Modelling of thermal effects in a slim tin fixed-point cell

• Published in: International journal of metrology and quality engineering Vol. 10; p. 17
• Main Authors: Carvajal, Sergio A., Ramírez, J. Herney, Bohórquez, Andrés J., Sánchez, Ciro A.
• Format: Journal Article
• Language: English
• Published: Les Ulis EDP Sciences 2019
• Subjects: Conduction heating; Design parameters; Heat flux; Industrial applications; its-90; Latent heat; modeling; Numerical models; Resistance thermometers; slim fixed-point; Temperature effects; thermal effects; Thermometers; Transient heat transfer; Two dimensional models
• ISSN: 2107-6847; 2107-6839; 2107-6847
• DOI: 10.1051/ijmqe/2019017

Slim fixed-point cells are an economic and suitable alternative for calibration of industrial platinum resistance thermometers, which are widely used in research and industrial applications. The most relevant disadvantage of slim cells is related with thermal effects produced by interactions between the cell and the furnace used for the realization of the fixed-points. This work presents the implementation of a two-dimensional numerical model that considers the transient heat transfer due to conduction, radiation and latent heat. The main goal was to evaluate different geometrical parameters in the design of slim fixed-point cells. Results show that thermal effects are mitigated when the annular distance between interior and exterior walls of the crucible is maximum, while the length of the cell and the thermo-well must be setup according to the temperature gradients in the furnace to avoid undesirable heat fluxes.