The structural principle of glass reaction kettle technology is completed

The traditional speed regulating glass reactor adopts a double-layer glass design. The reaction solvent is placed in the inner layer for stirring reaction, and the middle layer can be connected to different cold and heat sources for cyclic heating or cooling reaction.

Under the set constant temperature conditions, the stirring reaction can be carried out in a closed glass reactor under normal pressure or negative pressure according to the usage requirements, and the reaction solution can be refluxed and distilled. It is an ideal pilot and production equipment for modern fine chemicals, biopharmaceuticals, and new material synthesis

The working principle of a glass reactor is to inject a constant temperature hot solution or coolant into the interlayer of the glass reactor, heating or cooling the materials in the reactor at a constant temperature, while providing stirring function.

This device can perform vacuum stirring reactions, distillation concentration reactions, separation and extraction, reaction heating experiments, etc. By introducing tap water into the jacket, the reaction heat in the kettle can be carried away. The material reacts in the kettle, and the evaporation and reflux of the reaction solution can be controlled.

After the reaction, the material can be discharged from the outlet at the bottom of the boiler, which is very convenient to operate. Double glass reactor is a commonly used biochemical instrument in modern fine chemical, biopharmaceutical, scientific research and experimental industries.

It can perform concentration, distillation, dry distillation, separation, and purification reactions under constant speed, constant force, and constant temperature conditions. It is an ideal instrument and equipment for teaching, experimentation, pilot testing, and production.

This product can be used in conjunction with circulating water vacuum pumps, diaphragm vacuum pumps, low-temperature constant temperature circulation tanks, circulating water coolers, high-temperature constant temperature circulators, low-temperature coolant circulation pumps, high and low-temperature constant temperature circulators, closed refrigeration and heating circulation devices, etc.