The refrigeration and heating thermostat is a high and low temperature temperature control system commonly used in the chemical industry. It can refrigerate and heat reactors, reactors, fermentation tanks, extraction, and distillation. How is it done when supporting these for temperature control?

1. Practical application of reaction kettle with cooling and heating thermostat

The reaction kettle is a common equipment in the chemical, scientific research, and laboratory reaction process. Generally, the heat transfer oil in the jacket of the reaction kettle is used to indirectly transfer the heat energy to the materials in the kettle to control the temperature of the reaction materials. The heating equipment has a high operating temperature. It can reach 350°C. The cooling and heating thermostat can be equipped with different reactors for cooling, heating and temperature control. The materials of the reactors include glass reactors, double glass reactors, stainless steel reactors, enamel reactors, resin reactors, etc. The refrigeration, heating and temperature control integrated machine is equipped with a reaction kettle for cooling, heating and temperature control. Generally, the medium is used for cooling and heating control, and the temperature accuracy needs to be paid attention to.

2. Practical application of matching liquid tank for refrigeration and heating thermostat

Liquid distribution tank A three-layer heat preservation liquid distribution tank with heating function with jacket and insulation layer, which has the functions of heating, heat preservation, mixing and mixing. Refrigeration heating thermostat and liquid tank are matched with temperature control, fully enclosed temperature control system, multi-function alarm system and reliable guarantee function, high stability, more stable operation, in line with the development needs of the chemical and pharmaceutical industry.

3. Practical application of fermentation tank with cooling and heating thermostat

The temperature of the fermenter reaction process has a relatively large impact. Controlling the temperature of the fermentor can help the rate of various enzyme reactions, change the direction of synthesis of metabolites, and affect the metabolic regulation of microorganisms. In order to meet the required temperature requirements, in actual production, the refrigeration, heating and temperature control integrated machine helps to control the temperature of the fermenter that is difficult to raise or cool, and to give a suitable temperature to help achieve the required temperature and reaction result.

4. Practical application of refrigeration and heating thermostat in extraction

Extraction uses the characteristics of different solubility of different solvents, selects different temperatures and pressures for dissolution extraction, and realizes rapid extraction with solvent heating. Through external temperature control, different heating temperatures and heating times can be set to further improve the operability of the temperature control system, which can speed up the rapid extraction of solvents, save working time, and improve extraction efficiency.

5. Practical application of distillation with cooling and heating thermostat

In the chemical industry, distillation can use the method of temperature gradient control, and use the different temperature control of the refrigeration and heating thermostat to reach the temperature of the distillation and ensure the effect of condensation.