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Model | SONOL20-1000 | SONOL20-500 | SONOL28-300 | SONOL40-100 |
Frequency | 20±0.5 KHz | 20±0.5 KHz | 28±0.5 KHz | 40±0.5 KHz |
Power | 1000 W | 500 W | 300 W | 100 W |
Voltage | 220/110V | 220/110V | 220/110V | 220/110V |
Temperature | 300 ºC | 300 ºC | 300 ºC | 300 ºC |
Pressure | 35 MPa | 35 MPa | 35 MPa | 35 MPa |
Max Capacity | 8 L/Min | 5 L/Min | 1L/Min | 0.5 L/Min |
Tip Head Material | Titanium Alloy | Titanium Alloy | Titanium Alloy | Titanium Alloy |
Ultrasound is an elastic mechanical vibration wave, which is essentially different from electromagnetic waves. Because electromagnetic waves propagate in vacuum, and ultrasonic waves must propagate in the medium. When passing through the medium, the whole process of expansion and compression is formed.
In the liquid, the expansion process creates negative pressure. If the ultrasonic energy is strong enough, the expansion process will generate bubbles in the liquid or tear the liquid into small voids. These voids are closed in an instant, and an instantaneous pressure of up to 3000 MPa is generated when they are closed, which is called cavitation. The whole process is 400us.
Cavitation refines substances and makes emulsions, accelerates the entry of target components into the solvent, and improves the extraction rate. In addition to cavitation, many secondary effects of ultrasound are also conducive to the transfer and extraction of target components.
The significance of the six phenomenon lies in the reaction that occurs when the bubble bursts. At some points, the bubbles no longer absorb ultrasonic energy and implosion occurs. The gas and steam in the bubble or air are compressed quickly adiabaticly, resulting in extremely high temperature and pressure.
The volume of the bubble is very small relative to the total volume of the liquid, so the heat generated is lost instantly and will not have a significant impact on the environmental conditions. The cooling rate after the rupture of the empty six bubbles is estimated to be about 10'C/s.