20 March 1985 An Improved Method Of Multi-Wavelenth Pyrometry
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Abstract
It is demonstrated that the temperature of a thermal radiator can be determined by curve fitting techniques using multiple spectral radiance measurements without prior knowledge of the emissivity of the source. This new passive measurement technique assumes only that a smooth function exists between spectral emissivity and wavelength. The spectral radiance values are fitted to a Planck radiation law relation to yield the temperature of the source. Error analysis shows that relative errors in the temperature measurements are generally an order of magnitude less than in the spectral radiance measurements and in the simultaneously calculated spectral emissivity values. Computer simulations are included which show the effects of varying different parameters, such as the number of data pairs, the wavelength range, the spectral emissivity behavior, the source temperature, and the measurement noise, on the accuracy of the temperature determination. Experimental confirmation of this technique is presented showing temperature measurements within 1% of the actual temperatures on a platinum surface within a temperature range of 1273-1724 K.
© (1985) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Gordon B. Hunter, Charly D. Allemand, Thomas W. Eagar, "An Improved Method Of Multi-Wavelenth Pyrometry", Proc. SPIE 0520, Thermosense VII: Thermal Infrared Sensing for Diagnostics and Control, (20 March 1985); doi: 10.1117/12.946129; https://doi.org/10.1117/12.946129
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