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RPS-SONO20-L1000
Rps-sonic
RPS-SONO20
Sonication is a process in which ultrasonic are used to agitate particles in solution. Such disruptions can be used to mix solutions, speed the dissolution of a solid into a liquid (like sugar into water), and remove dissolved gas from liquids.
Sound is a wave made up of alternating regions of high and low pressure. Imagine yourself as a particle. As a sound wave passes you, you experience moments of high pressure (like at the bottom of a hill of a roller coaster when you feel pressed into your seat) separated by periods of low pressure (like at the top of a hill of a roller coaster when you feel ‘weightless’). The frequency of a sound wave is a measure of how often the particles of a substance vibrate (how quickly you transition from the ‘top’ feeling to the ‘bottom’ feeling of a roller coaster). The sound waves used in sonication are usually ultrasound waves with frequencies above what you can hear (above 20 kHz that is 20,000 cycles per second) and as frequency increases the strength of the agitation increases.
In solution, the particles vibrate because as they experience cycles of pressure, microscopic vacuum bubbles form and then collapse into solution, a process called cavitation. These vibrations can disrupt molecular interactions (e.g. between molecules of water), break clumps of particles apart, and lead to mixing. In the case of dissolved gas, these vibrations can allow the gas bubbles to come together and more easily leave the solution.2
Sonicators either produce sound waves into a water bath, where samples are placed, or can be probes that are put directly into the sample to be sonicated. Such a machine will be used in the third part of this experiment to prepare the bead solution for application to the biosensor.
Parameter
Model | SONO20-L1000 | SONO20-L500 | SONO28-L300 | SONO40-L100 |
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 ℃ | 300 ℃ | 300 ℃ | 300 ℃ |
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 |
Application:
Ultrasonic Cell Pulverizer High Power 20Khz for Extraction of Polygonatum Polysaccharide used in a variety of animal and plant cells, virus cells, bacteria, dental spores and tissue ultrasonic extraction method using ultrasonic waves, its powerful cavitation effect and many secondary effects such as: mechanical vibration, crushing emulsification, diffusion, etc. can break the cell wall release Substance, commonly used in the breakdown of various animal and plant cells, viral cells, bacteria, spores and tissues. In this study, ultrasonic polysaccharide cell pulverizer was used to extract Polygonatum polysaccharide. The obtained polysaccharide was lighter in color, less impurities and higher purity than water decoction and dilute alkali extraction. It is an effective method for extracting Polygonatum polysaccharide.
Sonication is a process in which ultrasonic are used to agitate particles in solution. Such disruptions can be used to mix solutions, speed the dissolution of a solid into a liquid (like sugar into water), and remove dissolved gas from liquids.
Sound is a wave made up of alternating regions of high and low pressure. Imagine yourself as a particle. As a sound wave passes you, you experience moments of high pressure (like at the bottom of a hill of a roller coaster when you feel pressed into your seat) separated by periods of low pressure (like at the top of a hill of a roller coaster when you feel ‘weightless’). The frequency of a sound wave is a measure of how often the particles of a substance vibrate (how quickly you transition from the ‘top’ feeling to the ‘bottom’ feeling of a roller coaster). The sound waves used in sonication are usually ultrasound waves with frequencies above what you can hear (above 20 kHz that is 20,000 cycles per second) and as frequency increases the strength of the agitation increases.
In solution, the particles vibrate because as they experience cycles of pressure, microscopic vacuum bubbles form and then collapse into solution, a process called cavitation. These vibrations can disrupt molecular interactions (e.g. between molecules of water), break clumps of particles apart, and lead to mixing. In the case of dissolved gas, these vibrations can allow the gas bubbles to come together and more easily leave the solution.2
Sonicators either produce sound waves into a water bath, where samples are placed, or can be probes that are put directly into the sample to be sonicated. Such a machine will be used in the third part of this experiment to prepare the bead solution for application to the biosensor.
Parameter
Model | SONO20-L1000 | SONO20-L500 | SONO28-L300 | SONO40-L100 |
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 ℃ | 300 ℃ | 300 ℃ | 300 ℃ |
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 |
Application:
Ultrasonic Cell Pulverizer High Power 20Khz for Extraction of Polygonatum Polysaccharide used in a variety of animal and plant cells, virus cells, bacteria, dental spores and tissue ultrasonic extraction method using ultrasonic waves, its powerful cavitation effect and many secondary effects such as: mechanical vibration, crushing emulsification, diffusion, etc. can break the cell wall release Substance, commonly used in the breakdown of various animal and plant cells, viral cells, bacteria, spores and tissues. In this study, ultrasonic polysaccharide cell pulverizer was used to extract Polygonatum polysaccharide. The obtained polysaccharide was lighter in color, less impurities and higher purity than water decoction and dilute alkali extraction. It is an effective method for extracting Polygonatum polysaccharide.
