Moisture exchanger and fuel cell arrangement comprising same

What is claimed is: 1. A moisture exchanger for transferring moisture between two gases, the moisture exchanger comprising: a plurality of hollow fiber membranes extending in a length direction, the hollow fiber membranes being spaced from each other in a thickness direction and a width direction; a housing including a housing frame housing the plurality of hollow fiber membranes, the housing frame having housing frame end walls including a plurality of openings, the plurality of fibers extending through and into the openings of the housing frame end walls, the housing having side walls in the length direction between the housing frame end walls; at least one partition situated in the housing between the hollow fiber membranes and dividing the plurality of hollow fiber membranes in a plane extending in the length and width directions, and supported in the side walls of the housing but spaced apart from both of the housing frame end walls at partition ends to define a plurality of parallel-connected areas having a plurality of hollow fiber membranes spaced apart side-by-side in the width direction, the parallel connected areas being open between the side-by-side hollow fiber membranes to permit widthwise distribution of a first gas of the two gases, a length of the at least one partition being smaller than a side wall length of the side walls in the length direction so that the parallel-connected areas are connected at flow-through cross-sectional areas between the partition ends and the housing frame end walls so as to permit thicknesswise distribution of the first gas between the plurality of parallel-connected areas, a second gas of the two gases passing through the hollow fiber membranes. 2. The moisture exchanger as recited in claim 1 further comprising an inlet situated laterally on the plurality of hollow fiber membranes, or an outlet situated laterally on the plurality of hollow fiber membranes for supplying the first gas to outer surfaces of the hollow fiber membranes. 3. The moisture exchanger as recited in claim 2 wherein the lateral inlet or the lateral outlet is situated thicknesswise to be directly over or under the flow-through cross sectional areas. 4. The moisture exchanger as recited in claim 3 wherein the lateral inlet is situated at one of the housing frame end walls and the lateral outlet at an other of the housing frame end walls. 5. The moisture exchanger as recited in claim 3 wherein a size of the flow-through cross-sectional areas, proceeding from the lateral inlet or the lateral outlet, increasingly decreases toward one of the parallel-connected areas situated farthest away from the inlet or the outlet. 6. The moisture exchanger as recited in claim 2 wherein the lateral inlet and the lateral outlet are situated at opposite ends of the plurality of hollow fiber membranes. 7. The moisture exchanger as recited in claim 1 wherein the at least one partition is gas-tight. 8. A fuel cell system comprising the moisture exchanger as recited in claim 1 . 9. The fuel cell system as recited in claim 8 further comprising a fuel cell, outer surfaces of the plurality of hollow fiber membranes being fluidically connected to a cathode inlet and a cathode outlet of the fuel cell so that the moisture exchanger is operable as a counter-flow moisture exchanger. 10. A method for operating the fuel cell system as recited in claim 8 comprising passing the second gas through the hollow fiber membranes and passing the first gas through the parallel connected areas, the first gas being distributed freely along an entire width of the parallel connected areas and passing through the flow-through cross-sectional areas. 11. The moisture exchanger as recited in claim 1 wherein the at least one partition includes partitions supported solely in side walls of the housing. 12. The moisture exchanger as recited in claim 1 wherein the at least one partition includes at least three partitions, each partition spaced apart from the housing frame end walls of the housing in the length direction by a different distance so that the flow-through cross sectional areas have different sizes at the partition ends of each of the three partitions. 13. The moisture exchanger as recited in claim 12 wherein the hollow fiber membranes extend in the length direction past the partitions and over or under the flow-through cross sectional areas.