The The analysis of the metrological properties of contact temperature measurement with the use of selected statistical methods

Authors

  • Dariusz Michalski Kielce University of Technology
  • Beata Maciejewska Kielce University of Technology
  • Magdalena Piasecka Kielce University of Technology
  • Norbert Dadas Kielce University of Technology
  • Artur Piasecki Kielce University of Technology

Abstract

In this study, the uncertainty of measurement paths was estimated using selected statistical methods. Specifically, temperature measurements obtained from contact temperature sensors used in a heat transfer test section were investigated. The experiments utilized a dry-well temperature calibrator, thermoelements (types K, J, N, and T), and a data acquisition station. Additionally, a certified Pt-100 resistance sensor connected to the temperature meter was considered during measurements. The temperature range for the selected measurement points was 0.3 to 100 °C, covering both increasing and decreasing temperatures. To calculate the expanded uncertainty, both the uncertainty propagation method and the Monte Carlo method were employed. The results were analyzed and found to be similar.

Additional Files

Published

2024-07-18

Issue

Section

Metrology, Measurement Science