Performance characteristics:

1. Suitable for various high-power industrial grade liquid processing, such as homogenization, emulsification, dispersion, depolymerization, wet grinding (particle size reduction), cell breakage and disintegration, extraction, degassing, and sonochemical processes;

2. 24-hour continuous operation under heavy load, industrial grade design, external PLC remote control, automatic frequency search and matching;

Market application:

Traditional Chinese Medicine Extraction: Refers to the efficient extraction of useful substances by ultrasound through the pulverization (fragmentation) of traditional Chinese medicine cells. Compared with conventional extraction techniques, ultrasonic assisted extraction is fast, inexpensive, efficient, safe, cost-effective, and widely applicable.

Biodiesel production: Using ultrasonic emulsification to produce biomass oil diesel mixed emulsion is actually dispersing bio oil droplets into another immiscible diesel liquid. Compared with other technologies, it can make the prepared droplets disperse fine and narrow, with high efficiency, good dispersion effect, and can increase the stability of lotion.

Ultrasonic anti marine: It is based on the cavitation effect of ultrasound. When tiny bubble nuclei in liquid are activated by ultrasound, they exhibit a series of dynamic processes such as bubble oscillation, growth, contraction, and collapse. At the moment of rupture, bubbles in liquid generate temperatures exceeding hundreds of atmospheres and thousands of degrees Celsius, which can rapidly detach and shatter the skin cells of marine organisms, thus achieving the goal of preventing marine organisms.

Ultrasonic catalysis:Applying ultrasonic waves to the catalytic reaction process can simulate high-temperature and high-pressure reactions inside the reactor at a microscopic scale, providing a very special physical and chemical environment for catalytic reactions that are difficult or impossible to achieve under general conditions, allowing catalytic reactions to proceed in milder environments. It can further improve its reaction rate, shorten reaction time, and increase the yield of the target product. The main applications include catalysis on metal surfaces, phase transfer catalysis reactions, and enzyme catalyzed reactions.

Wastewater treatment:During the wastewater treatment process, the cavitation effect of ultrasound has a strong ability to degrade organic matter, and the degradation rate is very fast, providing the possibility to degrade harmful organic matter in water, thus achieving the purpose of ultrasonic wastewater treatment.  

Ultrasonic dispersion:Refers to the process of dispersing and agglomerating particles in a liquid through the cavitation effect of ultrasonic waves in the liquid. Ultrasonic dispersion can be divided into emulsion dispersion (liquid-liquid dispersion) and suspension dispersion (solid-liquid dispersion), and has been applied in many fields. exceed.

The application of sound waves in the dispersion of suspensions includes the dispersion of titanium oxide and other materials into water or solvents in the coating industry, as well as the dispersion of dyes into molten paraffin; The dispersion of drug particles in the pharmaceutical industry and the dispersion of powder emulsions in the food industry.