Refrigeration and Heating Circulation System Used for Double-layer Glass Reactor

Double-layer glass reactors with refrigeration and heating circulation systems are a common equipment combination in laboratories and are widely used in chemistry, biology, medicine and other fields.

Connection method between double-layer glass reactor and refrigeration and heating circulation system

1. Equipment preparation

Ensure that the double-layer glass reactor and refrigeration and heating circulation systems are in good condition, all components are intact, and appropriate accessories and tools are selected according to experimental needs.

2. Connect the pipes

Use high temperature resistant and corrosion resistant hoses to connect the inlet and outlet of the double-layer glass reactor with the corresponding interfaces of the refrigeration and heating circulation systems. Make sure the connections are tight and reliable to prevent liquid or air leakage.

3. Check the tightness

After the connection is completed, check whether each connection is well sealed and ensure there is no leakage. If there is leakage, the connection parts should be rechecked and the tightening should be adjusted.

4. Debugging equipment

Turn on the refrigeration and heating cycle systems, adjust the temperature to the range required for the experiment, and observe the temperature changes in the double-layer glass reactor. At the same time, check whether the circulation pump is working properly and ensure that the circulating fluid can flow smoothly.

Precautions during use

1. Operating specifications

During the operation, the equipment instructions and experimental procedures should be strictly followed to ensure the safety and accuracy of the experiment.

2. Temperature control

During the experiment, you should pay close attention to the temperature changes in the double-layer glass reactor, and adjust the temperature settings of the refrigeration and heating cycle systems according to the experimental needs. Avoid temperatures that are too high or too low to affect the experimental results.

3. Liquid level check

Regularly check the liquid level in the double-layer glass reactor to ensure sufficient circulating liquid volume to avoid equipment damage or experimental failure due to low liquid level.

4. Maintenance

Regularly maintain the double-layer glass reactor and the refrigeration and heating circulation system, clean the surface of the equipment and internal pipes, check the wear and tear of each component, and replace damaged components in a timely manner.

5. Security protection

During the experiment, personal protective equipment such as protective glasses and gloves should be worn to avoid direct contact with high temperatures or corrosive substances. At the same time, keep the laboratory well ventilated to avoid the accumulation of toxic and harmful gases.

6. Exception handling

If an abnormality or malfunction is found in the equipment during the experiment, the experiment should be stopped immediately, the power of the equipment should be turned off, and professionals should be contacted for repair in a timely manner.

7. Processing after the experiment

After the experiment, the refrigeration and heating circulation systems should be closed and the connecting pipes between the double-layer glass reactor and the equipment should be disconnected. Clean the experimental site, return the equipment and organize the experimental data.

In summary, the double-layer glass reactor with refrigeration and heating circulation system plays an important role in the experimental process. By following the correct connection methods and precautions, the safety and smooth progress of the experiment can be ensured, the experimental efficiency can be improved, and the accuracy of the experimental results can be guaranteed. Therefore, when using these equipment, experimenters should fully understand and master the relevant operating skills and precautions to ensure the smooth progress of the experiment and the safety and stability of the laboratory.

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Cooling and Heating Systems (SUNDI series)

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• Temperature range: -120℃ ~ +350℃
• High-precision, intelligent temperature control
• Cooling capacity: 0.5kW ~ 1200kW
• Fully closed system to extend the service life of thermal fluid
• Each device is load tested for more than 12 hours

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• （Micro channel / tube reactors specialized）
• Temperature range: -70℃ ~ +300℃
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• Temperature range: -45℃ ~ +250℃
• Emerson Copeland compressor, reliable quality
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• Fully closed system to extend the service life of thermal fluid
• Each device is load tested for more than 12 hours

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• Temperature range: +50℃ ~ +300℃
• Large heat exchange area and fast heating speed
• Self-diagnosis function, multiple safety protection devices
• Closed circulation system, no oil mist at high temperatures
• Each device is load tested for more than 12 hours

TES Series (Temperature control for fuel and oil testing)

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• Temperature range: -85℃ ~ +250℃
• Siemens PLC controller and other brand accessories
• Self-diagnosis function, multiple safety protection devices
• Fully closed circulation system, no oil mist at high temperatures
• Each device is load tested for more than 12 hours

TCU Multi-reactors Temperature Control System

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• Temperature range: -120℃ ~ +250℃
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• Built-in electric heating thermal oil auxiliary system
• Add cold and heat source heat exchange modules according to needs
• Each device is load tested for more than 12 hours

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We specialize in the production of low-temperature chillers with a temperature control range as low as -150°C, which can meet the refrigeration needs of different industries.

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