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[[Image:Gluehfadenpyrometer.jpg|Gluehfadenpyrometer|thumb]] [[Image:Pyrometer_040824.jpg|Pyrometer 040824|thumb|left]] [[File:Pyrometer_example.png|Pyrometer example|thumb|left]] [[File:Silicon_grown_by_Czochralski_process_1956.jpg|Silicon grown by Czochralski process 1956|thumb]] [[File:Smelter-pyrometer.png|Smelter-pyrometer|thumb]] [[File:THC_2003.902.127_T._Hignett_Optical_Pyrometer.tif|THC 2003.902.127 T. Hignett Optical Pyrometer|thumb]] '''Pyrometer''' is a type of [[thermometer]] used for measuring high temperatures. Unlike conventional thermometers, which are not capable of measuring the temperature of objects above a few hundred degrees Celsius, pyrometers are designed to measure the temperature of objects that are significantly hotter, such as molten metals, furnaces, and the surfaces of stars, without being in direct contact with them. This is achieved through the measurement of thermal radiation (infrared or visible) emitted by the object.

==Types of Pyrometers==
There are mainly two types of pyrometers: optical pyrometers and infrared (IR) pyrometers.

===Optical Pyrometers===
Optical pyrometers, also known as brightness pyrometers, measure the visible radiation emitted by a hot object. The principle behind their operation is based on the comparison of the brightness of the visible light emitted by the target with that of a calibrated light source. These devices are most effective when measuring temperatures above 700°C.

===Infrared Pyrometers===
Infrared pyrometers measure the infrared radiation emitted by an object to determine its temperature. They can be used to measure the temperature of objects that are not only hot but also cold, and they do not require the object to be visible. IR pyrometers are widely used in industrial applications due to their versatility and the ability to measure temperature from a distance.

==Applications==
Pyrometers are used in a variety of applications across many industries. Some of the common applications include:

* Monitoring and controlling the temperature in [[furnace]]s and kilns.
* Measuring the temperature of molten metals in the metallurgical industry.
* Ensuring the correct temperature in thermal treatment processes.
* Safety monitoring in environments where overheating can lead to fires or explosions.
* Research and development, especially in materials science and engineering.

==Advantages and Limitations==
The main advantage of pyrometers is their ability to measure high temperatures without making physical contact with the object. This non-contact measurement method is particularly useful in situations where the object is inaccessible or too hot to touch. Additionally, pyrometers can provide rapid temperature readings, which is crucial for real-time monitoring and control in industrial processes.

However, pyrometers also have limitations. Their accuracy can be affected by various factors, including the emissivity of the target material, atmospheric conditions, and the presence of dust or gases between the pyrometer and the target. Calibration and adjustment for these factors are necessary to obtain accurate measurements.

==Conclusion==
Pyrometers are essential tools for temperature measurement in high-temperature industrial processes. Their ability to measure temperature from a distance and without contact makes them invaluable in many applications. Despite their limitations, with proper calibration and consideration of environmental factors, pyrometers can provide accurate and reliable temperature measurements.

[[Category:Temperature measurement]]
[[Category:Industrial equipment]]

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Pyrometer - Revision history

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