Hygrometric Measuring Methods
Author: Hans-Jürgen Schwarz
English Translation by Sandra Leithäuser
back to Air Humidity Measurement
Abstract[edit]
The hygrometric measuring method uses the properties of hygroscopic fibers for the determination of humidity in the air. If these fibers are subjected to the ambient air, their length changes as a function of relative humidity. The relative humidity can be detected from theses changes.
The fibers used for hygrometric measuring elements are usually specially prepared polymer fibers or human hair.
Hair Measuring Element[edit]
The functioning of the measuring element relies on the fact that hair is able to absorb humidity, i.e., in humid conditions the hair swells and expands. As the humidity rises, the hair becomes longer. For humidity fluctuations between 0% and 100% relative humidity (RH) the relative change in length of a hair is about 2.5%. However, the hair becomes slightly longer only at high humidity levels.
Hair measuring elements are used in instruments for use in interior climate control. The hair’s change in length is translated to a needle gauge or pen by a precise mechanism. In order to provide mechanical stability, the hair is bundled or arranged into a hair harp.
The measuring method ensures an accuracy of 3% in a measuring range of 0-90% RH. Ambient temperature ranging from -35º- +50ºC are possible. After a long period of time in low humidity conditions, i.e., below 40% RH, the hair element has to be regenerated. For this purpose, the hair hygrometer is placed in nearly moisture-saturated air for 60 minutes. The gauge settings may be adjusted afterwards, using a setscrew.
Hair hygrometers are sensitive to hygroscopic dust and are to be protected, as well as cleaned periodically.
Synthetic-fiber Measuring Element[edit]
The synthetic-fiber measuring element uses a man-made fiber instead of human hair. The fibers are treated so as to have hygroscopic properties.
The synthetic measuring elements can be used at higher temperatures (up to 110°C) than the hair measuring elements. It is also possible to use them at low relative humidity levels, for a longer period of time, and regeneration is not necessary.
The synthetic measuring element is water resistant and insensitive to dry dirt, dust etc. The measuring range is (0) 30% to 100% RH, but depends on the ambient air temperature. Their accuracy is about 2-3%.
On an industrial scale, hygrometric sensors with synthetic elements are used for the continued measuring of climatic conditions, because they are less sensitive and have a higher temperature tolerance.
Thermo-Hygrograph[edit]
The Thermo-hygrograph is a chart recorder that detects the relative humidity and the temperature using hair or synthetic measuring elements.
The hygrometric measuring method allows measuring the relative humidity in the absence of air pressure and corrosive gases. Measurements in solvent and corrosive media containing environments should be avoided, because this may cause errors or the destruction of the measuring element.
Advantages:
- Simple and inexpensive
- Easy to clean
Disadvantages:
- High maintenance (regeneration of the hair)
- Low precision
- Limited area of use 9 (15...85%RH, max. 50º C)
- Slow method