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  • Continuous furnaces are commonly used for steel billet reheating before a rolling operation. It is necessary to perform a number of measurements to set-up and operate the optimization system of the furnaces correctly. A charge temperature measurement using infrared detectors can be one of the usable measurement techniques. This non-contact measurement method is based on the detection of infrared radiation emitted from a measured surface. The radiation intensity depends on the surface temperature and emissivity, which is one of the most important parameters for infrared measurements. Advantages of the non-contact temperature measurement, as well as some problems regarding the surface emissivity, are presented. The direct steel billet temperature measurement procedure using infra-red detectors, emissivity determination procedures, and example results are introduced. It is shown that steel emissivity can vary from approx. 0.17 to 0.8, depending on the surface state, scale formation, and wavelength interval. These problems are critical for the charge temperature measurement using the infra-red detectors, and are discussed in this paper.
  • Continuous furnaces are commonly used for steel billet reheating before a rolling operation. It is necessary to perform a number of measurements to set-up and operate the optimization system of the furnaces correctly. A charge temperature measurement using infrared detectors can be one of the usable measurement techniques. This non-contact measurement method is based on the detection of infrared radiation emitted from a measured surface. The radiation intensity depends on the surface temperature and emissivity, which is one of the most important parameters for infrared measurements. Advantages of the non-contact temperature measurement, as well as some problems regarding the surface emissivity, are presented. The direct steel billet temperature measurement procedure using infra-red detectors, emissivity determination procedures, and example results are introduced. It is shown that steel emissivity can vary from approx. 0.17 to 0.8, depending on the surface state, scale formation, and wavelength interval. These problems are critical for the charge temperature measurement using the infra-red detectors, and are discussed in this paper. (en)
Title
  • Non-contact charge temperature measurement on industrial continuous furnaces and steel charge emissivity analysis
  • Non-contact charge temperature measurement on industrial continuous furnaces and steel charge emissivity analysis (en)
skos:prefLabel
  • Non-contact charge temperature measurement on industrial continuous furnaces and steel charge emissivity analysis
  • Non-contact charge temperature measurement on industrial continuous furnaces and steel charge emissivity analysis (en)
skos:notation
  • RIV/49777513:23640/13:43918874!RIV14-MSM-23640___
http://linked.open...avai/riv/aktivita
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  • P(ED2.1.00/03.0088)
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  • November
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  • 91912
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  • RIV/49777513:23640/13:43918874
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  • Continuous industrial furnaces; , Emissivity; IR detectors; Temperature measurement (en)
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  • GB - Spojené království Velké Británie a Severního Irska
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  • [5D281C348EA0]
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  • INFRARED PHYSICS & TECHNOLOGY
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  • 61
http://linked.open...iv/tvurceVysledku
  • Honner, Milan
  • Švantner, Michal
  • Honnerová, Petra
issn
  • 1350-4495
number of pages
http://bibframe.org/vocab/doi
  • 10.1016/j.infrared.2013.07.005
http://localhost/t...ganizacniJednotka
  • 23640
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