- •Quick Quiz 1
- •Quick Quiz 2
- •Quick Quiz 3
- •Quick Quiz 4
- •Course of lectures «Contemporary Physics: Part2»
- •Kirchhoff's law
- •Good model of this body is the small gap in closed cavity. Light,
- •In 1879 Stephen on the base of the analysis of the experimental data
- •Location of the maximum of spectral density of radiation of theblack body on
- •Planck concluded, that the radiation and absorption processes by heated bodies of the
- •Planck equation at small x (high frequencies or big wavelength) almost coincides with
- •Real bodies have different radiation and absorption. There is the coefficient of “grayness”
- •Dielectic radiation
- •Integral radiation coefficient of several dielectrics as the function of temperature : 1-
- •Metal radiation coefficients
- •Integralradiation coefficient of some metals.
- •Dependence of radiation coefficient from the angle of observation
- •Selective coating are special coatings for heat control.
- •Radiation pyrometers
- •Яркостные пирометры.
- •Цветовые пирометры.
- •Учебный фильм «Лучистый теплообмен»
- •Quick Quiz 1
- •Quick Quiz 2
- •Quick Quiz 3
- •Quick Quiz 4
Planck concluded, that the radiation and absorption processes by heated bodies of the electromagnetic energy happen not continuously, as it was considered by classic physics, but finite portions – quants. E h
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The spectral density |
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U( ,T) |
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of blackbody radiation |
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e kT 1 d d 0 |
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e kT 1 |
a T x |
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U( ,T) AT |
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s law |
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Planck equation at small x (high frequencies or big wavelength) almost coincides with semiempirical Wien’s law. At low frequencies (hν << kT) Planck equation transfers to the Rayleigh– Jeans law.
1
y D 1x 5 e x 1
Real bodies have different radiation and absorption. There is the coefficient of “grayness” of spectral and integral radiation
coefficient (don’t confuse withс (Т) – emissivity and - dielectric constant).
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Stephen- |
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Boltzmann law it |
E(T ) ( ,T )d ( ,T )d |
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used the ratio: |
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If the body is |
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E(T ) |
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const The body is colors and there is additional |
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optical phenomenon: interference, diffraction, luminescence.
Sometimes to estimate the reflection of radiance from the body it is convenient to use not the “gray” coefficient , but coefficient of whiteness «albedo»: 1
Dielectic radiation |
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At the condition. That all radiation, which |
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coefficients |
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doesn’t reflect from the edge of thick non |
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transparent or semitransparent dielectric, |
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absorbed in its thickness or on other edge. |
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for ( /c) L>>1 |
R is the reflection coefficient of the surface dielectric-vacuum (depends on the wavelenght). N is the refraction coefficient, is the index of refraction of the material, L is the thickness of
Integral radiation coefficient of several dielectrics as the function of temperature : 1- rubber, 2- porcelain, 3-cork, 4-paper, 5 fire-clay.
T, oK
Any material, covered by thin transparent dielectric layer, change its “gray” coefficient because of reflection of frontal waves, radiated body on the surface dielectric- vacuum and total internal reflection of oblique beams on
this |
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(1 R )sin2 |
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4n |
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om |
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om 1 n 2 n |
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where om is the integral radiation coefficient of the material, n is
the index of refraction of films dielectric, angle of total internal reflection.
Metal radiation coefficients
Metals, especially polished, have small radiation coefficient.
Spectral radiation coefficient of some metals: 1-graphite, 2-
copper, 3-iron, 4-aluminum, 5-silver.
Radiation coefficient of metals Коэффициент излучения металлов uniquely connected with its index of reflection. The last one depends not only on concentration of unbound electrons and electron oscillation frequency, but on the scattering of oscillating electrons (their interaction with the impurities
and defects) and magnetic permittivity of metal . Scattering is defined by
conductivity of metals .
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is electroconductivity of metals, с is
the speed of light, radiation.
Integralradiation coefficient of some metals.
1-nickel, 2-tungsten, 3-platinum.
Dependence of radiation coefficient from the angle of observation
the angle of observation
Integral radiation coefficient ε as a function of the
angle of observation
1 – blackbody; 2 – gray body; 3-5 – dielectrics with the indexes of refraction n=1.5; 2 and 4 respectively; 6 – metal.
Selective coating are special coatings for heat control.
Coating of cupper collector of solar radiance by film from copper oxide led to increase the radiation coefficient of solar radiance from =0.3-
3мкм, the same time it possible to decrease the heat losses form =5-15мкм.
Color «ivory» (also snow and glass powder increase the heat because of high повышают теплоотдачу излучением за счёт высокой emissivity in the range =3-15 mkm, but looks like white in the visible range of the wavelength from =0.3-1mkm (all radiation in this range is reflected).
Radiation pyrometers
The hot object |
objective |
|
Приёмник
galvanometer ocular
Пирометры основаны на фокусировке излучения раскаленной поверхности на теплоприемнике. Яркость сфокусированного изображения не зависит от расстояния до объекта, если оно велико по сравнению с фокусным расстоянием объектива. Важно, чтобы создаваемое объективом изображение полностью перекрывало теплоприемник. Предварительно производится
Поскольку энергетическая светимость реальной раскаленной поверхности при той же температуре меньше светимости абсолютно черного тела (в соответствии с законом Кирхгофа), измеренная радиационная температура оказывается меньше
В справочниках имеются соответствующие поправочные коэффициенты, учитывающие отличие светимости поверхностей реальных материалов от светимости абсолютно черного тела. Значения этих коэффициентов в свою очередь зависят от
температуры.