Featuring modular design, high-efficiency treatment, and low O&M costs, it is the preferred solution for small to medium-scale wastewater treatment.
This integrated device combines biofilm processes with physical treatment units, centered on MBBR technology. It degrades pollutants via microorganisms attached to suspended carriers (e.g., polyethylene/polyurethane media) and integrates sedimentation/filtration for water purification. Characterized by "efficient integration and intelligent operation," it suits decentralized or small/medium-scale applications.
· Municipal: Small town wastewater stations, rural decentralized treatment (villages/communities).
· Industrial: High-concentration organic wastewater from food processing, pharmaceuticals, dyeing.
· Emergency: Black-odor river restoration, temporary treatment after floods.
· Upgrades: Capacity expansion and standard improvement of outdated plants (e.g., from Grade B to A).
· Special Scenarios: Hospital wastewater, tourist area sewage requiring rapid deployment and compliance.
Material & Modularity: Carbon steel anti-corrosion or FRP shell, modular design enabling quick assembly and scaling (10-500 m³/d).
Biological Zone: Suspended carriers (30-70% filling rate) fluidized by aeration, forming biofilms with microbial concentrations up to 30 g/L.
Integrated Units: Anoxic/aerobic reactors, inclined plate sedimentation, optional filtration modules in a single enclosure.
Intelligent Control: PLC/IoT modules monitor DO, pH, sludge concentration; AI algorithms optimize aeration and ratios dynamically.
Efficient Carbon/Nitrogen Removal: 30-50% higher simultaneous nitrification-denitrification efficiency than conventional methods.
Shock Resistance: Fluidized carriers buffer fluctuations, handling COD 200-5000 mg/L.
Space Savings: 1/3-1/2 less footprint than traditional processes.
Low Maintenance: No sludge bulking, 10+ year carrier lifespan, 1-2 year cleaning intervals.·
Energy Efficiency: 20-40% lower aeration energy (0.3-0.6 kWh/m³)
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