Product Description
The tubular microporous aerator is an advanced, highly reliable, and exceptionally energy-efficient aeration device, primarily utilized in municipal
and industrial wastewater treatment. This aerator boasts minimal pressure loss, superior oxygen utilization efficiency, uniform bubble
dispersion, robust corrosion resistance, reduced energy consumption, outstanding efficiency, and an extended service life.
Features:
Elegant simplicity in structure
Evenly distributed stress
Guaranteed performance reliability
Effortless 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 rubber membrane hose is crafted from premium silicone and EPDM rubber, offering excellent characteristics such as heat resistance, ozone resistance,
resistance to acids and alkalis, and superior chemical stability. These qualities greatly enhance its durability compared to conventional rubber.
characteristics. Compared to ordinary rubber membranes, it significantly extends its service life.
01
The support body features a hollow, water-filled design, significantly reducing the aerator's buoyancy when submerged. The buoyancy is drastically
decreased, ensuring stability and efficiency.
02
Aeration holes are innovatively designed in a zigzag pattern, allowing for optimal tension and instantaneous closure, releasing micro-bubbles with
diameters less than 2MM. This design achieves a remarkable oxygen utilization rate of 28% to 35%.
03
Ingenious use of air-guide tanks facilitates the rapid and even distribution of gas within the aerator, ensuring uniform force on the aeration membrane tube,
extending its lifespan and enhancing gas bubble release uniformity. The narrow concave air guide groove is expertly designed for optimal gas distribution.
The rubber membrane tube aligns perfectly with the groove, with no aeration holes in the groove area. When gas supply ceases, the membrane adheres closely
to the guide groove, preventing any sewage backflow. This ensures operational safety and integrity at all times.
to the guide groove, effectively preventing sewage backflow. This innovative design ensures operational reliability and safety.
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