This method improves the treatment efficiency of the reactor by adding a certain quantity of suspended carriers, thereby increasing the biomass and diversity of microorganisms within the reactor. Consequently,the reactor's treatment efficiency is enhanced. Due to the carrier's density being similar to water,it achieves complete mixing with water during aeration,creating a gas-liquid-solid three-phase environment for microbialgrowth,The collision and shear effects of the carrier in water result in smaller air bubbles, thereby increasing the utilization of oxygen.

Moreover,each carrier supports different types of microorganisms both internally and externally,Inside, anaerobic or facultative anaerobic bacteria grow, while outside, aerobic bacteria thrive. This configuration effectively turns each carrier into a micro-reactor, enabling simultaneous nitrification and denitrification reactions to coexist, thus enhancing the treatment effectiveness.

Scope of Application

The filling rate of biological fler in the reactor is high.In the aerobic reactor, the buoyancy of air bubbles generated during aeration and oxygenation can push the material and the surrounding water to flow in the anaerobic reactor.Stirring makes the biological filler flow (or suspend)throughout the reactor with the water mass in the reactor. Process physics elements.

Tank body,(various shapes and material),filler, mixing facility (aeration or submersible mixing),effluent basket (various forms of screen).

Application