论文信息 - Unbiased Thermocouple Sensor Characterisation in Variable Flow Environments

Unbiased Thermocouple Sensor Characterisation in Variable Flow Environments

Abstract A novel two-thermocouple sensor characterisation method for use in variable velocity flow environments is described. A difference equation method, recently developed by the authors for constant velocity flow applications, is extended to accommodate variable velocity flows using polynomial parameter fitting on a sliding data window. In particular, by using a novel difference equation formulation the invariance of time-constant ratio with respect to flow velocity is exploited to produce an efficient unbiased and consistent time-constant estimator. Monte-Carlo simulation studies show that the new algorithm outperforms alternatives in the literature without the restrictive requirement of a priori knowledge of thermocouple time constant ratios.

George W. Irwin | Seán McLoone | Robert Kee | Peter C. Hung

[1] Sabine Van Huffel,et al. Total least squares problem - computational aspects and analysis , 1991, Frontiers in applied mathematics.

[2] G. C. Fralick,et al. Three‐wire thermocouple: Frequency response in constant flow , 1994 .

[3] George W. Irwin,et al. A total least squares approach to sensor characterisation , 2003 .

[4] George W. Irwin,et al. Difference equation approach to two-thermocouple sensor characterization in constant velocity flow environments , 2005 .

[5] Robert Fleck,et al. Measurement of Exhaust Gas Temperatures in a High Performance Two-Stroke Engine , 1998 .

[6] Masato Tagawa,et al. Two-thermocouple probe for fluctuating temperature measurement in combustion : Rational estimation of mean and fluctuating time constants , 1997 .