In situ steel solidification imaging in continuous casting using magnetic induction tomography

Soleimani, Masoud; Li, Fang; Spagnul, Stefano; Palacios, Juan Martínez; Barbero, J. I.; Gutiérrez, Teresa; Viotto, Alberto

doi:10.1088/1361-6501/ab6f30

Cited by 7 publications

(4 citation statements)

References 15 publications

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“…Operating frequency of 130 Hz (penetrating 24 depth through GaInSn) is chosen. This particular operating frequency was also successfully applied in previous work on steel imaging [17].…”

Section: Measurement Setupmentioning

confidence: 90%

Magnetic Induction Tomography Sensors for Quantitative Visualization of Liquid Metal Flow Shape

2020

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The work proposes magnetic induction tomography (MIT) sensors for liquid metal visualisation. Design aspect and performance evaluation, which by far were overlooked, are presented to quantify the shape of conductive substance against non-conductive region. Portable MIT sensors have been constructed and tested on GaInSn in the submerged entry nozzle (SEN) model. Reconstruction result shows applicability for liquid metal imaging. This feature meets the need to observe flow regime and phase distribution of steel in continuous casting. There are challenging flow regimes that can not yet fully be recovered, which are also investigated here.

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“…Operating frequency of 130 Hz (penetrating 24 depth through GaInSn) is chosen. This particular operating frequency was also successfully applied in previous work on steel imaging [17].…”

Section: Measurement Setupmentioning

confidence: 90%

Magnetic Induction Tomography Sensors for Quantitative Visualization of Liquid Metal Flow Shape

2020

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“…Correspondingly, the observation of temperature profile of hot steel inside the billet has been attempted. Internal map of electrical conductivity which is related to the measurement of the solid, mushy and liquid layers was reported [10]. The study synchronises the magnetic induction tomography (MIT) and the thermal map from the actual process parameters.…”

Section: Introductionmentioning

confidence: 88%

Noninvasive Conductivity and Temperature Sensing Using Magnetic Induction Spectroscopy Imaging

Muttakin

Soleimani

2021

IEEE Trans. Instrum. Meas.

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“…Early industrial applications of MIT focused on its use in liquid metal diagnostics [ 45 ] and some theoretical studies focused on its possible use in metal solidification, both in the field of steel continuous casting. Application for metal flow imaging was further investigated in [ 46 ] and use in a real continuous casting solidification was demonstrated in [ 47 ]. The injection of argon gas and stoppers opening in submerged entry nozzles in steel production can be controlled via the liquid metal flow regime identified by the MIT sensors.…”

Section: Magnetic Induction Tomographymentioning

confidence: 99%

A Review on Fast Tomographic Imaging Techniques and Their Potential Application in Industrial Process Control

Hampel

Babout

Banasiak

et al. 2022

Sensors

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With the ongoing digitalization of industry, imaging sensors are becoming increasingly important for industrial process control. In addition to direct imaging techniques such as those provided by video or infrared cameras, tomographic sensors are of interest in the process industry where harsh process conditions and opaque fluids require non-intrusive and non-optical sensing techniques. Because most tomographic sensors rely on complex and often time-multiplexed excitation and measurement schemes and require computationally intensive image reconstruction, their application in the control of highly dynamic processes is often hindered. This article provides an overview of the current state of the art in fast process tomography and its potential for use in industry.

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In situ steel solidification imaging in continuous casting using magnetic induction tomography

Cited by 7 publications

References 15 publications

Magnetic Induction Tomography Sensors for Quantitative Visualization of Liquid Metal Flow Shape

Magnetic Induction Tomography Sensors for Quantitative Visualization of Liquid Metal Flow Shape

Noninvasive Conductivity and Temperature Sensing Using Magnetic Induction Spectroscopy Imaging

A Review on Fast Tomographic Imaging Techniques and Their Potential Application in Industrial Process Control

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