Precise Control of Catalytic Time to Reduce Energy Consumption and Costs: In a microchannel reactor, wastewater flows continuously, allowing for precise control of the retention time. Once optimal treatment indicators such as COD and ammonia nitrogen are achieved, the process immediately moves to the next step or stops, effectively eliminating the high energy consumption caused by prolonged electrocatalytic oxidation. Additionally, microchannel technology can flexibly adjust the number of microreactors involved in water treatment based on changes in water volume, enabling on-demand wastewater treatment. This approach reduces operational costs, saves space, and lowers costs by more than 80% compared to conventional electrocatalytic oxidation equipment on the market.

Enhanced Efficiency: The use of microchannel catalytic reactors significantly shortens water treatment time, achieving over 90% treatment effectiveness within just 10 minutes, representing a major advancement.

High Safety:: Microchannel catalytic reactors effectively address safety concerns found in traditional electrolytic cells, such as explosive mixtures, hydrogen release, and high-temperature oxidation. This is due to the low liquid hold-up and short retention time, ensuring inherent safety by eliminating these risks.

 Modularity: The microchannel catalytic reaction system is a modular distributed system. The number of channels can be adjusted, and modules can be replaced to regulate water treatment time based on market conditions. The treatment system can also be modularized and miniaturized, integrating with membrane treatment modules, truly achieving small-scale and portable water treatment equipment.