Ultrasonic extraction is a mature extraction technology that uses an ultrasonic extractor to increase the frequency and speed of the movement of material molecules, increase the penetration of solvent, accelerate the entry of target components into the solvent, and promote the extraction process by making use of the strong cavitation stress effect, mechanical vibration, disturbance effect, high acceleration, emulsification, diffusion, crushing and stirring effects and other multi-level effects generated by ultrasonic radiation pressure. Ultrasonic extraction technology is applicable to a wide range of extractants, with water, methanol, ethanol, and other commonly used extractants, which have the advantages of simple operation and high extraction efficiency.
Ultrasonic extraction makes use of multi-level effects such as strong cavitation stress effect, mechanical vibration, disturbance effect, high acceleration, emulsification, diffusion, smashing and agitation generated by ultrasonic radiation pressure, to increase the frequency and speed of material molecule movement, increase the penetration of solvent, thus accelerating the target components into the solvent and promoting the extraction.
Tubular Equipment
Type
|
Tubular Transducer
Type
|
Frequency
(KHz)
|
Ultrasound
Output(W)
|
Total Length
(mm)
|
Diameter
(mm)
|
Static Capacity
(pF±10%)
|
PU-UE1
|
US-61
|
15-28
|
1000
|
500
|
Φ50-55
|
68000
|
PU-UE5
|
US-25
|
15-28
|
1500
|
850
|
Φ50-55
|
68000
|
PU-UE6
|
US-16
|
15-28
|
2000
|
1100
|
Φ50-55
|
132000
|