Method and device for producing a membrane module for a fuel cell and membrane modules produced thereby

What is claimed is: 1. A method for producing a membrane module for a fuel cell, the method comprising: producing a case having outer walls, a top side and a bottom side; disposing a first potting cap on the bottom side of the case, the first potting cap comprising an inner surface and a plurality of circular partitions protruding a predetermined height from the inner surface of the potting cap, the plurality of partitions having different diameters and being concentrically disposed and spaced apart at predetermined intervals; placing a plurality of bundles of hollow fiber membranes in the case through the top side, wherein the hollow fiber membranes are divided by the plurality of partitions each of which has thickness larger than diameter of each hollow fiber membrane such that a first amount of hollow fiber membranes are disposed in a center portion of the case and a second amount of hollow fiber membranes are disposed toward an outer portion of the case, wherein the second amount is larger than the first amount; disposing a second potting cap on the top side of the case; injecting a polymer material into the case to fix the plurality of bundles of hollow fiber membranes; drying the polymer material to thereby form a potted portion; and cutting the potted portion, wherein a plurality of gaps are formed between the plurality of partitions in a radial direction, wherein the gap between the partitions formed in the potting cap is reduced from the partition disposed at the outermost side to the partitions disposed toward the center such that a smaller amount of hollow fiber membranes is disposed in the center portion of the module and a larger amount of hollow fiber membranes is disposed toward the outer edge portion to maintain humidification performance throughout the whole membrane module. 2. The method of claim 1 , wherein the plurality of gaps reduce in size from an outermost gap to an innermost gap. 3. The method of claim 1 , wherein a plurality of gaps are formed between the plurality of partitions, and wherein the plurality of gaps are varied in size by varying the widths of the plurality of partitions. 4. The method of claim 1 , wherein the plurality of gaps are varied in size by varying the widths of the plurality of partitions. 5. The method of claim 1 , wherein the plurality of gaps are varied in size by varying the widths of the plurality of partitions. 6. A membrane module formed by the method of claim 1 . 7. A fuel cell comprising the membrane module of claim 6 . 8. A device for producing a membrane module for a fuel cell by a potting method comprising: a case having outer walls, a top side and a bottom side, a plurality of bundles of hollow fiber membranes being placed in the case through the top side; a first potting cap disposable on the bottom side of the case, the first potting cap comprising an inner surface and a plurality of circular partitions protruding a predetermined height from the inner surface of the potting cap, the plurality of partitions having different diameters and being concentrically disposed and spaced apart at predetermined intervals, each of which has thickness larger than diameter of each hollow fiber membrane; a second potting cap disposable on the top side of the case; one or more injection inlets for injecting a polymer material into the case, wherein a plurality of gaps are formed between the plurality of partitions in a radial direction, wherein the gap between the partitions formed in the potting cap is reduced from the partition disposed at the outermost side to the partitions disposed toward the center such that a smaller amount of hollow fiber membranes is disposed in the center portion of the module and a larger amount of hollow fiber membranes is disposed toward the outer edge portion to maintain humidification performance throughout the whole membrane module. 9. The device of claim 8 , wherein the plurality of gaps reduce in size from an outermost gap to an innermost gap. 10. The device of claim 8 , wherein a plurality of gaps are formed between the plurality of partitions, and wherein the plurality of gaps are varied in size by varying the widths of the plurality of partitions.