Method for producing acid gas separation composite membrane, and acid gas separation membrane module

What is claimed is: 1 . A method for producing an acid gas separation composite membrane provided with an acid gas separation facilitated transport membrane on a porous support, comprising; arranging of a coating liquid for acid gas separation formed through dispersing or dissolving into water a polyvinyl acetal compound formed through crosslinking, by an acetal bond, block copolymers formed through bonding of a polymer block formed of polyvinyl alcohol and a polymer block formed of polyacrylate through a linking group, an acid gas carrier, and at least one kind of anion other than hydroxide ion, carboxyl ion, carbonate ion and bicarbonate ion, and coating of the coating liquid for acid gas separation onto the surface of the porous support having hydrophobicity at least on one surface to form the acid gas separation facilitated transport membrane thereon. 2 . The method for producing the acid gas separation composite membrane according to claim 1 , wherein the linking group is a sulfide group. 3 . The method for producing the acid gas separation composite membrane according to claim 1 , wherein viscosity of the coating liquid for acid gas separation is 0.4 Pa·s or more and 50 Pa·s or less. 4 . The method for producing the acid gas separation composite membrane according to claim 1 , wherein a contact angle between water and the one surface of the porous support is 100 degrees or more. 5 . The method for producing the acid gas separation composite membrane according to claim 1 , wherein the porous support is composed of a fluorine-based resin. 6 . The method for producing the acid gas separation composite membrane according to claim 5 , wherein the fluorocarbon resin is polytetrafluoroethylene. 7 . The method for producing the acid gas separation composite membrane according to claim 1 , wherein the coating liquid for acid gas separation is coated onto the surface of the porous support through a hydrophobic intermediate layer having gas permeability. 8 . The method for producing the acid gas separation composite membrane according to claim 7 , wherein the intermediate layer is a silicone resin layer. 9 . A facilitated transport type module for acid gas separation for separating a fed gas to be separated into an acid gas and a remaining gas other than the acid gas, and discharging the resultant gases, comprising; a member for fed gas flow channel through which the gas to be separated and the remaining gas are transmitted, an acid gas separation composite membrane produced by the method for producing the acid gas separation composite membrane according to claim 1 , and a member for transmitted gas flow channel through which the acid gas that is resulted from a reaction with the acid gas carrier and transmitted through the acid gas separation composite membrane flows. 10 . A method for preparing a coating liquid for acid gas separation, comprising: a reaction liquid preparation step for preparing a reaction liquid by dissolving into water a block copolymer formed through bonding of a polymer block formed of polyvinyl alcohol and a polymer block formed of polyacrylate through a linking group, a crosslinking step for forming crosslinked structure by adding dropwise to the reaction liquid a crosslinking agent having an aldehyde group and an acid catalyst to form an acetal bond by the polyvinyl alcohol and the crosslinking agent while a temperature of the reaction liquid is maintained at 25° C. to 50° C., a carrier addition step for adding to the reaction liquid an acid gas carrier and mixing the resultant mixture during or after the crosslinking step, and a pH adjustment step for adjusting pH of the reaction liquid toward a basic side after the crosslinking step. 11 . A coating liquid for acid gas separation, comprising a polyvinyl acetal compound formed through formation of crosslinked structure by an acetal bond, an acid gas carrier and water, wherein the polyvinyl acetal compound has a plurality of polyacrylic acid salt blocks formed through bonding through a sulfide group, and the coating liquid contains at least one kind of anion other than hydroxide ion, carboxyl ion, carbonate ion and bicarbonate ion.