▎ 摘　　要

NOVELTY - The removal device has a box (1), a water pump (2) that communicates with inner cavity is fixedly installed on the right side of the box, and a filter box is fixedly installed on the right side of the top in the box. The top portion of the box located above the filter box is hinged with a box cover penetrating the top inside the box. The bottom portion of the left side of the filter box is inserted with the right end of the pipe and the inner chambers are connected to each other. A filter net is fixedly installed in one end of the pipeline inserted in the filter box. The middle portion of the inner cavity of the pipeline is provided with a graphene permeable membrane. The upper and lower sides of the graphene permeable membrane are provided with a self-detecting mechanism. A section of the pipeline close to the filter box is embedded with a turbulence mechanism. A vibration mechanism is provided on the right side of the self-detection mechanism. USE - Graphene seawater salt removal device based on water turbulent blockage. ADVANTAGE - The formation of multiple unidirectional turbulent water flows has a significant impact on the surface of the graphene permeable membrane, and effectively impacts the salt and impurities within the pressure range of the graphene permeable membrane. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of graphene seawater salt removal device based on water turbulent blockage. Box (1) Water pump (2)