Sensors (Jan 2025)

A Measurement Approach for Characterizing Temperature-Related Emissivity Variability in High-Emissivity Materials

  • Gloria Cosoli,
  • Paolo Chiariotti,
  • Beatriz García-Baños,
  • Giuseppe Pandarese,
  • Felipe L. Peñaranda-Foix,
  • Gian Marco Revel

DOI
https://doi.org/10.3390/s25020487
Journal volume & issue
Vol. 25, no. 2
p. 487

Abstract

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The effective knowledge of emissivity is pivotal to obtain reliable temperature measurements through non-contact techniques like pyrometry and thermal imaging. This is fundamental in high-temperature applications since material emissivity strongly depends on temperature conditions. Given the recent attention in high-temperature applications, especially for replacing fossil-fuel-dependent heating with greener solutions in energy-intensive processes, renewed interest in characterizing materials radiant properties rose. This work presents a measurement procedure for characterizing the total emissivity of high-emissivity materials exploiting microwaves for heating the test material. The procedure grounds on a sequential approach, using a reference material of known emissivity (e.g., high-emissivity coating, already characterized sample holder, etc.) to derive the target material total emissivity. Uncertainty analysis is performed to provide a metrological characterization of the approach. The procedure is validated on target materials of known emissivity, focusing on high-emissivity materials commonly employed in microwave heating processes. Results are compatible with reference literature and material datasheets, demonstrating the validity of the proposed approach.

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