Upgrade Your Bioremediation Process With Polymer Composite Gel Biocarriers
Introduction
Our innovative hydrogel-iron composite biofilter media represents a quantum leap in biological wastewater treatment, specifically engineered to address the most challenging contaminants including ammonia nitrogen, total phosphorus, and recalcitrant organic pollutants. Combining sustained-release hydrogel technology with active iron ion catalysis, this advanced media delivers unparalleled performance in:
Simultaneous nitrification-denitrification
Enhanced biological phosphorus removal
Degradation of antibiotics and micro-pollutants
COD reduction in high-load industrial wastewater
Key Features & Technological Advantages
Core Technology & Mechanism
1. Dual-Action Iron Catalysis System
Endogenous Fenton-like reactions: Iron ions react with microbially-produced H₂O₂ to generate hydroxyl radicals (·OH)
Electron shuttle function: Accelerates electron transfer in denitrification process
Phosphorus precipitation: Forms stable iron-phosphate complexes
2. Smart Hydrogel Matrix
Controlled nutrient release: Maintains optimal C:N:P ratio for microbial growth
pH buffering capacity: Stabilizes reaction environment (pH 6-8.5)
Biofilm protection: Prevents biomass loss during hydraulic shocks
Technical Parameters
| Parameter | Value |
|---|---|
| Material | Polyurethane porous gel |
| Specific Surface Area | ≥10,000 m²/m³ |
| Porosity | 98% |
| Dosing Rate | 10–30% of tank volume |
| Hanging Time | 3–7 days |
| pH Range | 6–10 |
| Temperature Range | 1–50°C |
| Expansion Ratio | 190 ± 18% (1:2.2 post-swelling) |
Case Example: A Saudi textile plant achieved 95% COD removal by replacing conventional carriers with PCG.
Performance Advantages Over Conventional Media
✔ 40% higher pollutant removal efficiency compared to traditional plastic carriers
✔ 30% reduction in sludge production decreases disposal costs
✔ 50% faster system startup due to rapid biofilm formation
✔ 3X longer service life than plastic media in harsh conditions
✔ 20% lower energy consumption for aeration systems
Target Applications
Industrial Wastewater Treatment
Chemical & pharmaceutical wastewater (high COD, toxicity)
Textile & dyeing effluent (color removal, complex organics)
Food processing wastewater (high organic load)
Electroplating wastewater (heavy metal removal)
Municipal & Decentralized Systems
Sewage treatment plant upgrades
Black & odorous water remediation
Rural decentralized treatment systems
River/lake ecological restoration
FAQ
Q1: How does PCG compare to traditional plastic bio carriers?
PCG offers a larger surface area, better oxygen transfer, and faster biofilm growth due to its hydrophilic properties.
Q2: What is the expected lifespan of PCG?
Under normal conditions, PCG lasts over 10 years without significant wear.
Q3: Can PCG be used in anaerobic systems?
Yes, it is adaptable to both aerobic and anaerobic environments.
Q4: How much PCG media is needed per m³ of reactor?
The filling ratio typically ranges from 30% to 70%, depending on the system design.
Q5: Is PCG suitable for high-salinity wastewater?
Yes, it performs well in saline conditions, making it ideal for industries like seafood processing.
Conclusion
PCG Biological Media Carrier is a cutting-edge solution for modern wastewater treatment, combining Japanese-inspired design with advanced polymer technology. Its high efficiency, durability, and cost-effectiveness make it an ideal choice for projects in Saudi Arabia, the Philippines, Indonesia, Malaysia, and beyond. For sustainable and high-performance biofilm treatment, PCG leads the industry.
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Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.