 |
| Quantity: | |
|---|---|
SPS20-3000
SP
8543709990
Acoustic or ultrasonic cavitation leads locally to extreme temperatures, pressures, heating/cooling rates, pressure differentials and high shear forces in the medium. When cavitation bubbles implode on the surface of solids (such as particles, plant cells, tissues etc.), micro-jets and interparticlular collision generate effects such as surface peeling, erosion, particle breakdown, sonoporation (the perforation of cell walls and cell membranes) and cell disruption.
Additionally, the implosion of cavitation bubbles in liquid media create macro-turbulences and micro-mixing. Ultrasonic irradiation represents an efficient way to enhance mass transfer processes, since sonication results in cavitation and its related mechanisms such as micros-movement by liquid jets, compression and decompression in the material with the subsequent disruption of cell walls, as well as high heating and cooling rates. Probe-type ultrasonicators can generate very high amplitudes, which is necessary to generate impactful cavitation.
SP TECH Ultrasonic manufactures high-performance ultrasonic extractors, which can easily create amplitudes of 100µm in continuous operation.
Model | SPS20-3000 |
Frequency | 20Khz |
Power | 3000W |
Voltage | 220V |
Pressure | 35 MPa |
Intensity of sound | >60 W/cm² |
Processing capacity (L/H) | 50.0 |
Material of probe | Titanium Alloy |
Generator | Digital type |
1. Core parts with Titanium materials
2. With high quality ultrasonic converter Branson CJ20 replacement
3. Ultrasonic probe with different size and type for selection
4. Matching with digital generator, auto-tuning, auto search frequency
5. With automatic alarm protection, easy to operate with video demonstration
6. Power adjustable from 1% to 99%
7. Amplitude stability, long working hours, radiation area is increased 2.5 times than traditional tools
8. Provide consulting services and custom reactor designs
Customers' evalution as follow:
The ultrasonic sonicator works very well.
We improved yield by 5% if we run for 5 minutes.
We has been used the ultrasonic sonicator for a period of time, the effect is very good, cost-effective, and easy to operate.
Tom is very kindly and professional to guide us how to use the ultrasonic sonicator, so that we can more quickly put into production, thank you very much.
Customers' recognition and trust is our driving force.
Shengpai Technology relies on “Customer Service Being First” as its corporate culture. Aim is ”Quality First, Service First”. Today, because of its abundant professional knowledge and good after-sales service, Shengpai Technology has gained a very good reputation.
Probes must be submerged properly. If the tip is not submerged enough the sample will foam or bubble. If the tip is too deep it will not circulate the sample effectively. Both conditions will end up with poor results.
shortest processing time. 
Narrow containers are better than wide ones. Ultrasonic energy is generated from the tip and directed downward. As the sample is processed, the liquid is pushed down in all directions. If the container is too wide, it will not mix effectively, and some samples will remain untreated on the periphery. It takes less time to process twice the volume in a narrow container than the same volume in a wider container. In addition, the probe should not touch the side or bottom of the container.
Certain applications, such as processing nanoparticles, often require longer processing times. Using larger probes will speed up processing and larger probes will not corrode as quickly as smaller probes.
Also, smaller probes wear out faster and require more frequent replacement. Using a larger system will eventually reduce costs over time as you consider the cost of replacing multiple probes.
Acoustic or ultrasonic cavitation leads locally to extreme temperatures, pressures, heating/cooling rates, pressure differentials and high shear forces in the medium. When cavitation bubbles implode on the surface of solids (such as particles, plant cells, tissues etc.), micro-jets and interparticlular collision generate effects such as surface peeling, erosion, particle breakdown, sonoporation (the perforation of cell walls and cell membranes) and cell disruption.
Additionally, the implosion of cavitation bubbles in liquid media create macro-turbulences and micro-mixing. Ultrasonic irradiation represents an efficient way to enhance mass transfer processes, since sonication results in cavitation and its related mechanisms such as micros-movement by liquid jets, compression and decompression in the material with the subsequent disruption of cell walls, as well as high heating and cooling rates. Probe-type ultrasonicators can generate very high amplitudes, which is necessary to generate impactful cavitation.
SP TECH Ultrasonic manufactures high-performance ultrasonic extractors, which can easily create amplitudes of 100µm in continuous operation.
Model | SPS20-3000 |
Frequency | 20Khz |
Power | 3000W |
Voltage | 220V |
Pressure | 35 MPa |
Intensity of sound | >60 W/cm² |
Processing capacity (L/H) | 50.0 |
Material of probe | Titanium Alloy |
Generator | Digital type |
1. Core parts with Titanium materials
2. With high quality ultrasonic converter Branson CJ20 replacement
3. Ultrasonic probe with different size and type for selection
4. Matching with digital generator, auto-tuning, auto search frequency
5. With automatic alarm protection, easy to operate with video demonstration
6. Power adjustable from 1% to 99%
7. Amplitude stability, long working hours, radiation area is increased 2.5 times than traditional tools
8. Provide consulting services and custom reactor designs
Customers' evalution as follow:
The ultrasonic sonicator works very well.
We improved yield by 5% if we run for 5 minutes.
We has been used the ultrasonic sonicator for a period of time, the effect is very good, cost-effective, and easy to operate.
Tom is very kindly and professional to guide us how to use the ultrasonic sonicator, so that we can more quickly put into production, thank you very much.
Customers' recognition and trust is our driving force.
Shengpai Technology relies on “Customer Service Being First” as its corporate culture. Aim is ”Quality First, Service First”. Today, because of its abundant professional knowledge and good after-sales service, Shengpai Technology has gained a very good reputation.
Probes must be submerged properly. If the tip is not submerged enough the sample will foam or bubble. If the tip is too deep it will not circulate the sample effectively. Both conditions will end up with poor results.
shortest processing time.
Narrow containers are better than wide ones. Ultrasonic energy is generated from the tip and directed downward. As the sample is processed, the liquid is pushed down in all directions. If the container is too wide, it will not mix effectively, and some samples will remain untreated on the periphery. It takes less time to process twice the volume in a narrow container than the same volume in a wider container. In addition, the probe should not touch the side or bottom of the container.
Certain applications, such as processing nanoparticles, often require longer processing times. Using larger probes will speed up processing and larger probes will not corrode as quickly as smaller probes.
Also, smaller probes wear out faster and require more frequent replacement. Using a larger system will eventually reduce costs over time as you consider the cost of replacing multiple probes.
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