Experience the Benefits of Our High-Performance Environmental Protection Equipment for Wastewater Treatment

• Multi-Stage Biological Treatment Process: Wastewater passes through pretreatment (screens intercept large impurities), a regulating tank (water quality and quantity homogenization), an anaerobic zone (organic matter hydrolysis and denitrification), an aerobic zone (organic matter oxidation and nitrification), an anoxic zone (denitrification and denitrification), and a sedimentation zone (sludge separation). Finally, it undergoes disinfection before discharge or reuse.
• Anaerobic Zone: Anaerobic bacteria decompose large organic molecules, releasing biogas and performing preliminary nitrogen removal.
• Aerobic Zone: Aerobic bacteria mineralize organic matter and nitrify ammonia nitrogen.
• Anoxic Zone: Denitrifying bacteria convert nitrates into nitrogen gas, completing nitrogen removal.
• Synergistic Effect of Biofilm and Activated Sludge: Combining the biofilm process (biofilm-forming microorganisms) with the activated sludge process (suspended microbial communities) improves organic matter degradation efficiency and shock load resistance, while reducing sludge production.

• Pretreatment Unit: Screens intercept large particles such as hair and plastic to prevent pipe blockage; Equalization Tank buffers water volume fluctuations and maintains balanced water quality.
• Biological Treatment Unit: Anaerobic Zone utilizes elastic fillers to enhance microbial attachment; Aerobic Zone equipped with aeration devices; Anoxic Zone utilizes an internal circulation design.
• Post-Treatment Unit: Sedimentation Tank utilizes inclined tube or vertical flow sedimentation; Disinfection Device utilizes UV or chemical disinfection.
• Intelligent Control System: Integrated PLC automatic control module monitors water quality parameters in real time and supports remote monitoring.

• Space Efficiency: Fully buried design reduces floor space by over 70%.
• Stable Operation: Modular design adapts to water quality fluctuations with effluent meeting Class A standards.
• Convenient Operation and Maintenance: Low sludge production (discharged every 90 days) with automated control.
• Energy Saving and Low Carbon: Optimized aeration system reduces energy consumption by 30%.

Suitable for small- to medium-scale (20-500 m³/d) applications including domestic sewage (rural areas, scenic spots, residential areas), food processing wastewater, and hospital wastewater.

• Screens intercept large impurities (such as hair and plastic) in wastewater, preventing clogging of subsequent equipment. Filtering is performed in two stages: coarse and fine screens.
• Equalization Tanks homogenize water quality and volume, buffering against fluctuations in wastewater flow. These tanks are typically constructed of reinforced concrete or fiberglass.

• Anaerobic Zone: Anaerobic bacteria decompose large organic molecules, while elastic packing enhances microbial attachment for initial nitrogen removal.
• Anoxic Zone: Incorporating an internal circulation design, denitrifying bacteria convert nitrates into nitrogen gas, further removing nitrogen.
• Aerobic Zone (Contact Oxidation Tank): Forced aeration or microporous aerators provide oxygen, promoting aerobic bacteria to degrade organic matter and nitrify ammonia nitrogen.
• Membrane Bioreactor (MBR) (Optional): Integrated MBR membrane modules replace traditional secondary clarifiers for efficient solid-liquid separation and improved effluent quality.

• Sedimentation Tanks: Inclined plate sedimentation tanks or vertical flow sedimentation tanks separate suspended sludge after biological treatment.
• Disinfection Tanks: Ultraviolet light or chemical disinfection (such as chlorine tablets) is used to ensure that the effluent meets microbial standards.
• Clear Water Tanks: Store qualified effluent for reuse or discharge.

• Sludge Treatment System: The sludge tank collects sludge from the sedimentation tank and returns it to the biochemical tank via a sludge pump or periodically discharges it to the outside.
• Aeration System: Consists of a blower, aeration piping, and microporous aeration heads, providing oxygen to the biological treatment unit.
• Intelligent Control System: The PLC automation module monitors water quality parameters in real time, controls equipment startup and shutdown, and supports remote operation.

Main Materials: Fiberglass tanks or reinforced concrete structures are corrosion-resistant and suitable for underground environments.

Underground Design: The entire equipment is buried underground, allowing the surface to be restored to greenery or roads, saving space.

• High cost performance: Achieves the best cost performance based on customer's product positioning and economic affordability.
• Advanced design: Meticulous design concept and highly automated industrial equipment showcase modern enterprise image.
• High adaptability: Meets current production requirements while allowing for future increased production and improved quality needs.
• Quality compliance: Strict adherence to ISO900 quality management system with rigorous control of every installation detail.