Membrane humidifier for fuel cell

What is claimed is: 1. A membrane humidifier for a fuel cell, comprising: a hollow upper case including a plurality of first wet air inlet apertures and a plurality of first wet air outlet apertures; and a membrane module assembly including a plurality of unit membrane modules separated from each other and received lengthwise within the hollow upper case along a flow direction of dry air, wherein each of the plurality of unit membrane modules comprise a hollow lower case surrounding a hollow fiber membrane bundle received lengthwise within the hollow lower case along a flow direction of dry air, wherein the plurality of unit membrane modules are spaced apart to form spaces between each of the plurality of unit membrane modules within the hollow upper case, wherein the hollow fiber membrane bundle of each unit membrane module comprises of a plurality of hollow fiber membranes having same size in diameter. 2. The membrane humidifier of claim 1 , wherein the membrane module assembly comprises at least two unit membrane modules having different diameters. 3. The membrane humidifier of claim 1 , wherein the membrane module assembly comprises a unit membrane module having a relatively small diameter and disposed at a central portion of the upper case and unit membrane modules having diameters which become gradually larger than that of the unit membrane module disposed at a portion of the upper case as they go from the center to the outer side of the upper case. 4. The membrane humidifier of claim 1 , wherein the hollow lower case includes second wet air inlet apertures and second wet air outlet apertures at outer peripheral portions of opposite ends of the hollow lower housing. 5. An air supply system of a fuel cell, comprising: an air blower configured to supply dry air to the air supply system; a membrane humidifier assembly configured to humidify the dry air supplied by the air blower, the membrane humidifier assembly including a hollow upper case including a plurality of first wet air inlet apertures and a plurality of first wet air outlet apertures, and a membrane module assembly including a plurality of singular unit membrane modules separated from each other and received lengthwise within the hollow upper case along a flow direction of dry air; and a fuel cell stack configured to receive the humidified air from the membrane humidifier and supply wet air to the membrane humidifier after a reaction therein, wherein each of the plurality of unit membrane modules comprise a hollow lower case that surrounds a hollow fiber membrane bundle received lengthwise within the hollow lower case along a flow direction of dry air, wherein the plurality of unit membrane modules are spaced apart to form spaces between each of the plurality of unit membrane modules within the hollow upper case, wherein the hollow fiber membrane bundle of each unit membrane module comprises of a plurality of hollow fiber membranes having same size in diameter. 6. The membrane humidifier of claim 5 , wherein the membrane module assembly comprises at least two unit membrane modules having different diameters. 7. The membrane humidifier of claim 5 , wherein the membrane module assembly comprises a unit membrane module having a relatively small diameter compared to other unit membranes in the membrane module assembly and disposed at a central portion of the upper case, and a plurality of other unit membrane modules having diameters which become gradually larger than that of the unit membrane module disposed at the center portion of the upper case, wherein the diameter of the unit membranes increases from the center to the outer side of the upper case respectively. 8. The membrane humidifier of claim 5 , wherein the hollow lower case includes second wet air inlet apertures and second wet air outlet apertures at outer peripheral portions of opposite ends of the hollow lower case.