Temperature calibration has a crucial application in the medical industry. In medical testing, many testing equipment requires precise temperature control. For example, when a PCR (Polymerase Chain Reaction) instrument performs gene amplification, a slight temperature deviation may lead to errors in the test results, affecting the diagnosis of diseases. Therefore, regularly calibrating the temperature control system of the PCR instrument is the key to ensuring the accuracy of test results.
In the aerospace field, temperature calibration is crucial for the safe flight of aircraft. The engines, electronic equipment, etc. of aircraft face temperature changes under different flight conditions. If the temperature measurement is inaccurate, it may lead to a decline in engine performance and even trigger safety accidents. Therefore, strictly calibrating various temperature sensors on aircraft is an important measure to ensure flight safety.
In the energy industry, whether it is thermal power generation, wind power generation, or nuclear power generation, temperature calibration plays a key role. In thermal power generation, the temperature control of the boiler directly affects the power generation efficiency and the safe operation of the equipment. Through accurate temperature calibration, the combustion process of the boiler can be optimized, the power generation efficiency can be improved, and the energy consumption can be reduced. In wind power generation, the nacelle temperature, gearbox temperature, etc. of wind turbines need to be accurately measured and controlled to ensure the normal operation and service life of the generators.
