▎ 摘　　要

NOVELTY - In-situ purification of aqueous on graphene synergy comprises (1) setting up rectangular adsorption and absorption treatment space composed of steel mesh, excepting for the water inlet surface and the top surface, and wrapping the absorption and treatment space by adsorption sponge, (2) fixing and uniformly distributing group of adsorption and absorption treatment spaces horizontally in the water body, entering the formed water body to the water body through the absorption treatment space through the water inlet surface, passing through the absorption treatment space, filtering and absorbing by the adsorption sponge, and flowing out of the adsorption absorption treatment space, (3) setting aquatic plants or aquatic vegetables and stock fish in the adsorption and absorption treatment space, and (4) consuming the pollutants by aquatic plants or aquatic vegetables and stocking fish adsorbed by the adsorption sponge after the water body flows through. USE - The method is useful for in-situ purification of aqueous on graphene synergy. ADVANTAGE - The method: proves that every 0.2 cubic meters of adsorption and absorption treatment space purification volume can process 1 cubic meter of runoff; has main pollutants of chemical oxygen demand (COD) cr5 removal rate is more than 75%, SS removal rate more than 85%, TN removal rate more than 75%, Tp removal rate more than 75%, ammoniacal nitrogen removal rate more than 75%, which greatly improves the treatment effect. DETAILED DESCRIPTION - In-situ purification of aqueous on graphene synergy comprises (1) setting up rectangular adsorption and absorption treatment space composed of steel mesh, excepting for the water inlet surface and the top surface, and wrapping the absorption and treatment space by adsorption sponge, where the height of the absorption and treatment space is less than 20 cm below the depth of the water body, (2) fixing and uniformly distributing group of adsorption and absorption treatment spaces horizontally in the water body, where the upper surface of the adsorption and absorption treatment space floats on the surface of the water body, entering the formed water body to the water body through the absorption treatment space through the water inlet surface, passing through the absorption treatment space, filtering and absorbing by the adsorption sponge, and flowing out of the adsorption absorption treatment space, (3) setting aquatic plants or aquatic vegetables and stock fish in the adsorption and absorption treatment space, and (4) consuming the pollutants by aquatic plants or aquatic vegetables and stocking fish adsorbed by the adsorption sponge after the water body flows through. The method is realized by means of adsorption sponges, which are absorbed by plants and fish on the adsorption sponges.