
Product Description
Introducing our cutting-edge Tubular Microporous Aerator, a paragon of maturity, reliability, and energy efficiency. This exceptional aeration solution excels in both municipal and industrial wastewater treatment arenas.
Engineered for excellence, it boasts an impressive array of features such as minimal pressure loss, superior oxygen utilization efficiency, and perfectly uniform bubble diffusion.
With remarkable corrosion resistance, this device promises minimal energy consumption while achieving high efficiency and extended durability.
Features:
Ingeniously simple structure
Optimized for uniform stress distribution
Unwavering, reliable performance
Effortless and swift installation
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
The advanced rubber membrane hose is crafted from silicone and EPDM rubber, presenting exceptional resistance to heat, ozone, and harsh chemical environments, alongside remarkable stability.
Its superior acid and alkali resistance and outstanding chemical stability significantly enhance service life, surpassing standard rubbers.
This marked improvement distinguishes it from conventional rubber membranes, promising longevity.
01
Our support body employs an innovative hollow, water-filled design. This reduces the aerator's buoyancy significantly when submerged, optimizing its performance.
This design effectively diminishes the water buoyancy of the aerator, enhancing stability and efficiency.
02
The aeration holes are ingeniously designed in a zigzag pattern with long holes, ensuring excellent tension and instant closure. It releases micro-bubbles with diameters less than 2MM, optimizing aeration efficiency.
Achieving high oxygen utilization, this system ensures an impressive rate of oxygen transfer, ranging between 28% and 35%.
03
Utilizing state-of-the-art air-guide tanks, the internal distribution of gas is rapid and uniform, which facilitates the even force distribution across the aeration membrane tube.
This uniformity extends the life of the aeration membrane tube and enhances the efficiency of gas release. The air guide groove, a narrow concave channel, ensures optimal performance.
The groove is engineered such that the rubber membrane tube avoids opening unnecessary aeration holes. When gas supply ceases, the membrane readily adheres to the guide groove.
This clever design halts the supply of gas seamlessly, pressing the rubber membrane tightly against the groove, preventing any sewage backflow.
In the event of air supply stoppage, the rubber membrane clings securely to the guide groove, a testament to its superior anti-backflow capability.







