Product Description
Introducing our state-of-the-art tubular microporous aerator, a paragon of advanced technology that blends reliability with energy efficiency. This aeration device is an indispensable component for both municipal and industrial wastewater treatment systems, offering unparalleled performance and dependability.
With its remarkable advantages such as minimal pressure loss, exceptional oxygen utilization efficiency, and an even distribution of bubbles, this aerator is engineered to elevate the performance of your wastewater treatment system.
Its robust construction ensures strong resistance against corrosion, while its design promotes reduced energy consumption, outstanding efficiency, and a prolonged service life. This aerator is the epitome of innovation meeting practicality.
Features:
Simple structure that ensures ease of use and maintenance.
Uniform stress distribution for enhanced durability and performance.
Reliable Performance-trust in a system that never falters.
Easy installation-set it up with minimal effort and start using immediately.
Product Parameters
| |
Product Parameters |
Relevant Technical Parameters |
| Model |
φ65mm |
service area:0.8-1.2m²/m |
Bubble Diameter: |
1-2mm |
| Specification |
L=500mm,L=750mm,L=1000mm |
oxygen utilization rate:≥28% |
oxygenation capacity: |
≥0.38Kg/h |
| Connection Method |
hoop connection |
Oxygenation power efficiency:≥7.1Kg/KW ·h |
air flow rate: |
5-10m³/h ·m |
| Material |
EPDM rubber film, silicone rubber film |
stomatal density:8000-12000 per/m |
resistance loss: |
≤3500Pa |
| Model |
φ93mm |
service area:1.75-5.61m2/m |
Bubble Diameter: |
1-2mm |
| Specification |
L=500mm,L=750mm,L=1000mm |
oxygen utilization rate:≥35% |
oxygenation capacity: |
≥0.58Kg/h |
| Connection Method |
hoop connection |
Oxygenation power efficiency:≥8.9Kg/KW ·h |
air flow rate: |
8-15m³/h ·m |
| Material |
EPDM rubber film, silicone rubber film |
stomatal density:19000-23000per/m |
resistance loss: |
≤4000Pa |
PRODUCT STRUCTURE
Crafted from high-grade silicone and EPDM rubber, our rubber membrane hose is designed for peak performance in harsh conditions. It features exceptional heat resistance, as well as resistance to ozone, acids, and alkalis, ensuring stability and longevity.
This advanced material combination markedly improves the service life of the membrane hose compared to conventional rubber options, setting a new standard for reliability.
characteristics that significantly extend its service life, outperforming traditional rubber membrane solutions.
01
Utilizing a hollow, water-filled support body, our design effectively reduces the aerator's buoyancy in water. This innovative approach minimizes buoyancy challenges, enhancing the stability and performance of the aerator.
The buoyancy of the aerator is effectively minimized in water, ensuring unrivaled stability.
02
Our aeration holes feature an ingenious zigzag pattern, offering superior tension and rapid closure capabilities. This design allows for the release of sub-2MM micro-bubbles, optimizing the oxygen utilization rate to an impressive 28-35%.
Enjoy high oxygen efficiency with the release of tiny micro-bubbles, elevating the performance of your system to new heights.
03
Equipped with air-guide tanks, our aerator ensures rapid and uniform gas distribution within the system. This thoughtful design prolongs the life of the aeration membrane tube and enhances the uniformity of gas bubble release, boosting overall aeration efficiency.
The narrow, concave air guide groove prevents sewage backflow by ensuring that when gas supply ceases, the rubber membrane seals tightly against it, maintaining system integrity.
This innovative groove design ensures that gas is released with maximum efficiency while protecting against backflow, safeguarding your treatment system.
Once the air supply is halted, the rubber membrane seamlessly conforms to the air guide groove, effectively preventing any potential sewage backflow and securing the system.
The meticulous design ensures that upon stopping the air supply, the rubber membrane adheres snugly to the groove, offering a robust defense against sewage backflow.
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