Emissivity compensated infrared thermometry for planar materials

Marta Osta; Claudio Carretero; Pilar Blasco; Enrique Carretero; Rafael Alonso

Ayuda

Emissivity compensated infrared thermometry for planar materials

Marta Osta ^[1] ; Claudio Carretero ^[1] ; Pilar Blasco ^[1] ; Enrique Carretero ^[1] ; Rafael Alonso ^[1]
1. [1] Universidad de Zaragoza
  
  Universidad de Zaragoza
  
  Zaragoza, España
Localización: Compel: International journal for computation and mathematics in electrical and electronic engineering, ISSN 0332-1649, Vol. 36, Nº 2 (Special Issue: Heating by Electromagnetic Sources), 2017, págs. 518-525
Idioma: inglés
Enlaces
- Texto completo
Resumen
- Purpose – This paper aims to analyze the conical-shaped compensator applied to infrared (IR) thermometry for planar materials.
  
  Design/methodology/approach – The compensator for the IR thermometry system has been analyzed by means of numerical simulations performed in a commercial finite element analysis tool. Afterwards, the characteristics of a final system have been proposed. The simulation results have been validated by means of experimental measurements performed in a prototype of the proposed system.
  
  Findings – The proposed conical shape geometry of the compensator is suitable to reduce the errors associated with the temperature estimation by IR thermometry when emissivity of the material is not known with adequate accuracy.
  
  Practical implications – This work proposed an arrangement of conical-shaped compensator to increase the precision in the IR radiation thermometry of planar materials.
  
  Originality/value – In this paper, the conical shape geometry is proposed instead of the classical semi-spherical geometry for the compensator of an IR radiation thermometry system with the purpose of reducing the thickness of the complete system. This new proposal can be advantageous when geometrical constraints are imposed.