Simultaneous estimation of temperature and emissivity of metals around their melting points by deterministic and Bayesian techniques

•The temperature and the emissivity of niobium and steel are estimated around their melting points by multispectral pyrometry.•The experimental data are radiative fluxes collected by a six-wavelength pyrometer and by a commercial bichromatic pyrometer.•The apparatus is dedicated to the characterizat...

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Bibliographic Details
Published in:International journal of heat and mass transfer Vol. 183; p. 122077
Main Authors: Pierre, Thomas, Krapez, Jean-Claude, Orlande, Helcio R.B., Rodiet, Christophe, Maux, Dylan Le, Courtois, Mickaël, Masson, Philippe Le, Lamien, Bernard
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2022
Elsevier
Subjects:
Bayesian inference
Engineering Sciences
liquid metals
multispectral pyrometry
ordinary least squares
Physics
Temperature emissivity estimation
multispectral pyrometry
Temperature emissivity estimation
ordinary least squares
liquid metals
Bayesian inference
Multispectral pyrometry
Métaux liquides
Méthode des moindres carrés ordinaire
Ordinary least squares
Estimation
Pyrométrie multispectrale
Liquid metals
Inférence bayésienne
Émissivité thermique
ISSN:0017-9310
Online Access:Get full text
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Summary:•The temperature and the emissivity of niobium and steel are estimated around their melting points by multispectral pyrometry.•The experimental data are radiative fluxes collected by a six-wavelength pyrometer and by a commercial bichromatic pyrometer.•The apparatus is dedicated to the characterization of the physical properties of millimeter-size metal samples at high temperatures, combining aerodynamic levitation and laser heating.•Different techniques are used are based on deterministic (ordinary least squares) and Bayesian approaches. This article presents the temperature and emissivity estimation of metals around their melting points using different techniques, which are based on deterministic (ordinary least squares) and Bayesian approaches. Linear and non-linear models are examined. The experimental data consist of radiative fluxes at six wavelengths, collected by a pyrometer. The apparatus is dedicated to the characterization of the physical properties of millimeter-sized metal samples at high temperatures, combining aerodynamic levitation and laser heating. Tests are performed on two metals: niobium with well-known temperature and steel.
ISSN:0017-9310
DOI:10.1016/j.ijheatmasstransfer.2021.122077