VIP member
Product details
The gas diffusion rubber plate of the membrane type microporous aerator is made of high-quality synthetic rubber. The diameter of the bubbles diffused by the rubber membrane is small, and the gas-liquid interface area is large. Therefore, it has a high mass transfer rate and high oxygenation efficiency. Compared with other current aeration devices, it can greatly save electricity consumption and reduce the operating cost of sewage treatment.
2. There are a large number of self closing holes on the rubber membrane, which can automatically open and close with oxygenation and shutdown, thus avoiding problems such as hole blockage and contamination. At the same time, the air entering the aerator does not need to be purified by dust removal. When the aeration tank stops running, the sewage mixture will not backflow, which can reduce a lot of operating costs and maintenance workload.
3. Due to the fact that the membrane type microporous aerator can be fully distributed at the bottom of the aeration tank, the dissolved oxygen in the tank is uniform, making it suitable for various tank types and depths. It can also be modified to improve the efficiency of the original aeration tank.
4. Due to the fact that the gas diffusion plate of the membrane type microporous aerator is made of high-quality rubber, it has excellent physical and mechanical properties. The tray, accessories, and air pipes are made of engineering plastics and polypropylene materials, which are not afraid of rust and greatly reduce the workload of operation and maintenance. The basic structure of the membrane type microporous aerator system mainly consists of an aerator base, an upper screw cover, an air flow plate, a synthetic rubber membrane, and other components. The material of these components is engineering plastic. When assembling, simply place the microporous rubber membrane on the air flow plate and insert it into the aerator base with a sealing line, and then tighten it with the upper screw cover. The air pipeline is made of polypropylene or ABS engineering plastic pipe (depending on the user's needs), with 3/4 internal threaded joints welded on top. The microporous aeration head is directly screwed onto the gas distribution pipeline, making installation and use convenient and conducive to maintenance and repair (see Figure 1). The diameter of YMB-I type microporous aerator is D=260mm (or 250): Type II D=215mm (or 189). There are 2100-2500 open and closed holes arranged according to certain rules on the synthetic rubber membrane. When inflating, air passes through the air distribution pipeline and the air flow plate, evenly entering between the rubber membranes. Under the action of air pressure, the membrane slightly bulges and the holes open to achieve the purpose of air diffusion. When the gas supply is stopped, the pressure between the membrane and the air flow plate gradually decreases, causing the holes to gradually close. When the pressure disappears completely, due to the water pressure and the rebound effect of the membrane itself, the membrane is compacted on the air flow plate. Given the above structure and the good characteristics of the membrane itself, it is impossible for the mixed liquid in the aeration tank to backflow, and therefore, it will not contaminate the pores. On the other hand, when the pores are opened, due to the elastic effect of the rubber, the small amount of dust contained in the air will not cause blockage in the gaps of the aerator.
2. There are a large number of self closing holes on the rubber membrane, which can automatically open and close with oxygenation and shutdown, thus avoiding problems such as hole blockage and contamination. At the same time, the air entering the aerator does not need to be purified by dust removal. When the aeration tank stops running, the sewage mixture will not backflow, which can reduce a lot of operating costs and maintenance workload.
3. Due to the fact that the membrane type microporous aerator can be fully distributed at the bottom of the aeration tank, the dissolved oxygen in the tank is uniform, making it suitable for various tank types and depths. It can also be modified to improve the efficiency of the original aeration tank.
4. Due to the fact that the gas diffusion plate of the membrane type microporous aerator is made of high-quality rubber, it has excellent physical and mechanical properties. The tray, accessories, and air pipes are made of engineering plastics and polypropylene materials, which are not afraid of rust and greatly reduce the workload of operation and maintenance. The basic structure of the membrane type microporous aerator system mainly consists of an aerator base, an upper screw cover, an air flow plate, a synthetic rubber membrane, and other components. The material of these components is engineering plastic. When assembling, simply place the microporous rubber membrane on the air flow plate and insert it into the aerator base with a sealing line, and then tighten it with the upper screw cover. The air pipeline is made of polypropylene or ABS engineering plastic pipe (depending on the user's needs), with 3/4 internal threaded joints welded on top. The microporous aeration head is directly screwed onto the gas distribution pipeline, making installation and use convenient and conducive to maintenance and repair (see Figure 1). The diameter of YMB-I type microporous aerator is D=260mm (or 250): Type II D=215mm (or 189). There are 2100-2500 open and closed holes arranged according to certain rules on the synthetic rubber membrane. When inflating, air passes through the air distribution pipeline and the air flow plate, evenly entering between the rubber membranes. Under the action of air pressure, the membrane slightly bulges and the holes open to achieve the purpose of air diffusion. When the gas supply is stopped, the pressure between the membrane and the air flow plate gradually decreases, causing the holes to gradually close. When the pressure disappears completely, due to the water pressure and the rebound effect of the membrane itself, the membrane is compacted on the air flow plate. Given the above structure and the good characteristics of the membrane itself, it is impossible for the mixed liquid in the aeration tank to backflow, and therefore, it will not contaminate the pores. On the other hand, when the pores are opened, due to the elastic effect of the rubber, the small amount of dust contained in the air will not cause blockage in the gaps of the aerator.
Online inquiry
-
Contacts
-
Company
-
Telephone
-
Email
-
WeChat
-
Verification Code
-
Message Content
-