream is formed from a portion of the mixed gas stream that passes through the membrane and the byproduct stream is formed from a portion of the mixed gas stream that does not pass through the membrane. 27. The fuel processing system of claim 1, further comprising a fuel cell stack adapted to receive at least a portion of the product hydrogen stream and including a plurality of fuel cells adapted to produce an electric current therefrom. 28. A fuel cell system, comprising: a feedstock supply containing at least a carbon-containing feedstock and an aversive agent having a different composition than the carbon-containing feedstock, wherein the carbon-containing feedstock includes an alcohol that is a liquid at 25° C. and 1 atm, wherein the aversive agent includes at least one of an odorant that imparts an odor to the carbon-containing feedstock that is distinct from an odor of the carbon-containing feedstock, a flavorant that imparts a taste to the carbon-containing feedstock that is distinct from an taste of the carbon-containing feedstock, and a regurgitant and further wherein the aversive agent is at least substantially free from sulfur compounds; a feed stream including at least a mixture of the carbon-containing feedstock and the aversive agent from the feedstock supply; and a fuel cell stack in fluid communication with the feedstock supply and configured to produce an electric current from the feed stream. 29. The fuel cell system of claim 28, further comprising a feedstock delivery system adapted to deliver the feed stream to the fuel cell stack. 30. The fuel cell system of claim 28, wherein the aversive agent includes a flavorant selected from the group of denatonium benzoate, capsaicin, denatonium capsaicinate, quinine hydrochloride, sucrose octaacetate, saccharide, and the combinations and the derivatives thereof. 31. The fuel cell system of claim 28, wherein the carbon-containing feedstock includes methanol.
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