4.5 Article

A triple point of water cell-based fixed-point blackbody for radiation thermometry

Journal

MEASUREMENT SCIENCE AND TECHNOLOGY
Volume 34, Issue 3, Pages -

Publisher

IOP Publishing Ltd
DOI: 10.1088/1361-6501/aca9e8

Keywords

radiation thermometer; thermodynamic temperature; fixed-point blackbody; the triple point of water; cavity; ice point

Ask authors/readers for more resources

Metrology of radiation temperature above 150 degrees C relies on physical interpolation equations and fixed-point blackbodies. Recent advancements extend the scale interpolation to 0 degrees C using reference temperatures provided by Sn, In, Ga fixed-points and ice-point. This work demonstrates the use of triple-point of water (TPW) based fixed-point blackbody as an alternative to ice-point, enabling precise calibration of radiation thermometers and thermal cameras.
The radiation temperature metrology above 150 degrees C relies heavily on the use of physical interpolation equations and known reference temperature (provided by solid-liquid phase transition of high-purity metals and metal-carbon eutectic alloys) fixed-point blackbodies. Recent achievements in thermal infrared detector technologies triggered the extension of the scale interpolation below this temperature down to 0 degrees C by using the reference temperatures provided by Sn, In, Ga fixed-points and ice-point, where the reference temperature of the later is dependent on external parameters. In this work, we demonstrate that the triple-point of water (TPW) based fixed-point blackbody is the metrologically grounded alternative to the ice-point. For this purpose, a fixed-point blackbody, incorporating only a cavity and large area TPW (LATPW) cell was designed, constructed, and validated for the precise calibration of radiation thermometers (RTs) and thermal cameras at the thermodynamic temperature of TPW. The conceptual design of the LATPW cells is similar to the ones used in contact thermometry, where a thermometer well of the cell is employed as a borehole for a cavity, where the cavity is easily detachable. Four different cavities (two different designs with aperture sizes of 40 mm and 50 mm) and three LATPW cells with two distinct well geometries were comparatively studied in several combinations. The largest absolute temperature difference observed between the primary level reference TPW cell (used in contact thermometry) and the LATPW cells is measured to be only 0.37 mK. Radiometric measurements demonstrate that all radiators maximally reflect the blackbody condition including emissivity close to unity, high uniformity across the aperture and high temporal stability. The simplicity of maintenance and easy in-field usage (only distilled water and dry ice are required) make the TPW blackbodies very versatile for the in-situ calibrations of RTs and thermal cameras, allowing its application in many areas including clinical environments.

Authors

I am an author on this paper
Click your name to claim this paper and add it to your profile.

Reviews

Primary Rating

4.5
Not enough ratings

Secondary Ratings

Novelty
-
Significance
-
Scientific rigor
-
Rate this paper

Recommended

No Data Available
No Data Available