Comparison of the Measuring Method: Difference between revisions
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English Translation by [[user:SLeithaeuser|Sandra Leithäuser]]<br> | English Translation by [[user:SLeithaeuser|Sandra Leithäuser]]<br> | ||
<br> back to [[Air Humidity Measurement|Air Humidity Measurement]] <br> | <br> back to [[Air Humidity Measurement|Air Humidity Measurement]] <br> | ||
The table lists the different measuring principles, evaluates them and shows the different criteria for their application. | The table lists the different measuring principles, evaluates them and shows the different criteria for their application. | ||
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{|border="2" cellspacing="0" cellpadding="4" width="100%" align="left" class="wikitable sortable" | {|border="2" cellspacing="0" cellpadding="4" width="100%" align="left" class="wikitable sortable" | ||
|+''Table 1: Comparison of moisture measuring methods (according to Weber 1995) '' | |+''Table 1: Comparison of moisture measuring methods (according to <bib id="Weber:1995"/>) '' | ||
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|bgcolor = "#F0F0F0" | '''Name''' | |bgcolor = "#F0F0F0" | '''Name''' | ||
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|+''Table 2: | |+''Table 2: Response time of different measurement methods (according to <bib id="Weber:1995"/>)'' | ||
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|bgcolor = "#F0F0F0" | '''Type''' | |bgcolor = "#F0F0F0" | '''Type''' | ||
|bgcolor = "#F0F0F0" | '''T<sub>50</sub>-time''' | |bgcolor = "#F0F0F0" | '''T<sub>50</sub>-time''' | ||
|bgcolor = "#F0F0F0" | '''Interval | |bgcolor = "#F0F0F0" | '''Interval''' | ||
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|bgcolor = "#F7F7F7" | '''Resistive''' | |bgcolor = "#F7F7F7" | '''Resistive''' | ||
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|bgcolor = "#FFFFEO" | 10 / 90 % RH | |bgcolor = "#FFFFEO" | 10 / 90 % RH | ||
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== Literature == | |||
<biblist/> | |||
[[Category:Humidity Measurement]] [[Category:R-HSchwarz]] [[Category:R-SLaue]] [[Category:inProgress]] | [[Category:Humidity Measurement]] [[Category:R-HSchwarz]] [[Category:R-SLaue]] [[Category:inProgress]] | ||
Latest revision as of 16:46, 9 November 2012
Author: Hans-Jürgen Schwarz
English Translation by Sandra Leithäuser
back to Air Humidity Measurement
The table lists the different measuring principles, evaluates them and shows the different criteria for their application.
| Name | Principle | Properties | Measuring range | Temperature range | ||
| Chilled mirror hygrometer | condensation on a chilled mirror | a | g | + very accurate - expensive; prone to damage by pollution |
-40 - +50 °C dew point |
0 - 40 °C |
| Capacitive (Al-Oxide) |
change in capacitance | a | g,l | + small, low cost, fast - drift, chemically sensitive, calibration |
-100 - +60 °C dew point |
0 - 70 °C |
| LiCl | LiCl equilibrium temperature | a | g | + robust, grease resistant - continuous operation required |
12 - 100% RH | -10 - 50 °C |
| Infrared | absorption of infrared light | a | g,l,s | + solid, contact free - installation, expensive |
0 - 30% water content |
- |
| Microwaves | absorption of microwaves | a | g,l,s | + solids, contact free - installation, expensive |
1 - 1000 g/m² | - |
| Conductivity | measuring the electrical conductivity | a | s | + solids (wood, concrete), hand held - accuracy |
6 - 100% water content |
- |
| Psychrometer | temperature difference wet/dry | r | g | + robust - needs maintenance |
0 - 100% RH | 0 - 50 °C |
| Hygrometer | change in length of hair or synthetic fiber | r | g | + direct display, rinsible - inaccurate, sensitive to dust |
0 - 100% RH | -30 - 110 °C |
| Capacitive | polymers change in capacitance | r | g | +low price, small, quick - drift, chemically sensitive, calibration |
0 - 100% RH | -40 - 180 °C |
| Electrolytic | current flow through phosphorous oxide | a | g | + no calibration, ppm range - flow rate, measuring range |
5 - 1000 ppm | 0 - 40 °C |
| Resistive | resistance of a hygroscopic layer | r | g | + low cost, good measuring effect, hysteresis - condensation, temperature influence |
30 - 90% RH | 10 - 40 °C |
a - absolute, r - relative, g - in gas, l - in liquids, s - in solids
Time response[edit]
Criteria for the usefulness of sensors are:
- the accuracy of the measurement,
- the transition function,
but also the
- time response.
The time response for most sensors is mainly determined by the amount of water needed for equilibrium. However, the time the water takes to diffuse onto the sensor needs to be considered, too. Since this amount of water can be provided or discharged by the ambient air, the amount of air that flows onto a sensor plays an important role.
Because the diffusion rate is a function of temperature, a sensor will always have a slower reaction the lower the temperature. Other factors apply for sensors with different measuring principles, e.g. chilled mirror hygrometer.
In addition, filters complicate the exchange of gases. When using filter sizes of below 5 - 8 µm no more direct gas exchange takes place, but only gas diffusion.
| Type | T50-time | Interval |
| Resistive | < 60 s | 30 / 80 % RH |
| Capacitive | < 5 min | 30 / 80 % R |
| LiCl | < 5 min | -1 / 10 °C TP |
| Chilled mirror hygrometer | < 60 s | -20 / 0 °C TP |
| Elektrolytic | < 30 min | 0 / 100 ppm |
| Fiber | < 10 min | 10 / 90 % RH |
Literature[edit]
| [Weber:1995] | Weber, Helmut (1995): Technische Feuchtemessung, Vulkan Verlag, Essen |  |