S Sensors and Measurement Methods Water vapor in gas or in other substances In gas: Humidity In other substances: Water content

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Transcription:

Gas humidity S-108.3011 Sensors and Measurement Methods 2016 What is humidity? Water vapor in gas or in other substances In gas: Humidity In other substances: Water content Described with differend quantities: Absolute humidity Mass mixing ratio Specific humidity Relative humidity Introduction to sensors 2 1

Absolute humidity (AH) and Relative humidity (RH) The mass of water vapour in a certain volume of gas: AH = V = m v / V Know also as volumetric humidity Absolute humidity changes as a function of temperature and pressure The quantity does not fit well to situation where temperature changes a lot Sometimes (incorrectly) absolute humidity refer to mass ratios Relative humidity, expressed as a percent, measures the current absolute humidity relative to the maximum (highest point) for that temperature. Introduction to sensors 3 Mass ratios Specific humidity is the mass of water vapour in relation to the total mass SH = m v / m t m v + m g = m t Mass mixing ratio is the mass of water vapour in relation to the mass of dry gas MR = r = m v / m g Temperature does not affect mass ratios (unless condensation happens) Introduction to sensors 4 2

Dalton s law of partial pressures Introduction to sensors 5 Saturated water vapour Pressure is at the highest Equilibrium with planar water or icy surface Temperature drops condensation Pressure rises condensation Dew point: t d Introduction to sensors 6 3

Pressure of saturated water vapour in air Introduction to sensors 7 Relative humidity (RH) Vapour pressure ratio to saturated vapour pressure at the same temperature = = ( ) ( ) 100% = 100% = 100% Reveals how close the dew point is Important at weather forecasts Affects to human s comfort Thermal regulation of a body, high dew point less comfortable Introduction to sensors 8 4

Introduction to sensors 9 Introduction to sensors 10 5

The effect of temperature to relative humidity Introduction to sensors 11 Hygrometer Most accurate result by measuring dew point Detecting the phase change of water The effect of water vapour to electrical, mechanical and optic properties of a material Introduction to sensors 12 6

Detecting the phase change of water: Optical dew point sensor A mirror is cooled to the dew point The deposit of moisture on the mirror surface is kept constant by controlling the Peltier element The deposit of moisture is measured optically and the signal then controls the Peltier element The uncertainty of the device is 0.1-0.3 C Introduction to sensors 13 Detecting the phase change of water: Optical dew point sensor Introduction to sensors 14 7

Detecting the phase change of water: Optical dew point sensor + Accurate + Wide range (-80 C +100 C) + Stable Expensive The mirror needs regular cleaning Slow Introduction to sensors 15 Detecting the phase change of water: Psychrometer Two temperature sensors: dry and wet Water evaporates from the wet side and drops its temperature Wet side cools to wet bulb temperature Introduction to sensors 16 8

Detecting the phase change of water: Psychrometer Temperature range > 0 C Uncertainty even 2 %RH + Long-term stability + Wide humidity range (1-100 %RH) + Withstands exposure to water Air flow Maintenance (adding distilled water, changing sock) Introduction to sensors 17 Detecting the phase change of water: Other dew point sensors Instead of optical detection: Quartz crystal microbalance, QCM (change of frequency) Especially below 0 C Relatively new method, not widely in use Thermic (change of heat flux) Especially high humidities and temperatures Not produced anymore? Impedance Normal humidity zone Fast Introduction to sensors 18 9

Detecting the phase change of water : Surface acoustic wave dew point sensor (SAW) Surface acoustic wave damps when ice or water is formed on a surface of a sensor Vaisala has been the only manufacturer; not produced anymore Introduction to sensors 19 Capasitive polymer sensors The most common RH sensor type Measurement range even 0-100 %RH Uncertainty at best 2 %RH Wide temperature range: -40 +80 C Introduction to sensors 20 10

Capasitive polymer sensors + Easy to use, small scale + Withstands exposure to water (after that requires a calibration) + Fast, sensitive, wide temperature range Relatively poor stability Hysteresis Temperature dependency (temperature sensor in the same device) Individuality (necessity to calibrate) Introduction to sensors 21 Other sensor types Resistive sensors Conducting polymers Usually less sensitive and accurate than capasitive Mechanical Thermohygrographs, hair tension hygrometers No longer in use Introduction to sensors 22 11

Other sensor types Optical Spectroscopic: air absorption Fiber optical: moisture detector Mechanical properties Quartz crystal microbalance (QCM) Introduction to sensors 23 12

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