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20kHz High-Efficiency Ultrasonic Homogenizer Probe for Lab Use

Short Description:

The mechanism for the generation of sonochemical effects in liquids is the phenomenon of acoustic cavitation. Our ultrasonic homogenizer uses the cavitation effect to work efficiently.


  • Model: H-UH20-1000S
  • Frequency: 20KHz
  • Power: 1000VA
  • Generator: Digital Type
  • Horn Material: Titanium Alloy
  • Brand: Hanstyle

Product Detail

Product Tags

In the realm of laboratory research and development, the ongoing pursuit of efficiency and precision has led Hanspire to introduce its latest innovation – the High-Efficiency Laboratory Ultrasonic Sonochemistry 20kHz Ultrasonic Homogenizer, equipped with a powerful homogenizer probe designed to meet and exceed the rigorous demands of scientific exploration. This state-of-the-art equipment is a pivotal tool in the hands of researchers aiming to achieve unparalleled results in dispersing, mixing, and extracting substances through ultrasonic cavitation. The principle at the heart of this ultrasonic homogenizer lies in the ultrasonic cavitation reaction – a process where the rapid vibration of the homogenizer probe generates tiny, high-energy bubbles in the liquid. As these bubbles collapse, they produce intense local heat, high pressure, and strong shear forces, creating an environment where particles are effectively broken down, mixed, or emulsified on a microscopic scale. This makes the ultrasonic homogenizer an indispensable asset for anyone engaged in sonochemistry, facilitating the efficient and reproducible preparation of samples.

Introduction:


Ultrasonic homogenizer through ultrasonic cavitation reaction to achieve ultrasonic dispersion, emulsification, crushing and other tasks. The vibration of the tool head of the ultrasonic homogenizer is very rapid, causing bubbles in the surrounding solution to form and collapse rapidly, tearing cells and particles.Ultrasound is now widely used in industrial production, including making emulsions, dispersing nanoparticles and reducing the size of particles in suspension.

The "cavitation" effect of ultrasonic wave in liquid forms local high temperature, high pressure or strong shock wave and micro jet, which propagates in the form of standing wave in the suspended body, causing the particles to be periodically stretched and compressed. The combination of these actions leads to the destruction of the agglomerate structure in the system, the enlargement of the particle gap and the formation of separate particles.

Application:


Reaction Acceleration:  cavitation accelerates chemical and physical reactions. Fine Particle

Dispersion: nanoparticle processing etc.

Disruption and Cell Lysing: will break open biological tissues and cells to extract enzymes and DNA, prepare vaccines. This technology provides a method forultrasonically lysing cells and spores in a liquid flowing continuously or intermittently through a cylindrical reactor.

Homogenization: making uniform mixtures of liquids or liquid suspensions.

Emulsification: processing foods, pharmaceuticals, and cosmetics.

Dissolution: dissolving solids in solvents.

Degassing: removing gases from solutions without heat or vacuum.

Demonstration Of The Working Performance:


Specifications:


Model

H-UH20-1000S

H-UH20-1000

H-UH20-2000

H-UH20-3000

H-UH20-3000Z

Frequency

20KHz

20KHz

20KHz

20KHz

20KHz

Power

1000 W

1000 W

2000W

3000W

3000 W

Voltage

220V

220V

220V

220V

220V

Pressure

Normal

Normal

35 MPa

35 MPa

35 MPa

Intensity of sound

>10 W/cm²

>10 W/cm²

>40 W/cm²

>60 W/cm²

>60 W/cm²

Material of probe

Titanium Alloy

Titanium Alloy

Titanium Alloy

Titanium Alloy

Titanium Alloy

Generator

Digital type

Digital type

Digital type

Digital type

Digital type

Advantage:


    1. Increase the extraction rate of the extracted components and shorten the extraction time
    2. Reduce energy consumption and improve economic efficiency
    3. No heating is required during the extraction process, suitable for the extraction of heat-sensitive substances
    4. Compared with the traditional mixing and ball milling process, the operation cost per unit capacity can be greatly reduced. It is especially suitable for industrial production.
    5. For liquid-liquid mixture, the chemical reaction speed can be increased, the amount of additives can be reduced, and the fully mixed solution is not suitable for stratification for a long time.
    6. For the solid-liquid mixture, the easily agglomerated nanoparticles can be opened in a short time, and the dispersed ultrafine particles are not easy to agglomerate again.
    7.  
     
  1. Comments From Clients:

Payment & Shipping:


Minimum Order Quantity Price(USD) Packaging Details Supply Ability Delivery Port
1 Piece 1300~2800 normal export packaging 50000pcs Shanghai

 



Beyond its core functionality, the homogenizer’s design emphasizes user-friendliness and safety. The device operates at 20kHz, a frequency carefully chosen to maximize cavitation effects while minimizing noise and discomfort for the user. The homogenizer probe, the centerpiece of this equipment, is crafted from durable materials capable of withstanding the harsh conditions generated during ultrasonic cavitation. This ensures longevity and consistent performance over extended periods of use. With its versatile applications ranging from the dispersion of nanoparticles to the emulsification of immiscible liquids, and the extraction of active compounds from plant or tissue samples, the Homogenizer is equipped to propel your research into new frontiers of efficiency and innovation. Navigating through the complex waters of laboratory experiments requires equipment that not only promises precision but also delivers on versatility and efficiency. Hanspire's Ultrasonic Homogenizer, with its innovative homogenizer probe, stands as a beacon of progress in the scientific community, ensuring that every experiment is a step toward a groundbreaking discovery. Whether it's developing new pharmaceuticals, creating novel nano-materials, or exploring the vast potential of bioactive compounds, this ultrasonic homogenizer emerges as a key player in the success of research endeavors across various scientific fields.