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20Khz ultrasonic homogenizer ultrasonic emulsifer with TI probe

short description:

short description:

Ultrasonic homogenization uses the cavitation and other physical effects of ultrasonic waves in liquids to achieve homogenization. Physical action refers to the fact that ultrasonic waves can form effective agitation and flow in the liquid to destroy the structure of the medium and crush the particles in the liquid. The main reason is that the collision between liquids, microphase flow and shock waves cause the surface morphology of particles to change.


  • Frequency: 20Khz
  • Power: 3000w
  • Horn material: Titanium alloy
  • Generator: Digital
  • Weight: 30kg
  • Horn size: 35mm
  • Power supply: 220V 50/60HZ

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    20Khz ultrasonic homogenizer ultrasonic emulsifer with ti probe

     

    Parameter

    ModelSONO20-1000SONO20-2000SONO15-3000SONO20-3000
    Frequency20±0.5 KHz20±0.5 KHz15±0.5 KHz20±0.5 KHz
    Power1000 W2000 W3000 W3000 W
    Voltage220/110V220/110V220/110V220/110V
    Temperature300 ℃300 ℃300 ℃300 ℃
    Pressure35 MPa35 MPa35 MPa35 MPa
    Intensity of sound20 W/cm²40 W/cm²60 W/cm²60 W/cm²
    Max Capacity10 L/Min15 L/Min20 L/Min20 L/Min

     

    Descrition

    In chemistry, “acoustic cavitation” refers to the formation, growth and implosion of tiny bubbles. Cavitation bubbles consist of compression-expansion cycles that cause positive pressure in the liquid to push molecules together. Conversely, expansion cycles cause The negative pressure pulls the molecules away from each other, and once the bubbles grow very rapidly, until they can’t absorb the energy in the ultrasound. In this case, the liquid will rush in and the bubble will burst. The whole process destroys the attraction of molecules in the liquid phase. Sound waves can help extract chemicals from plant tissue. Ultrasound is a pressure wave that causes tissue to rupture, at higher speeds
    release of bioactive compounds stored in cells.
    Cavitation bubbles burst quickly, and these tiny bubbles formed during ultrasonication raise the temperature of the liquid surrounding the cavity and create localized hot spots. However, the area is so small that the heat dissipates quickly. On the other hand, very high pressures, ie about 1000 atmospheres, are generated during bubble collapse. Instantaneous high temperature and high pressure can destroy stable structures such as cell walls and molecular bonds, resulting in a series of physical and chemical effects.

    Effect on grapes
    Different effects of ultrasound in wine processing Power ultrasound applied to wine provides many beneficial effects. The most important applications include enhancing the flavor of wine by extracting flavor-rich components such as phenols and aromatics, oak barrel aging, and accelerated maturation and aging. Extraction of aromatic and phenolic compounds from grapes The mechanical activity of ultrasound supports solvent diffusion into tissue. When ultrasound mechanically disrupts the cell wall through cavitational shear forces, it facilitates transfer from the cell to the solvent. Reducing particle size by ultrasonic cavitation increases the contact surface area between the solid and liquid phases. Grapes are known for being rich in polyphenols and are in high demand. These phenolic compounds of grapes (such as monomeric flavanols, dimeric, trimeric and polymeric proanthocyanidins, and phenolic acids) are known for their anti-radical and antioxidant properties. Chemically, they can be divided into two subcategories: flavonoids and non-flavonoids. The most important flavonoids in wine are anthocyanins and tannins, which contribute to color, flavor and mouthfeel. Non-flavonoids include stilbene compounds such as resveratrol and acidic compounds such as benzoic acid, caffeic acid and cinnamic acid. Most of these phenolic compounds are contained in grape skins and seeds. Intense ultrasonic force can effectively extract valuable components from grape seeds and grape skins.

    For additive action
    The wine becomes a homogeneous liquid with an extended shelf life within a very short processing time. Homogeneity allows higher interactions between molecules and thus more complete molecular changes. This means improved taste and quality. Dispersion: Before bottling, most wines are treated with additives such as preservatives (e.g. potassium bisulfate, sodium bisulfate), cleaning agents, coloring powders, and further fining and improving agents. These additives are used to avoid premature browning and spoilage, improve wine quality, eliminate defects or support the fermentation process. With ultrasonic treatment, these additives can be dispersed very consistently into the wine, resulting in higher processing results. Local high temperature (close to 5000 degrees Celsius) and high pressure (above 50 MPa) generated by ultrasonic cavitation. Microcavitating bubbles (approximately 1 µm in diameter) act uniformly throughout the fluid (Pascal’s law) and can penetrate deep into the pores. The cavitation phenomenon produced by high-power ultrasound inhibits a large number of pathogenic microorganisms.

    20Khz 3000w high efficient ultrasonic homogenizer for Acceleration wine aging 1


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  • Q1.What kind material of the horn?

    A. Titanium alloy, we also customized aluminum hom for customer before.

    Q2.What’s the time of delivery?

    A. For Conventional hom, 3 days, for customized hom 7 work days.

    Q3.Does ultrasonic extraction also require the addition of a chemical catalyst?

    A. No . but some time need Mechanical stiring.

    Q4.Can the device work continously?

    A. Yes ,it can work 24hours continously.

    Q5.What’s the Processing capacity of one set ultrasonic extraction equipment?

    A. Different hor different Processing capacity, for 2000W Nine section whip horm can dealing 2L~10Lmin.

    Q6.What’s the warranty of your sonicator equipment?

    A. All equipment one year warranty.

  • ultrasonic aging
  • Ultrasonic Dispersion
  • Ultrasonic Emulsification
  • ultrasonic extraction
  • Ultrasonic homogenizer
  • Ultrasonic Mixer
  • ultrasonic probe
  • ultrasonic sonicator
  • ultrasonic sonochemistry
  • ultrasonic emusification
  • ultrasonic liquid processor
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