Product Description
The tubular microporous aerator from Nanjing Lanling Environmental Technology Co., Ltd. is a state-of-the-art, dependable, and highly energy-efficient aeration solution specifically designed for municipal and industrial wastewater treatment. It represents the pinnacle of advanced engineering in the field.
This cutting-edge device boasts impressive features such as minimal pressure loss and outstanding oxygen utilization efficiency, ensuring a consistent and uniform distribution of bubbles. Moreover, it exhibits exceptional strength against corrosion, coupled with reduced energy consumption for enhanced operational efficiency.
Our aerator stands out with its superior performance, offering remarkable efficiency and an extended service life, making it an ideal choice for long-term wastewater treatment projects.
Features:
Simple structure that ensures ease of use and maintenance, facilitating seamless integration into existing systems.
Uniform stress distribution across the structure to enhance durability and reliability, ensuring consistent performance.
Reliable Performance, engineered to deliver outstanding functionality even in the harshest environments.
Easy installation process designed to minimize downtime and streamline deployment, allowing for quick 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
The rubber membrane hose, crafted from high-quality silicone and EPDM rubber, offers exceptional heat, ozone, acid, and alkali resistance, along with excellent chemical stability. This choice of materials significantly extends the lifespan of the hose compared to conventional options.
The advanced composition ensures resilience under challenging conditions, providing long-lasting performance and reliability.
Compared to standard rubber membranes, our product dramatically enhances service life, reducing the need for frequent replacements.
01
The support body incorporates a hollow, water-filled design, effectively minimizing buoyancy and ensuring stability in aquatic environments, thus optimizing operational efficiency.
This innovation significantly reduces the aerator's buoyancy, enabling more controlled and efficient aeration processes.
02
The aeration holes feature a unique zigzag configuration, providing excellent tension and rapid closure capabilities. This design enables the release of micro-bubbles with diameters under 2MM, achieving a remarkable oxygen utilization rate of 28 ~ 35%.
This precision-engineered design maximizes oxygen transfer efficiency, making it an essential tool for superior aeration performances.
03
The inclusion of air-guide tanks facilitates the rapid and uniform distribution of gas within the aerator. This innovation ensures uniformity in the release of gas bubbles and significantly extends the life of the aeration membrane tube.
The carefully designed air guide groove, a narrow concave feature, plays a crucial role in this process, optimizing gas release and enhancing the overall aeration effect.
The rubber membrane tube is strategically configured with no aeration holes in specific areas, preventing backflow when gas supply is halted.
Upon cessation of air supply, the rubber membrane adheres closely to the guide groove, effectively preventing sewage backflow and maintaining system integrity.
This innovative approach ensures consistent performance and protects against potential system disruptions, providing peace of mind to operators.
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