▎ 摘　　要

NOVELTY - Microorganism-coupled graphene nanotechnology degrading volatile organic compounds device comprises volatile organic compounds (VOCs) exhaust gas collection unit, and a fan is provided at an outlet of the VOCs exhaust gas collection unit. The VOCs exhaust gas collection unit is in communication with the exhaust gas purification unit. The exhaust gas purification unit is sequentially provided with graphene diatom porcelain microspheres, multiple stages of swirl plates and a spray unit for spraying a spray solution of microbial strains along the flow direction of the exhaust gas. An alkaline graphene purification unit and an acidic graphene purification unit are provided between the VOCs exhaust gas collection unit and the exhaust gas purification unit. USE - Microorganism-coupled graphene nanotechnology degrading volatile organic compounds (VOCs) device. ADVANTAGE - The microorganism-coupled graphene nanotechnology degrading volatile organic compounds device (VOCs) has low cost, high removal efficiency, small secondary pollution, high safety, good biocompatibility, excellent aging resistance, and can completely degrade benzene. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for microbial coupled graphene nanotechnology degradation VOCs process, which involves: (A) spraying unit sprays a spray of microbial strains, so that the surface of the graphene diatom porcelain microspheres and the swirl plate is covered with a microbial film; (B) passing a VOCs exhaust gas through the graphene diatom porcelain microspheres and the swirl plate for three-stage purification; and (C) purifying the gas after passing the test. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of an microbe-coupled graphene nanotechnology degradation VOCs device. Basic graphene purification unit (2) Acidic graphene purification unit (3) Exhaust gas purification unit (4) First sensor (5) First fan (6) Second fan (7)