Ultrasonic Probe Extraction

Ultrasonic probe extraction of traditional Chinese medicine can significantly reduce solvent consumption, shorten extraction time, achieve high extraction rate at low temperature, and will not damage the effective components of traditional Chinese medicine. It can be widely used in the extraction of saponins, alkaloids, flavonoids, anthraquinones, organic acids, polysaccharides and other components of traditional Chinese medicine.

Features:
1. Energy-concentrated high-power cyclic ultrasound, ultrasonic efficiency is higher and stronger
2. Strong scalability, ranging from pilot model 6L to production model 50L.
3. Special high-amplitude probe brings strong energy efficiency
4. High-quality titanium alloy probe material has the advantages of corrosion resistance, heat resistance, low temperature strength and mechanical properties, and is non-magnetic.
5. Equipped with mechanical stirring function to make the dispersion process more uniform.

Specification of Ultrasonic Probe Extraction

FAQ：

Q：What about application of Ultrasonic Probe Extraction in Water Treatment ?
The ultrasonic vibration rod energy gathering ultrasonic probe concentrates energy and can obtain strong sound intensity on the ultrasonic radiation end face. Due to the energy gathering effect of the amplitude changing rod, the sound energy density is greatly increased; The reactor can be accurately designed based on the magnitude of sound energy density; The emission end face of the probe is generally designed to be detachable, so that the appropriate size of the end face can be selected according to the required sound intensity at any time. At the same time, when the probe is severely corroded by cavitation, only the end needs to be replaced, without the need to replace the expensive entire vibrating rod. Ultrasonic vibration rods can be used to treat various difficult to degrade organic wastewater, and have been used in the research of wastewater treatment containing monocyclic aromatic compounds, polycyclic aromatic hydrocarbons, phenols, chlorinated hydrocarbons, chlorinated hydrocarbons, organic acids, dyes, alcohols, ketones, etc., and have achieved good results. In actual industrial wastewater, this equipment has been used to treat papermaking wastewater, printing and dyeing wastewater, tannery wastewater, coking wastewater, pharmaceutical wastewater, landfill leachate, etc., and has achieved good results.
In addition, Ultrasonic Probe Extraction can also be used to kill and inhibit algae in some scenic lakes and rivers. The mechanical effects, cavitation effects, thermal effects, and acoustic flow effects of ultrasound cause the rupture of algal cells and the breaking of chemical bonds in material molecules, which act on the outer wall of algae and cause them to rupture and die, resulting in the lifting and breaking of algal vacuoles, cell death, or growth inhibition, causing a series of biological effects. The cavitation effect causes microbubbles existing in the liquid to rapidly expand and suddenly close, generating shock waves and jets to achieve the goal of eliminating algae and balancing the aquatic environment and ecology. Low intensity ultrasound disrupts the structure and function of algal bile bodies, interferes with the synthesis pathway of chlorophyll, and thus achieves the goal of inhibiting algal growth.