Cooling module for a fuel cell

What is claimed is: 1. A cooling module for a fuel cell comprising: a cooling circuit for conducting a coolant; and a treatment unit for the coolant, the treatment unit situated in the cooling circuit in such a way that the coolant flowing in the cooling circuit flows through the treatment unit, the treatment unit includes a filter medium for removing metal ions from the coolant which includes a polymer having amidoxime or hydroxamic acid groups and is in contact with the coolant, an entirety of the coolant in the cooling circuit flowing through the filter medium. 2. The cooling module as recited in claim 1 wherein the filter medium is a fiber material. 3. The cooling module as recited in claim 2 wherein the fiber material is a woven fabric, a scrim, a knitted fabric, or a membrane. 4. The cooling module as recited in claim 1 wherein the treatment unit includes a cationic or an anionic ion exchanger. 5. The cooling module as recited in claim 4 wherein the cationic or the anionic ion exchanger includes fibers. 6. The cooling module as recited in claim 4 wherein the cationic or the anionic ion exchanger includes nonfibers. 7. The cooling module as recited in claim 4 wherein the treatment unit includes a layer system, the layer system including a first layer containing the filter medium and at least one second layer situated on the first layer and including the cationic or the anionic ion exchanger. 8. The cooling module as recited in claim 1 wherein the treatment unit includes an optical sensor configured to detect a color change of the filter medium as a function of a load condition. 9. A fuel cell system comprising: the cooling module as recited in claim 1 . 10. A vehicle comprising the fuel cell system as recited in claim 9 . 11. The cooling module as recited in claim 1 wherein the filter medium includes a base material and a coating. 12. The cooling module as recited in claim 1 wherein the filter medium includes nanofibers. 13. The cooling module as recited in claim 12 wherein the nanofibers have an average diameter of at most 500 nm. 14. A cooling module for a fuel cell comprising: a cooling circuit for conducting a coolant; and a treatment unit for the coolant, the treatment unit situated in the cooling circuit in such a way that the coolant flowing in the cooling circuit flows through the treatment unit, the treatment unit includes a layer system, the layer system including a first layer with cationic ion exchanger or anionic ion exchanger, and a second layer in contact with the first layer and with a filter medium for removing metal ions from the coolant which includes a polymer having amidoxime or hydroxamic acid groups and is in contact with the coolant. 15. The cooling module as recited in claim 14 wherein the layer system includes a third layer in contact with the second layer, the third layer being another of the cationic ion exchanger and the anionic ion exchanger. 16. The cooling module as recited in claim 15 wherein an entirety of the coolant in the cooling circuit flows through the layer system. 17. The cooling module as recited in claim 14 wherein an entirety of the coolant in the cooling circuit flows through the layer system. 18. A cooling module for a fuel cell comprising: a cooling circuit for conducting a coolant; and a treatment unit for the coolant, the treatment unit situated in the cooling circuit in such a way that the coolant flowing in the cooling circuit flows through the treatment unit, the treatment unit includes a filter medium for removing metal ions from the coolant which includes a polymer having amidoxime or hydroxamic acid groups and is in contact with the coolant, the filter medium bonding with the metal ions as the coolant flows through the filter medium. 19. The cooling module as recited in claim 18 where in the metal ions include copper and iron cations.