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Influence of Size of Source Effect on Accuracy of LWIR Radiation Thermometers

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Determining the size of source effect of a radiation thermometer is not an easy task and manufacturers of these thermometers usually do not indicate the deviation to the measured temperature due to this effect. It is one of the main uncertainty components when measuring with a radiation thermometer and it may lead to erroneous estimation of the actual temperature of the measured target. We present an empiric model to estimate the magnitude of deviation of the measured temperature with a long-wavelength infrared radiation thermometer due to the size of source effect. The deviation is calculated as a function of the field of view of the thermometer and the diameter of the radiating source. For thermometers whose field of view size at 90% power is approximately equal to the diameter of the radiating source, it was found that this effect may lead to deviations of the measured temperature of up to 6% at 200ºC and up to 14% at 500ºC. Calculations of the temperature deviation with the proposed model are performed as a function of temperature and as a function of the first order component of electrical signal.
Rocznik
Strony
661--667
Opis fizyczny
Bibliogr. 8 poz., rys., tab., wykr., wzory
Twórcy
autor
  • Centro Nacional de Metrología, Km 4.5 Carretera a los Cues, 76246 Municipio el Marqués Qro, Mexico
  • Centro Nacional de Metrología, Km 4.5 Carretera a los Cues, 76246 Municipio el Marqués Qro, Mexico
  • Centro Nacional de Metrología, Km 4.5 Carretera a los Cues, 76246 Municipio el Marqués Qro, Mexico
Bibliografia
  • [1] Pušnik, I., Grgić, G., Drnovšek, J. (2004). Calculated uncertainty of temperature due to the size-of-source effect in commercial radiation thermometers. Int. J Thermophys, 29(21), 322-329.
  • [2] Yoo, Y.S., Kim, B.H., Park, C.W., Lee, D.H., Park, S.N. (2009). Size of source effect of a transfer reference thermometer suitable for international comparisons near to room temperature Fundamental and Applied Metrology, XIX IMEKO World Congress, 1493-1496.
  • [3] Saunders, P., Edgar, H. (2008). On the characterization and correction of the size-of-source effect in radiation thermometers. Metrologia, 46(1), 62-74.
  • [4] Pušnik, I., Grgić, G., Drnovšek, J. (2006). System for the determination of the size-of-source effect of radiation thermometers with the direct reading of temperature. Meas. Sci. Technol., 17(6), 1330-1336.
  • [5] Cárdenas-García, D. (2013). Utilizing size of source effect to determine minimum sample size in radiation measurement with a Fourier transform infrared spectrometer. NCSLI Measure, 8(3), 54-58.
  • [6] Barber, R., Glass industry applications. Theory and Practice of Radiation Thermometry, ed. by Witt, D.P., Nutter, G.D. (1998), chap. 18, John Wiley and Sons, Inc., 985‒987.
  • [7] Saunders, P., et al. (2008). Uncertainty Budgets for Calibration of Radiation Thermometers below the Silver Point, Int. J Thermophys, 29(3), 1066-1083.
  • [8] ASTM E2758-10 (2010). Standard Guide for Selection and Use of Wideband Low temperature Infrared Thermometers, West Conshohocken, PA, 4.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8926bce6-ed75-4e71-aff9-446909879ae3
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