Fuel cell system having a humidified oxidant flow

What is claimed is: 1. A fuel cell system, comprising: at least one fuel cell; an oxidant conveyor, which conveys an oxidant through a supply line to the fuel cell; at least one humidifier, which introduces water into the oxidant flow; and at least one water sink, which is arranged between the at least one fuel cell and the oxidant conveyor, and wherein the at least one water sink is formed adjacent to the oxidant conveyor, wherein the water sink is arranged to be a maximum of about 0.2L away from the oxidant conveyor, wherein L is the distance of the oxidant flow between the oxidant conveyor and a heat exchanger in the supply line. 2. The fuel cell system as claimed in claim 1 , wherein the humidifier is arranged to be a maximum of about 0.2L away from the oxidant conveyor. 3. The fuel cell system as claimed in claim 1 , wherein the humidifier is arranged to be a maximum of about 0.1L away from the oxidant conveyor. 4. The fuel cell system as claimed in claim 1 , wherein the humidifier is arranged to be a maximum of about 0.05L away from the oxidant conveyor. 5. The fuel cell system as claimed in claim 1 , wherein the water sink is formed and arranged in the supply line such that it prevents liquid water located in the supply line from flowing to and/or into the oxidant conveyor. 6. The fuel cell system as claimed in claim 1 , wherein the water sink is dimensioned such that it can store sufficient liquid water so that no liquid water flows back into the oxidant conveyor. 7. A fuel cell system, comprising: at least one fuel cell; an oxidant conveyor, which conveys an oxidant through a supply line to the fuel cell; at least one humidifier, which introduces water into the oxidant flow; at least one water sink, which is arranged between the at least one fuel cell and the oxidant conveyor, and wherein the at least one water sink is formed adjacent to the oxidant conveyor; a water injection device associated with the water sink; and an adjusting mechanism, wherein the adjusting mechanism is formed to alter a position of the water injection device in the supply line. 8. The fuel cell system as claimed in claim 7 , wherein the adjusting mechanism comprises a float, which is fastened to the water injection device, and the adjusting mechanism comprises a joint which connects the water injection device rotatably to the supply line. 9. The fuel cell system as claimed in claim 7 , wherein the water injection device is formed as an ejector pump. 10. A fuel cell system, comprising: at least one fuel cell; an oxidant conveyor, which conveys an oxidant through a supply line to the fuel cell; at least one humidifier, which introduces water into the oxidant flow; and at least one water sink, which is arranged between the at least one fuel cell and the oxidant conveyor, and wherein the at least one water sink is formed adjacent to the oxidant conveyor; wherein the water sink is fluid-connected to at least one water injection device associated with the water sink. 11. The fuel cell system as claimed in claim 10 , wherein the water injection device is arranged immediately adjacent to the water sink in the supply line. 12. The fuel cell system as claimed in claim 10 , wherein the water injection device is formed to introduce the liquid water collected in the water sink into the oxidant flow. 13. The fuel cell system as claimed in claim 11 , wherein the water injection device is formed to introduce the liquid water collected in the water sink into the oxidant flow. 14. The fuel cell system as claimed in claim 10 , wherein the fuel cell system comprises a plurality of water sinks, and wherein the at least one water injection device is fluid-connected to the plurality of water sinks. 15. The fuel cell system as claimed in claim 14 , wherein at least one of the plurality of water sinks comprises a closing device which is formed to interrupt the fluid connection between the water sink and the at least one water injection device.