Lab Ultrasonic homogenizer
Main applications of ultrasonic:
The earliest application of ultrasound in biochemistry was to use ultrasound to break up cell walls to release their contents. Subsequent studies have shown that low-intensity ultrasound can promote biochemical reaction processes. For example, irradiating liquid nutrient media with ultrasound can increase the growth rate of algae cells, thereby increasing the amount of protein produced by these cells by three times.
Compared with the energy density of the ultrasonic sound field when the cavitation bubble collapses, the energy density is expanded trillions of times, causing a huge concentration of energy; the sonochemical phenomena and sonoluminescence caused by the high temperature and pressure generated by the cavitation bubble, It is a form of energy and material exchange in sonochemistry. Therefore, ultrasonic waves are useful for chemical extraction, biodiesel production, organic synthesis, microbial management, degradation of toxic organic pollutants, chemical reaction speed and yield, catalytic efficiency of catalysts, biodegradation treatment, ultrasonic scale prevention and descaling, biological cell crushing and dispersion. And condensation, harmonic chemical reactions have an increasing role.
Features:
1. Can only control the system: LCD display, all data are clear at a glance;
2. Multiple working modes: continuous and pulse modes, power can be adjusted at will;
3. Timing function: from 0-999 hours, configurable.
4. On/off pulse timer: To ensure high-intensity processing of temperature-sensitive samples, both the on and off cycles can be selected and set from 1 second to 99 minutes;
5. Automatic amplitude compensation: ensure that the probe amplitude does not change due to changes in load during the ultrasound process;
6.Double safety protection: probe overload protection system;
7. Intelligent temperature control system: optional temperature probe;
Advantages:
1. The time required for polymer homogenization treatment is short.
2. Small technical capital requirements;
3. No impact on the surrounding environment during processing;
4. Ultrasonic waves are physical and do not produce secondary pollution;
5. The equipment has a simple structure and is easy to operate.