▎ 摘　　要

NOVELTY - Performing synchronous high-efficiency purification method of micro-plastic and heavy metal pollutants in a water environment involves constructing an electrolytic cell system, connecting the positive pole of the power supply to the anode, connecting the negative pole of the power supply to the cathode, and using the water body containing microplastics and heavy metal pollutants as the electrolyte. The power supply is energized to form a reaction system. The microplastics adsorb heavy metals to form a plastic carrier charge-carrying system. The electric-carrying system of the plastic carrier migrates directionally to the cathode, and the pH value is controlled to reduce the heavy metals at the cathode. The anode is ionized to form polyhydroxy complexes in the electrolyte, or added adsorbents and/or flocculants to adsorb microplastics to achieve water purification. USE - Method for performing synchronous high-efficiency purification method of micro-plastic and heavy metal pollutants in a water environment for complex water environment with both microplastics and heavy metals (claimed). ADVANTAGE - The method realizes reduction of heavy metals at the cathode by controlling the pH value, and metal ions generated by the electrolysis of the anode are hydrolyzed and polymerized to generate flocculant adsorption micro-plastic, so that the water body purification is realized. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a synchronous high-efficiency purification system for microplastics and heavy metal pollutants in a water environment, which includes a power source, an anode, a cathode, and an electrolyte, and the positive pole of the power supply is connected to the anode, the negative pole of the power supply is connected to the cathode, and the water body containing microplastics and heavy metal pollutants is used as the electrolyte.