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20g Ceramic Ozone Generator Tube
The ozone tube adopts micro-gap strong corona discharge, corrosion-resistant materials and ceramic caps. The dielectric body is made of high-purity ceramic materials, sintered at high temperature, and finely ground. It has the characteristics of high frequency, low voltage, high concentration and low power consumption. It is suitable for dry air source and oxygen source, and has a very long life.
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20g Ceramic Ozone Generator Tube
The ozone tube adopts micro-gap strong corona discharge, corrosion-resistant materials and ceramic caps. The dielectric body is made of high-purity ceramic materials, sintered at high temperature, and finely ground. It has the characteristics of high frequency, low voltage, high concentration and low power consumption. It is suitable for dry air source and oxygen source, and has a very long life.
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Ejector
Working principle of ejector: When the pump impeller rotates at high speed, the liquid is ejected from the nozzle at high speed. When the high-speed flowing liquid passes through the gas mixing chamber, a vacuum is formed in the gas mixing chamber, and a large amount of gas is sucked in by the air guide pipe. After the gas enters the gas mixing chamber, it is violently mixed with the liquid at the throat to form a gas-liquid mixture, which is discharged from the diffusion pipe. The gas rises in the water body as fine bubbles, forming efficient material transfer in the whole process. It can disinfect, oxygenate and purify the water body.
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High Efficiency Mixer
A high-efficiency mixer is a high-efficiency mixing device without moving parts. It uses a mixing unit fixed in the pipe to force the fluid to change direction and speed when it flows in the pipeline, increase the velocity gradient of the fluid laminar flow or form turbulence. In the laminar state, the fluid will undergo a process of "division-position movement-re-merger"; in the turbulent state, in addition to the above process, the fluid will also produce violent vortices in the cross-section direction. These vortices will generate strong shear forces, further dividing and mixing the fluid, and finally forming the desired emulsion.
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