Composite semipermeable membrane

The invention claimed is: 1. A composite semipermeable membrane comprising: a porous supporting membrane having a substrate and a porous supporting layer disposed on the substrate; and a separation functional layer which has projections and is disposed on the porous supporting membrane, wherein the separation functional layer is a polyamide obtained by polycondensation of a polyfunctional amine with a polyfunctional acid halide, and the polyamide is constituted of units of the polyfunctional amine and units of the polyfunctional acid halide, the porous supporting layer having a multilayer structure formed by simultaneously applying a polymer solution A to form a first layer and a polymer solution B to form a second layer to the substrate, followed by contacting with a coagulation bath to cause phase separation, the polymer solution A having a solid concentration a of 12% to 18% by weight and the polymer solution B having a solid concentration b of 14% to 35% by weight, such that a/b≤1.0, wherein the polymer material in polymer solution A and the polymer material in polymer solution B are each independently selected from the group consisting of polysulfones, polyethersulfones, polyamides, polyesters, cellulosic polymers, vinyl polymers, poly(phenylene sulfide), poly(phenylene sulfone), and poly(phenylene oxide), or blends thereof, wherein the solvent of the polymer solution A and the solvent of polymer solution B are each good solvents independently selected from the group consisting of N-methyl-2-pyrrolidone, tetrahydrofuran, dimethyl sulfoxide, an amide, tetramethylurea, dimethylacetamide, dimethylformamide, a lower-alkyl ketone, acetone, methyl ethyl ketone, an ester, a lactone, trimethyl phosphate, y-butyrolactone, and mixed solvents thereof, wherein, as examined using an electron microscope, any ten cross-sectional images of the composite semipermeable membrane, each having a width of 2.0 μm in a membrane surface direction, have an average number density of projections having a height of one-fifth or more of a 10-point average surface roughness of the separation functional layer of 10.0 to 30.0 projections/μm, and the projections have an average height of less than 100 nm, the composite semipermeable membrane has a water production rate of 1.0 m 3 /m 2 /day or higher and a salt rejection of 99.5% or higher after an aqueous solution having an NaCl concentration of 3.5% by weight, a temperature of 25° C., and a pH of 6.5 is passed through the composite semipermeable membrane at a pressure of 5.5 MPa for 24 hours, wherein when an average thickness of the porous supporting layer is expressed by d, an average porosity of a portion of the porous supporting layer which is 0 to 0.1 d in terms of a distance from an interface between the porous supporting layer and the separation functional layer is expressed by Φ 1 , and an average porosity of a portion of the porous supporting layer which is 0.1 d to d in terms of said distance is expressed by Φ 2 , then Φ 1 <0.35 and Φ 2 >0.70. 2. The composite semipermeable membrane according to claim 1 , wherein the average number density is 13.0 to 30.0 projections/μm. 3. The composite semipermeable membrane according to claim 1 , wherein the projections in each of the cross-sections have a standard deviation of height of 70 nm or less. 4. The composite semipermeable membrane according to claim 1 , wherein the porous supporting layer has a multilayer structure including a first layer disposed on a substrate side and a second layer formed thereon. 5. The composite semipermeable membrane according to claim 4 , wherein an interface between the first layer and the second layer has a continuous structure. 6. The composite semipermeable membrane according to claim 1 , wherein the polymer solution A and the polymer solution B are different from each other in composition. 7. The composite semipermeable membrane according to claim 1 , wherein the substrate of the porous supporting membrane is a long-fiber nonwoven fabric comprising a polyester. 8. The composite semipermeable membrane according to claim 1 , wherein the polyamide is constituted of units of the polyfunctional amine and units of the polyfunctional acid halide in a presence ratio represented by: (Number of moles of the units of the polyfunctional amine)/(number of moles of the units of the polyfunctional acid halide)≥1.6. 9. The composite semipermeable membrane according to claim 1 , wherein, when an indenter is forced into the any ten sites of the separation functional layer in a hardness test according to a nanoindentation method to result in a displacement of 50 nm, the ten sites have an average load of 0.50 μN or greater. 10. The composite semipermeable membrane according to claim 9 , wherein the average load is 1.00 μN or greater. 11. The composite semipermeable membrane according to claim 1 , which, after having been subjected over 24 hours to a filtration treatment in which an aqueous solution having an NaCl concentration of 3.5% by weight, a temperature of 25° C., and a pH of 6.5 is supplied to the composite semipermeable membrane at an operation pressure of 5.5 MPa and thereafter subjected repeatedly to 5,000 cycles of a filtration treatment with the composite semipermeable membrane, each cycle comprising holding for 1 minute at an operation pressure of 5.5 MPa, subsequently lowering the pressure to 0 MPa over 30 seconds, thereafter maintaining the pressure for 1 minute, and then elevating the pressure to 5.5 MPa over 30 seconds, has a water production rate of 1.00 m 3 /m 2 /day or higher and a salt rejection of 99.80% or higher when the aqueous solution is passed through the composite semipermeable membrane at an operation pressure of 4.0 MPa.