EPJ Web of Conferences (Jan 2021)

Characterization of calorimeter responses under laboratory conditions thanks to an optimized transient thermal test bench

  • Rebaud J.,
  • Volte A.,
  • Carette M.,
  • Lyoussi A.,
  • Kohse G.,
  • Prokopowicz R.,
  • Reynard-Carette C.

DOI
https://doi.org/10.1051/epjconf/202125304017
Journal volume & issue
Vol. 253
p. 04017

Abstract

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This paper presents an experimental study of the calibration of a non-adiabatic single-cell calorimeter called KAROLINA. This type of sensor is used to quantify the nuclear heating rate inside MTRs (Material Testing Reactors). The calibration of this sensor type is carried out in laboratory conditions without irradiation. The calibration corresponds to a preliminary step, which is crucial to use this sensor in real conditions. In the case of the studied single-cell calorimeter owning no heating element, the calibration is realized with a specific test bench, called BERTAN, based on thermal transient regimes. First of all, the paper describes the methodology of the determination of the calorimeter sensitivity and the dedicated experimental set-up developed recently. Then the paper is devoted to a parametric study carried out on the KAROLINA single-cell calorimeter to determine the influence of several parameters on its thermal time constant (temperature, velocity, phase, method).

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