1800W , Includes 20mm probe, Temperature
Controlled Crushing Capacity 50-1200ml
Minimum Order Quantity: 1 Piece/Pieces
Supply Ability: 1000 Piece/Pieces per Month
Payment Terms: L/C,T/T,Western Union,MoneyGram,paypalContact Supplier
Packaging Detail: suitable for air or sea shipment
Delivery Detail: 5-7days
Power supply: 220/110 50/60Khz
Controlled Temperature to protect sample
Includes 20mm probe, Crushing Capacity
digital display parameter and working status.
Power output: 0 to 1800 W
Frequency: 20-25 KHz or others
|Model||Ultrasonic Frequency||Maximum Power||Optional|
|Included probe||Crusher Capacity||Power Supplyl||Temperature Control|
|SKL150IIDN||20-25||0-150 W||3 mm||6mm||10-100ml||220/110||yes|
|Skl250IIDN||20-25||0-250 W||3 mm||6mm||10-200ml||220/110||yes|
|20mm||50-1000ml||220 or 110 V||yes|
|SKL1800IIDN||19.5-20.5||0-1800 W||Φ6,10,12, 15,20,25,28||25mm||50-1500ml||220 or 110 V||yes|
|SKL2000IIDN||19.5-20.5||0-2000 W||Φ6,10,12, 15,20,25,28||25mm||50-1800ml||220 or 110 V||yes|
Ultrasonic Dispersing and Deagglomeration:
The dispersing and deagglomeration of solids into liquids is an important application of ultrasonic devices. Ultrasonic cavitation generates high shear forces that break particle agglomerates into single dispersed particles.
Emulsions are dispersions of two or more immiscible liquids. Highly intensive ultrasound supplies the power needed to disperse a liquid phase (dispersed phase) in small droplets in a second phase (continuous phase). In the dispersing zone, imploding cavitation bubbles cause intensive shock waves in the surrounding liquid and result in the formation of liquid jets of high liquid velocity. At appropriate energy density levels, ultrasound can well achieve a mean droplet sizes below 1 micron (micro-emulsion).
A wide range of intermediate and consumer products, such as cosmetics and skin lotions, pharmaceutical ointments, varnishes, paints and lubricants and fuels are based wholly or in part of emulsions.
Ultrasonic Cell Disintegration
This effect can be used for fermentation, digestion and other conversion processes of organic matter. After milling and grinding, ultrasonication makes more of the intra-cellular material e.g. starch as well as the cell wall debris available to the enzymes that convert starch into sugars. It does also increase the surface area exposed to the enzymes during liquefaction or saccharification. This does typically increase the speed and yield of yeast fermentation and other conversion processes, e.g. to boost the ethanol production from biomass.ultrasonic treatment can disintegrate fibrous, cellulosic material into fine particles and break the walls of the cell structure. This releases more of the intra-cellular material, such as starch or sugar into the liquid. In addition to that the cell wall material is being broken into small debris.
Ultrasonic Cell Extraction
The extraction of enzymes and proteins stored in cells and subcellular particles is an effective application of high-intensity ultrasound, as the extraction of organic compounds contained within the body of plants and seeds by a solvent can be significantly improved. Ultrasound has a potential benefit in the extraction and isolation of novel potentially bioactive components, e.g. from non-utilized by-product streams formed in current processes.