A process is provided for operating a fuel cell system (1), especially in a motor vehicle, wherein the fuel cell system (1) includes at least one reformer (2) and at least one fuel cell (3). To prolong the service life of the system (1), a warm-holding mode is carried out after switching off the fue
A process is provided for operating a fuel cell system (1), especially in a motor vehicle, wherein the fuel cell system (1) includes at least one reformer (2) and at least one fuel cell (3). To prolong the service life of the system (1), a warm-holding mode is carried out after switching off the fuel cell system (1). During the warm-holding mode an educt containing hydrogen and carbon monoxide is fed to the reformer (2) and reacted with air in reformer (2) at a catalyst (5) of reformer (2) in an exothermal reaction.
대표청구항▼
1. A process for operating a fuel cell system, the process comprising: providing a fuel cell system comprising a delivery means, at least one reformer with a catalyst and at least one fuel cell;operating the at least one fuel cell;switching off the fuel cell system;carrying out a warm-holding mode a
1. A process for operating a fuel cell system, the process comprising: providing a fuel cell system comprising a delivery means, at least one reformer with a catalyst and at least one fuel cell;operating the at least one fuel cell;switching off the fuel cell system;carrying out a warm-holding mode after switching off the fuel cell system; andduring the warm-holding mode feeding an educt containing hydrogen and carbon monoxide to the at least one reformer and reacting the educt with air in the at least one reformer at the catalyst of said at least one reformer in an exothermal reaction, wherein heat from said at least one fuel cell is transferred directly to said at least one reformer via said educt and said delivery means during said warm-holding mode, whereby said at least one reformer is maintained in a pre-heated condition via said educt and via said delivery means during said warm-holding mode. 2. The process in accordance with claim 1, wherein the educt circulates in an educt circuit, the educt circuit comprising an anode gas path passed through the at least one fuel cell, a circulation path returning anode waste gas from the at least one fuel cell to the at least one reformer and a reformate gas path sending reformate gas from the at least one reformer to the at least one fuel cell. 3. The process in accordance with claim 2, wherein said delivery means is arranged in the recirculation path for circulating the educt in said educt circuit. 4. The process in accordance with claim 2, wherein: heat transfer is carried out, by means of the educt, from the at least one fuel cell to the at least one reformer during the warm-holding mode before the air is supplied for the exothermal reaction of the educt;the heat transfer takes place by the educt circulating in the educt circuit. 5. The process in accordance with claim 1, wherein the air is added via a reformer air path feeding air to the at least one reformer. 6. The process in accordance with claim 1, wherein in addition, fuel is added to the at least one reformer, and said fuel is reacted with the air in the at least one reformer in an exothermal reaction and/or partially oxidized to generate hydrogen gas and carbon monoxide. 7. The process in accordance with claim 6, wherein the fuel is added only when the hydrogen gas and carbon monoxide of the educt have been consumed. 8. The process in accordance with claim 1, wherein a supply of the air for the exothermal reaction of the educt takes place only when a temperature of the at least one reformer has dropped below a minimum warm start temperature of the at least one reformer or below a temperature limit that is above said minimum warm start temperature. 9. The process in accordance with claim 1, wherein a supply of the air for the exothermal reaction of the educt is carried out such that a temperature of said at least one reformer does not drop below a minimum warm start temperature of said at least one reformer. 10. The process in accordance with claim 1, wherein heat transfer is carried out, by means of the educt, from the at least one fuel cell to the at least one reformer during the warm-holding mode before the air is supplied for the exothermal reaction of the educt. 11. The process in accordance with claim 10, wherein the heat transfer is carried out such that a temperature of the at least one reformer does not drop below the minimum warm start temperature of the at least one reformer or below a temperature limit that is above a minimum warm start temperature. 12. The process in accordance with claim 1, wherein a residual gas burner is arranged downstream of the at least one fuel cell and at least one of: a burner waste gas path, which removes burner waste gas from the residual gas burner, is closed during the warm-holding mode, anda fuel cell air path, which sends air to the at least one fuel cell, is closed during the warm-holding mode. 13. The process in accordance with claim 1, wherein heat from said exothermal reaction is transferred from said at least one reformer directly to said at least one fuel cell during said warm-holding mode. 14. A process for operating a fuel cell system, the process comprising: providing a fuel cell system comprising a delivery means, at least one reformer with a catalyst and at least one fuel cell;operating the at least one fuel cell;switching off the fuel cell system;carrying out a warm-holding mode after switching off the fuel cell system; andduring the warm-holding mode feeding an educt containing hydrogen and carbon monoxide directly from said at least one fuel cell to the at least one reformer via said delivery means and reacting the educt with air in the at least one reformer at the catalyst of said at least one reformer in an exothermal reaction, wherein heat from said at least one fuel cell is transferred directly to said at least one reformer via at least said educt, whereby said at least one reformer is maintained in a pre-heated condition via at least said educt during said warm-holding mode. 15. The process in accordance with claim 14, wherein heat from said exothermal reaction is transferred from said at least one reformer directly to said at least one fuel cell during said warm-holding mode. 16. A process for operating a fuel cell system, the process comprising: providing a fuel cell system comprising at least one reformer with a catalyst and at least one fuel cell;operating the at least one fuel cell;switching off the fuel cell system;carrying out a warm-holding mode after switching off the fuel cell system; andduring the warm-holding mode feeding an educt containing hydrogen and carbon monoxide to the at least one reformer and reacting the educt with air in the at least one reformer at the catalyst of said at least one reformer in an exothermal reaction, wherein heat from said at least one fuel cell is transferred to said at least one reformer via said educt without said educt passing through a heat exchanger, whereby said at least one reformer is maintained in a pre-heated condition via said educt during said warm-holding mode. 17. The process in accordance with claim 16, wherein said fuel cell system further comprises a delivery means, said heat from said fuel cell being transferred directly to said at least one reformer via said educt and said delivery means during said warm-holding mode. 18. The process in accordance with claim 16, wherein heat from said exothermal reaction is transferred from said at least one reformer directly to said at least one fuel cell during said warm-holding mode.
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이 특허에 인용된 특허 (3)
Haltiner, Jr.,Karl J.; Grieve,Malcolm J.; Keegan,Kevin R.; Schumann,David R., Apparatus and method for operation of a high temperature fuel cell system using recycled anode exhaust.
Boneberg, Stefan; Schaefer, Martin; Schuessler, Martin; Theis, Erik; Heuser, Ralf, Gas generating system for a fuel cell system and method of operating a gas generating system.
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