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Pyrometers

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... Good sensitivity costly Thermister Not used due to Poor precision Difficult to provide compensation Low response time Photocell Fast Large sensitivity But ... – PowerPoint PPT presentation

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Title: Pyrometers


1
Pyrometers
2
Pyrometers
  • To measure temperature of a very hot body
  • Where thermometers cannot brought into contact
    or
  • Where hot bodies are moving

3
Pyrometers
  • Measurements done by measuring energy radiated by
    a hot body or by comparison of colour

4
  • Wave length of thermal radiation-0.01 to 100 µ m

5
Black body radiation
  • Sefan- Boltzmanns law
  • Wb s T4
  • b/w two bodies
  • Wb s (T14 T2 4)

6
  • Emissive power of blackbody is
  • Wby C1 ? -5 / e (C2/ ? T)
  • where ? wavelength in cm
  • C1 I radiation const
  • - 3.74 X10 9 erg/s/sq.cm/0.01µcm
  • C2 1.438 cm K
  • T- absolute temp of black body

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  • As temperature of emitting source changes colour
    changes
  • Ie, for lower temp the colour is dull

9
  • For practical radiating bodies
  • We have to consider absorbtion, reflectivity,
    transmissibility, emissivity

10
  • Emissivity
  • e 0.365v(?/?)
  • ? - resitivity

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  • Here detector temp gt casting temp
  • Detector losses its temp. in all ways
  • If detector temp. finally settles to T2 casting
    temp is at T0 and target temp is T1
  • Ko (T2- T0 ) K1 T1 4 heat input
  • Value of T0 - important for detectors

14
  • V o a (T2- T0 ) a T1 4
  • V Kv T n
  • n b/w 3.5 to 4.5
  • Kv- Experimental value

15
Comman detectors in pyrometers
  • Thermopile-
  • photocell
  • Metal bolometer
  • thermister

16
Thermopile
  • Larger o/p
  • Lower response time
  • Adaptable for industrial applications

17
Bolometer
  • Fast in response
  • Good sensitivity
  • costly

18
Thermister
  • Not used due to
  • Poor precision
  • Difficult to provide compensation
  • Low response time

19
Photocell
  • Fast
  • Large sensitivity
  • But limited spectral sensitivity

20
Lens for focusing targets
  • Uses selective materials to prevents absorption
    by them
  • Thallium iodide more suitable for high temp
    with shorter emission
  • fused silica -High temp with shorter wavelength
    b/w 250 to 1900 C
  • Pyrex

21
Sources of errors in pyrometers
  • Interleaving media has to be clear
  • Carbon dioxide, water vapour etc absorb selective
    bans of wavelength
  • Emittance errors
  • Sensitive to obstruction

22
Advantages
  • Abitity to measure high temp
  • No need for contact
  • Fast response speed
  • High o/p
  • Moderate cost

23
disadvantages
  • Non linear scale
  • Emmisivity of target affect measurement
  • Errors due to interleaving media

24
Application
  • Can be used where life of thermocouple limits

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Optical pyrometer
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Optical pyrometer
29
Optical pyrometer
  • Range b/w 700 to 3000 oC
  • More accurate.
  • Lower limit determined by human eye
  • Human eye compares the radiation

30
Optical pyrometer- workingdisappearing filament
type
  • Radiation received by objective lens- focus on
    filament- viewed through a microscope system-
    filament appears in background.
  • red cadmium filters makes the radiation appear
    momchromatic

31
working
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working
  • At Bt Bf milli ammeter gives a current prop
    ional to temperature
  • tungsten is used

33
advantages
  • Flexible
  • Portable
  • Convient to use
  • Light weight
  • Can monitor moveable objects
  • Non contact type
  • accurate

34
disadvantages
  • Expensive
  • Human error
  • Not useful for measuring temp of clear gas
  • At high temp. filament erodes frequently

35
  • Can also use double control pyrometers

36
Radiation pyrometer disappering filament type
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