Product Description
High efficiency cyclone aerator
Product overview
The high-efficiency swirl aerator has an overall performance of super strong swirl, dispersion, and mixing effects. It has a large ventilation capacity, is not easy to block, strong water mixing force, and the sludge at the bottom of the tank will not pile up. It is especially used in various medical, chemical, and industrial water engineering projects. Easy to install, there are two types of installation: fixed installation and removable installation, especially suitable for new construction, construction projects, and renovation of old aeration tanks.
Product features
1. High dissolved oxygen efficiency, low resistance, and low combined energy consumption.
2. There is a large cyclone on the air and water, strong mixing force, and no sludge accumulation at the bottom of the pool.
3. There are multiple cutting structures inside the aerator that fully mix air and water, improving oxygen utilization efficiency. Its special cutting structure is fluid dynamics modeled, and the resistance loss is smaller than that of the microporous aerator.
4. Long term operation without blockage, aeration device with no loose parts, sturdy and durable without repair, stable performance, and a service life of over 10 years.
5. Easy to install, both with and without water in the pool can be installed in a portable manner.
Working principle
The high-efficiency rotary mixed explosive device uses high-speed gas from the outlet of the air pipe to blow into the mixing cylinder, carrying trapped water around it to form a gas-liquid mixture inside the mixing pipe, with the goal of high-speed upward movement. After the mixing body reaches the flow rate rotary installation device, the inner core rotates upwards and returns. When the mixing body moves to the triangular protrusion on the surface of the upper inner core, it will flow towards both sides of the protrusion, causing the pressure on both sides of the protrusion to be higher than the pressure starting from the center of the surface of the protrusion. Due to the formation of pressure difference, the gas sea will split and produce more gas type small bubbles on its own during the pressure change process.
Technical Parameters
Product model |
Ventilation volume |
Oxygen utilization rate |
Clothing surface |
Resistance loss |
Confluence depth |
w170χH420mm |
10-40m³/pcs.h |
8-12‰ |
1-9m² |
0.5-1.5kpa |
≥5m |
Widely applicable: sewage treatment, industrial chemicals, oil fields, pharmaceutical industry, printing and dyeing, papermaking, metallurgical coal mines.