Hydrate formation promoter and use thereof in methane storage

What is claimed is: 1. A method for methane storage using a hydrate formation promoter, comprising adding the hydrate formation promoter into a reaction vessel, introducing methane to the reaction vessel at a temperature of 1° C.-25° C. and a pressure of 0-30 MPa to cause a hydrate formation reaction to occur to form methane hydrate and dissociating the methane hydrate in a methane hydrate dissociation device; wherein the hydrate formation promoter is a mixed aqueous solution comprising cyclopentane, sodium dodecyl sulfate and water, wherein a volume fraction of the cyclopentane is 5% to 23.4% based on a total volume of the mixed aqueous solution, and a mass fraction of the sodium dodecyl sulfate is 0.01% to 0.08% based on a total mass of the mixed aqueous solution; and wherein the methane hydrate dissociation device comprises a methane hydrate storage tank, a supersonic separation unit for separating the water, the cyclopentane and the methane, and a cyclopentane recovery tank; the methane hydrate storage tank, the supersonic separation unit, and the cyclopentane recovery tank are connected in series; dissociated methane in the methane hydrate storage tank is passed through the supersonic separation unit, wherein the water and the cyclopentane are condensed into a plurality of liquids and flow into the cyclopentane recovery tank for recycling, and methane gas is discharged; and a cold energy is generated during the step of dissociating the methane hydrate, and the cold energy is applied to the supersonic separation unit in order to reduce an energy consumption. 2. The method of claim 1 , wherein the temperature is 10° C.-15° C. and the pressure is 3-5 MPa. 3. The method of claim 1 , wherein an amphiphilic polyurethane sponge material is used as a carrier of the hydrate formation promoter, wherein the amphiphilic polyurethane sponge material adsorbs the hydrate formation promoter.