Product Description
The tubular microporous aerator by Nanjing Lanling Environmental Technology Co., Ltd., is a highly advanced and reliable device, tailored for optimal performance in municipal and industrial wastewater treatment applications. Renowned for its superb efficiency, this aerator offers a remarkable blend of energy conservation and operational integrity, ensuring your environmental solutions are both sustainable and effective.
With a design that minimizes pressure loss and maximizes oxygen utilization efficiency, it ensures uniform bubble diffusion for superior treatment results. The aerator stands resilient against corrosion, maintaining low energy consumption without compromising on its impressive efficacy, promising a robust service life that withstands the test of time.
Its robust construction and high efficiency make it a cornerstone in wastewater management, delivering long-lasting performance.
Features:
Ingeniously Simple Structure
Evenly Distributed Stress
Consistently Reliable Performance
Effortless Installation and Setup
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 a high-quality mix of silicone and EPDM rubber, the rubber membrane hose is engineered to excel under challenging conditions. With exceptional heat resistance, ozone, acid, and alkali resistance, this material exhibits outstanding chemical stability, standing far above conventional rubber alternatives.
This remarkable durability extends beyond typical rubber membranes, ensuring prolonged operational life and reduced maintenance needs.
Compared to ordinary rubber, the advanced compound significantly enhances longevity and reliability.
01
The innovative support body features a hollow, water-filled design, effectively minimizing the aerator's buoyancy when submerged. This design innovation ensures stable operation and efficient aeration.
Buoyancy is effectively managed, enhancing performance in aquatic environments.
02
Featuring uniquely designed zigzag aeration holes, this system allows for precise tension and instantaneous closure. With the ability to release micro-bubbles with a diameter of less than 2mm, it optimizes the oxygen transfer efficiency to an impressive 28-35%, elevating the overall aeration performance.
The strategic release of micro-bubbles ensures maximum oxygen transfer and efficiency.
03
The inclusion of air-guide tanks facilitates rapid and even distribution of gas within the aerator. This innovative design promotes uniform force across the aeration membrane tube, significantly extending its lifespan and ensuring consistent gas bubble release. The air guide groove, a narrow concave feature, works in harmony with the rubber membrane tube.
The precise engineering of the air guide groove ensures consistent bubble release, enhancing the aeration effect and prolonging the membrane's life.
Strategically designed, the guide groove prevents the rubber membrane from opening aeration holes when not in use, safeguarding against backflow.
The membrane's secure fit along the guide groove when air flow ceases effectively prevents sewage backflow, ensuring system integrity.
When the air supply is halted, the rubber membrane adheres tightly to the guide groove, offering a robust defense against sewage backflow, thereby maintaining the system's reliability and operational excellence.
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