Porous layer and manufacturing method of the same

What is claimed is: 1. A manufacturing method of a porous layer, the porous layer being stacked between a catalyst layer and a gas diffusion layer in a membrane electrode assembly of a fuel cell, the manufacturing method comprising: (a) process of drying a mixed solution containing conductive carbon powder and water-repellent resin powder by a spray-drying method, so as to produce a powdery substance including the conductive carbon powder coated with the water-repellent resin powder, wherein an average particle size of the powdery substance obtained by the spray drying method ranges from 3 to 5 μm; and (b) process of preparing a paste from the powdery substance produced by the process (a), (c) process of molding the paste to a thin plate-like sheet, (d) process of firing the sheet to produce the porous layer, and (e) process of stacking the porous layer between the catalyst layer and the gas diffusion layer, wherein water-vapor permeability of the porous layer is 10000 to 25000 g/m 2 ·24 h under conditions of temperature of 40° C. and relative humidity of 90%. 2. A manufacturing method of a porous layer, the porous layer being stacked between a catalyst layer and a gas diffusion layer in a membrane electrode assembly of a fuel cell, the manufacturing method comprising: (a) process of drying a mixed solution containing conductive carbon powder and water-repellent resin powder by a spray-drying method, so as to produce a powdery substance including the conductive carbon powder coated with the water-repellent resin powder, wherein an average particle size of the powdery substance obtained by the spray drying method ranges from 3 to 5 μm; and (b) process of preparing a paste from the powdery substance produced by the process (a); (c) process of molding the paste to a thin plate-like sheet; (d) process of firing the sheet to produce the porous layer; and (e) process of stacking the porous layer between the catalyst layer and the gas diffusion layer, wherein the process (c) controls a thickness of the porous layer to 50 to 150 μm such that water-vapor permeability of the porous layer is 10000 to 25000 g/m 2 ·24 h under conditions of temperature of 40° C. and relative humidity of 90%. 3. The manufacturing method of porous layer according to claim 1 , wherein the water-repellent resin powder includes polytetrafluoroethylene (PTFE) powder.