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| Categories | MBBR In Wastewater Treatment |
|---|---|
| Brand Name: | DUBHE |
| Model Number: | MBBR |
| Certification: | ISO |
| Place of Origin: | China |
| Payment Terms: | T/T |
| Specific gravity: | >0.96g/cm³ |
| Application: | Wastewater Treatment |
| Membrane hanging time: | 5-15days |
| Material: | HDPE |
| Efficient surface: | >500㎡/m³ |
| void ratio: | >95% |
| PH: | 5-15 |
| Specific surface aera: | ≥900m2/m3 |
| Specification: | φ11*7mm |
MBBR (Moving Bed Biofilm Reactor) carriers are specialized microbial growth media designed to provide an optimal environment for microorganisms in MBBR systems. These innovative bioactive carriers are engineered through:
Scientific material formulations tailored to wastewater characteristics
Integration of trace elements promoting rapid microbial colonization
Advanced polymer modification techniques
✔ Large Specific Surface Area – Maximizes biofilm attachment space
✔ Superior Hydrophilicity – Accelerates initial microbial adhesion
✔ High Bioactivity – Enhances treatment efficiency for both carbon
and nitrogen removal
✔ Rapid Biofilm Formation – Reduces system startup time by 30-50%
✔ Long Service Life – Resists wear with 8-10 years operational
durability
| Product Name | MBBR In Wastewater Treatment |
|---|---|
| Material | HDPE (High-Density Polyethylene) |
| Efficient Surface | >500 ㎡/m³ |
| Void Ratio | >95% |
| Specific Gravity | >0.96 g/cm³ |
| pH Range | 5-15 |
| Membrane Hanging Time | 5-15 days |
| Applications | Industrial, Municipal, Domestic Wastewater Treatment |
| Key Features | Integrated-Biofilm-Reactor-System, Microbial-Biofilm-Reactor-System, Biofilm-Carrier-Treatment-System |
Advantages of MBBR Technology in Wastewater Treatment
The Moving Bed Biofilm Reactor (MBBR) system offers significant benefits for modern wastewater treatment applications, including:
Quick commissioning – Biofilm forms faster than activated sludge systems, reducing startup time.
Easy integration – Can be added to existing tanks with minimal structural modifications.
5–20× higher biomass concentration than conventional activated sludge.
Stable performance under fluctuating organic/inorganic loads.
30–50% lower energy consumption (no sludge recirculation required).
Compact footprint – Saves space compared to traditional processes.
Reduced capital investment – No need for additional clarifiers or large reactors.
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