In which industrial scenarios are temperature controllers indispensable?

1. Pharmaceutical industry

Temperature controllers can be used in reactors, sterilization equipment and drying processes in drug production to ensure precise control of reaction temperatures and avoid drug component failure or contamination.
Comply with strict regulatory standards (such as GMP) to ensure drug safety and consistency.

2. Chemical and petrochemical industry

Control the temperature of chemical reactors to prevent side reactions or dangerous accidents (such as explosions) caused by temperature fluctuations.
Adjust the temperature of distillation towers during the refining process to improve product purity and yield.

3. Food processing and storage

Food sterilization, pasteurization, freezing/refrigeration and other links to ensure food safety and extend shelf life.
Maintain constant temperature in baking, fermentation and other processes to ensure product taste and quality.

4. Steel and metallurgical industry

Real-time monitoring of blast furnace temperature to ensure that the metal smelting process is carried out at the optimal temperature to avoid damage to material properties.
Control the temperature of rolling, annealing and other processes to improve the strength and precision of metal products.

5. Semiconductor and Electronic Manufacturing

Chip manufacturing requires nanometer-level temperature control, and small temperature differences may cause the entire batch of products to fail.
Injection molding machines accurately adjust mold temperature to ensure dimensional stability of plastic parts.

6. Plastic Processing Industry

During injection molding, extrusion and thermoforming, controllers optimize the temperature of molten plastics to reduce scrap and improve production efficiency.
Adaptive PID controllers can dynamically adjust parameters according to material properties, taking into account energy saving and precision.

7. Laboratory and Scientific Research

Maintaining stable reaction temperature in chemical experiments to ensure repeatability and accuracy of experimental results.
Biological incubators, constant temperature water baths and other equipment rely on thermostats to keep biological samples active.

8. Power and Energy Equipment

Protect transformers, motors and other equipment from overheating damage and extend service life.
Control the temperature of thermal systems in power plants to improve energy efficiency.

9. Heating, Ventilation and Air Conditioning (HVAC) and Buildings

Intelligently adjust air conditioning systems in commercial buildings to balance comfort and energy consumption.
Precise temperature control in data center rooms prevents equipment from overheating and shutting down.

10. Other industrial scenarios

Glass manufacturing: Furnace temperature control affects the quality and uniformity of glass molding.
Textile industry: Dyeing and drying processes require strict temperature control to avoid color difference or fiber damage.
Automobile manufacturing: The baking temperature in the paint shop affects the adhesion and appearance of the coating