Temperature Measurement: Difference between revisions
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Author: [[user:Hschwarz|Hans-Jürgen Schwarz]] | |||
<br> | <br> | ||
<br> | English Translation by [[user:SLeithaeuser|Sandra Leithäuser]]<br> | ||
<br> back to [[Climatic Measurements]] <br> | |||
== Overview of the chapter on temperature measurement == | == Overview of the chapter on temperature measurement == | ||
*[[Contact temperature measurement]] | *[[Contact temperature measurement]] | ||
**[[ | **[[Liquid thermometer]] | ||
**[[ | **[[Resistance temperature detectors (RTD)]] | ||
**[[ | **[[Thermocouples]] | ||
**[[ | **[[Bimetal thermometer]] | ||
**[[ | **[[Quarz-thermometer]] | ||
*[[Non-contact temperature measurement]] | *[[Non-contact temperature measurement]] | ||
**[[ | **[[Infrared thermometer]] | ||
**[[ | **[[Infrared camera]] | ||
*[[Selection of a suitable temperature sensor]] | *[[Selection of a suitable temperature sensor]] | ||
**[[ | **[[Response time]] | ||
**[[ | **[[Measurement of surface temperatures]] | ||
<br> | <br> | ||
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== Introduction == | == Introduction == | ||
In addition to properties such as mass, volume, each body also has thermal | In addition to properties such as mass, volume, each body also has thermal properties that give information about their thermal state. | ||
Temperature is the physical and objective term that classifies the subjective feeling of cold and warm into an absolute scale. | Temperature is the physical and objective term that classifies the subjective feeling of cold and warm into an absolute scale. | ||
Temperatures are measured with thermometers. Thermometers take advantage of the specific temperature-dependent properties of materials (e.g. volume). For laying down scales and for the calibration of thermometers, temperature fixed points are necessary. The most frequently used two fixed points are: | Temperatures are measured with thermometers. Thermometers take advantage of the specific temperature-dependent properties of materials (e.g. volume). For laying down scales and for the calibration of thermometers, temperature fixed points are necessary. The most frequently used two fixed points are: | ||
#Melting ice =273.15 K (0ºC, 32ºF) at standard pressure (1.013 bar) | #Melting point of ice =273.15 K (0ºC, 32ºF) at standard pressure (1.013 bar) | ||
# | #Boiling point of water at standard pressure | ||
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|+'' | |+''Table 1: Temperature scales'' | ||
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|bgcolor = "#F0F0F0" | '''Scale''' | |bgcolor = "#F0F0F0" | '''Scale''' | ||
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Today, electronic and optical temperature sensors are used most widely. In electronic sensors mostly the change in electric resistance is evaluated through temperature (resistance thermometers such as PT-100, NTC- elements). | Today, electronic and optical temperature sensors are used most widely. In electronic sensors mostly the change in electric resistance is evaluated through temperature (resistance thermometers such as PT-100, NTC- elements). | ||
Optical sensors are widely used for the remote determination of temperatures and for moving hot | Optical sensors are widely used for the remote determination of temperatures and for moving hot components (IR thermography). | ||
[[Category:Schwarz,Hans-Jürgen]] [[Category: | [[Category:Schwarz,Hans-Jürgen]] [[Category:Temperature Measurement]] [[Category:inProgress]] [[Category:overview]] |
Latest revision as of 09:24, 2 January 2014
Author: Hans-Jürgen Schwarz
English Translation by Sandra Leithäuser
back to Climatic Measurements
Overview of the chapter on temperature measurement[edit]
- Contact temperature measurement
- Non-contact temperature measurement
- Selection of a suitable temperature sensor
Introduction[edit]
In addition to properties such as mass, volume, each body also has thermal properties that give information about their thermal state.
Temperature is the physical and objective term that classifies the subjective feeling of cold and warm into an absolute scale.
Temperatures are measured with thermometers. Thermometers take advantage of the specific temperature-dependent properties of materials (e.g. volume). For laying down scales and for the calibration of thermometers, temperature fixed points are necessary. The most frequently used two fixed points are:
- Melting point of ice =273.15 K (0ºC, 32ºF) at standard pressure (1.013 bar)
- Boiling point of water at standard pressure
If these fixed points are assigned to specific temperature values and the difference is divided, different temperature scales are obtained. The following table shows the correlation between the most important scales:
Scale | Celsius | Kelvin | Fahrenheit | Reaumur |
Symbol | T | tF | tR | |
Unit | ºC | K | ºF | ºR |
1. FP* 2. FP Division |
0 100 100 |
273.15 373.15 100 |
32 212 180 |
0 80 80 |
Use | Europe | Science | USA | France (Outdated) |
- FP – Fixed Point
The subdivision of the individual scales and their reciprocal conversion occurs linearly. The Kelvin scale is based on the increase in pressure of an ideal gas, the other scales are based on the increase in volume of mercury. Celsius and Kelvin are equal for temperature differences but not for absolute values.
All temperature scales were replaced in 1990 by the international temperature scale ITS-90. This has resulted in the Celsius scale not being based on the boiling point of water at 1013.25 mbar= 100ºC. The consequence is, that the boiling point of water is now 99.974ºC at standard pressure.
The various temperature measuring methods can be roughly divided into mechanical and electronic ones. The best known mechanical methods are based on the expansion of the sensor i.e. bimetallic strips, liquid thermometers (e.g. mercury, alcohol inside a capillary tube) and gas thermometers.
Today, electronic and optical temperature sensors are used most widely. In electronic sensors mostly the change in electric resistance is evaluated through temperature (resistance thermometers such as PT-100, NTC- elements). Optical sensors are widely used for the remote determination of temperatures and for moving hot components (IR thermography).