Löhle Stefan, Battaglia Jean-Luc, Batsale Jean-Christophe, Enouf Olivier, Dubard Jimmy, Filtz Jean-Remy
TREFLE Université de Bordeaux I, Esplanade des Arts et Métiers, 33405 Talence, France.
Rev Sci Instrum. 2007 May;78(5):053501. doi: 10.1063/1.2736388.
A method to calibrate classical heat flux sensors is presented. The classical approach to measure the temperature inside a known material by using a thermocouple fails when the measurement time is very short. In this work the surface heat flux is determined by solving the inverse heat conduction problem using a noninteger identified system as a direct model for the estimation process. Using short pulse laser calibration measurements the crucial design aspects of the sensor that play a significant role when assuming one-dimensional, semi-infinite heat transfer have been accounted for. The theoretical approach as well as the calibration results are presented and comparisons to the classical approach and results from finite element modeling are shown. It is concluded that the new method ameliorate the heat flux sensor significantly and extend its application to very short measurement times.
提出了一种校准经典热通量传感器的方法。当测量时间非常短时,使用热电偶测量已知材料内部温度的经典方法就会失效。在这项工作中,通过使用非整数识别系统作为估计过程的直接模型来求解逆热传导问题,从而确定表面热通量。利用短脉冲激光校准测量,考虑了在假设一维、半无限热传递时起重要作用的传感器关键设计方面。给出了理论方法和校准结果,并与经典方法以及有限元建模结果进行了比较。得出的结论是,新方法显著改善了热通量传感器,并将其应用扩展到非常短的测量时间。