Ultrasonic Separation Process
Ultrasonic Separation Process system (also known as ultrasonic extraction) is a new extraction technology that uses the special effects such as cavitation generated by ultrasonic to extract the effective components contained in a certain object quickly and efficiently. Ultrasonic extraction is...
Ultrasonic Separation Process system (also known as ultrasonic extraction) is a new extraction technology that uses special effects such as cavitation generated by ultrasonic to extract the effective components contained in a certain object quickly and efficiently. Ultrasonic extraction uses the mechanical effect, cavitation effect, and thermal effect of ultrasonic to extract biological effective components by increasing the movement speed of medium molecules and the penetration of the medium.
Main features
- Dispersion of any size
Jiayuanda offers equipment for single or batch processing of ultrasonic dispersion and deagglomeration of any volume.
Experimental ultrasonic dispersion equipment is available for processing liquid volumes from 1.5 ml to approximately 2 L. Industrial ultrasonic dispersion equipment is used in production and development to handle liquid volumes from 0.5 L to approximately 2000 L.
- Easy to expand
Unlike other dispersion technologies, ultrasonic dispersion can be easily expanded from laboratory equipment to industrial production, and laboratory testing will allow accurate selection of the required equipment size. When used for final scale production, the process and effects of ultrasonic dispersion are the same as laboratory test results.
- Easy to clean
Ultrasonic Separation Process system also can be used for cleaning applications such as surface and part cleaning.
Specification:
| Model | Ultrasonic frequency | Ultrasonic power | Standard tool head 1/1 | Ultrasonic generator model | Ultrasonic transducer model | Dispersed capacity | duty cycle | Protective function |
| CQ28-P800 | 28KHZ±1KHZ | ≤500W | T28-D10L135 | 2900SP-CQ | JYD-3828-4P8-AU | ≤6L | 10%-100% | Over temperature/over power overtime/overload |
| CQ28-P1200 | 20KHZ±0.5KHZ | ≤600W | T28-D20L187 | 2900SP-CQ | JYD-5020-6P4-AU | ≤10L | 10%-100% | Over temperature/over power overtime/overload |
| CQ20-P2000 | 20KHZ±0.5KHZ | ≤1200W | T20-D30L490 | 2900SP-CQ | JYD-5020-4P4-AU | ≤30L | 10%-100% | Over temperature/over power overtime/overload |
| CQ20-P2600 | 20KHZ±0.5KHZ | ≤2000W | T20-D30L490 | 2900SP-CQ | JYD-5020-6P4-AU | ≤50L | 10%-100% | Over temperature/over power overtime/overload |
FAQ:
Q: How long does it take for ultrasonic dispersion of nanomaterials?
In general, for general nanomaterials such as metal oxides, carbon nanotubes, etc., good dispersion effects can be achieved after appropriate ultrasonic power and time treatment. Generally speaking, the dispersion time is usually between 10 minutes and a few hours, depending on the actual situation. For some complex samples, especially those containing high concentrations, it may take longer to disperse and require multiple dispersion treatments to achieve optimal results.
Q: How about ultrasonic dispersion of pigments?
The use of ultrasound for pigment dispersion is very good, which can make the pigment closer to the body. The surface can make it smoother and smoother.
Q: Can ultrasound disperse samples inside glassware
Ultrasound is often used in the laboratory to disperse, dissolve, and mix samples, but for samples in glassware, the dispersion effect of ultrasound may be limited. Glassware usually has a high density and hardness, which hinders the propagation and action of ultrasound. When ultrasonic waves propagate in glassware, they will reflect and absorb, making the effect on the sample not strong enough. Glass itself has the ability to absorb ultrasound, which can lead to energy loss and further weaken the effect of ultrasound.
Q: What about other application areas of the Ultrasonic Separation Process?
1. Pharmaceutical industry: In the pharmaceutical industry, ultrasonic dispersers are mainly used to prepare various pharmaceutical dosage forms, such as suspensions, emulsions, liposomes, etc. Through the physical action of ultrasound, drug particles can be effectively broken up and the solubility and bioavailability of the drug can be improved.
2. Food industry: In the food industry, ultrasonic dispersers can be used to prepare various emulsifiers, seasonings, enzyme preparations and other food additives. Through the dispersion of ultrasonic waves, the particle size of the material can be reduced, the stability of the product can be improved, the production time can be shortened, and the production efficiency can be improved.
3. Chemical industry: In the chemical industry, ultrasonic dispersers can be used to prepare various coatings, inks, adhesives and other fine chemical products. Through the dispersion of ultrasonic waves, the particle size of the material can be reduced and the performance and stability of the product can be improved.
4. Environmental protection industry: In the environmental protection industry, ultrasonic dispersers can be used to treat various sewage and waste. Through the physical action of ultrasonic waves, waste can be effectively broken and separated, improving the effect of sewage treatment and the recycling rate of waste.
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