High power ultrasonic extraction machine ultrasonic homogenizer with flow cell

The working principle of ultrasonic homogenizer is based on the vibration and cavitation effect generated by ultrasound in liquid. When ultrasound acts on liquid, it will generate hundreds of thousands of vibrations per second, which can quickly break up large particles or cells in the material. At the same time, the cavitation effect will produce a large number of tiny bubbles in the liquid. These bubbles will grow rapidly and suddenly close under the action of continuous vibration, generating strong shock waves and local high temperature and high pressure environment. This physical phenomenon can effectively disperse the material evenly and improve the quality and stability of the product.

Ultrasonic homogenizers are powerful tools for mixing and homogenizing solid-liquid and liquid-liquid suspensions. Ultrasonic homogenization is a mechanical process that reduces particles in a liquid so that they become uniformly small and evenly distributed. When ultrasonic homogenizers are used in applications such as mixing, dispersing, and emulsification, the goal is to reduce small particles or droplets in a liquid or slurry to improve the homogeneity and stability of the mixture. These particles (dispersed phase) can be solid or liquid. The reduction in the average diameter of the particles increases the number of individual particles. This results in a decrease in the average particle distance and an increase in the particle surface area. The surface area and average particle distance affect the rheology of the liquid. If there is a difference in specific gravity between the particles and the liquid, the homogeneity of the mixture affects the stability of the dispersion. If most of the particles have similar particle sizes, the tendency to agglomerate during settling or rising is reduced because similar particles have similar rising or settling velocities.

1. Cell disruption: Ultrasonic homogenizers can quickly disrupt cells and release their internal substances. In cell culture and genetic engineering in the field of biopharmaceuticals, ultrasonic homogenizers are often used to disrupt and separate samples such as DNA and protein.

2. Mixing and homogenization: Ultrasonic homogenizers can quickly mix and homogenize two or more liquids, such as the production and research of pharmaceutical preparations, health products, cosmetics, and food.

3. Suspension dispersion: Ultrasonic homogenizers can disperse samples such as powders and nanomaterials in liquids for subsequent experiments and applications.

1. High efficiency: Ultrasonic homogenizer can complete sample processing quickly and efficiently.

2. Accurate: It can accurately control parameters such as sample processing time, temperature and power.

3. Environmental protection: It uses mechanical energy and does not require chemical reagents, which is environmentally friendly.

4. Wide applicability: It is suitable for different types of sample processing