user guids of genizer highpressure homogenizers

This video primarily introduces the structure and operation of the microjet high-pressure homogenizer. The microjet high-pressure homogenizer can induce physical, chemical, and structural changes in the material under extreme pressure, by passing it through a specially designed internal structure of the chamber, ultimately achieving a homogenization effect. This device is widely used in various industries such as biology, medicine, food, and chemical engineering. It greatly aids in cell rupture, beverage homogenization, fine chemical engineering, and more, and it can manufacture liposomes, lipid emulsions, nano suspensions, microemulsions, lipid microspheres, emulsions, dairy products, and large-volume parenterals, among other products.

The microjet high-pressure homogenizer mainly consists of a high-pressure homogenizing chamber and a boosting mechanism. The uniquely designed geometric shape inside the high-pressure homogenizing chamber allows the high-pressure solution to rapidly flow through the chamber under the action of the boosting mechanism. During this process, the material will simultaneously experience mechanical forces such as high-speed shearing, high-frequency oscillation, cavitation, and convective impact, as well as thermal effects. These forces and thermal effects induce changes in the physical, chemical, and structural properties of the material's macromolecules, achieving homogenization. Therefore, the high-pressure homogenizing chamber is the core component of the device, and its unique geometric structure inside is a key factor affecting the homogenizing effect. On the other hand, the boosting mechanism provides the necessary pressure for the material to rapidly flow through the homogenizing chamber. The level and stability of the pressure also affect the quality of the product to a certain extent.