Share! Structure And Characteristics Of Ultrasonic Reaction Kettle
Jun 04, 2023
The ultrasonic reaction kettle utilizes multiple interactions such as dispersion, powder extraction, and activation of ultrasound, which can damage the solvent structure, improve reaction activity, disperse powder particles, and further reduce their linearity. Through on-site experiments, it has been proven that the ultrasonic reactor has a significant effect on the ultrafine powder and nano dispersion of powdered materials in the liquid phase, and can also accelerate the reactions involving powdered materials, emulsification reactions, and homogeneous reactions. It can achieve ultrasonic extraction and ultrasonic crushing operations under high temperature and pressure.
At present, ultrasonic reactors can be widely used in stubborn catalytic reactions, chemical biology, microbiology, physics, zoology, pesticides, traditional Chinese medicine and pharmaceutical teaching and scientific research. It has the ability to quickly extract, crush, disperse, emulsify, suspend, mutate gas suspension, accelerate chemical reactions at room temperature or high temperature and pressure, and can be applied to various volatile or non volatile enzyme extraction media simultaneously, as well as the reaction process enhanced by ultrasound.
Structural structure of ultrasonic reaction kettle:
Mixing method: internal magnetic stirring;
Mixing motor: imported high-power motor;
Inlet valve: high-pressure needle valve;
Sampling valve: high-pressure needle valve;
Exhaust valve: high-pressure needle valve;
Pressure gauge: high-pressure pressure gauge;
Heating unit: module heating.
Features:
1. Compact size, simple overall structure, and easy to operate;
2. The heating unit and control unit are separated, modular, safe and reliable;
3. Dual temperature control inside and outside the kettle, with a temperature control accuracy of up to plus or minus 1 ℃, up to one significant digit after the decimal point;
4. The double kettle cover design can be used for both specific ultrasonic reaction experiments and conventional experiments such as high-temperature and high-pressure synthesis, separation, hydrogenation, etc., achieving the effect of multiple uses in one kettle;
5. The stirring speed can be displayed and controlled, with a display speed accuracy of up to plus or minus 1r/min.
