Development and characterisation of a bath-based vertical blackbody cavity calibration source for the range −30°C to 150°C

•An immersible vertical blackbody radiance temperature source design is presented.•Vertical cavities are a flexible, low-cost alternative to horizontal cavities.•Comparison measurements of horizontal and vertical cavities were conducted.•Expanded uncertainties (k=2) ranged from 0.66°C to 0.34°C.•Ver...

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Bibliographic Details
Published inMeasurement : journal of the International Measurement Confederation Vol. 106; pp. 121 - 127
Main Authors Boles, Sam, Pušnik, Igor, Lochlainn, Dubhaltach Mac, Fleming, David, Naydenova, Izabela, Martin, Suzanne
Format Journal Article
LanguageEnglish
Published London Elsevier Ltd 01.08.2017
Elsevier Science Ltd
Subjects
Black body radiation
Blackbody cavity
Blackbody orientation
Calibration
Holes
Industrial applications
Infrared thermometer
Measurement
Plating baths
Platinum
Pyrometers
Radiation sources
Radiation thermometer
Resistance thermometers
Spectral sensitivity
Temperature
Thermal baths
Thermometers
Vertical orientation
Blackbody orientation
Blackbody cavity
Infrared thermometer
Calibration
Radiation thermometer
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Summary:•An immersible vertical blackbody radiance temperature source design is presented.•Vertical cavities are a flexible, low-cost alternative to horizontal cavities.•Comparison measurements of horizontal and vertical cavities were conducted.•Expanded uncertainties (k=2) ranged from 0.66°C to 0.34°C.•Vertical cavities are a valid method for achieving traceability to ITS-90. Industrial use of Radiation Thermometers (RTs) is becoming increasingly common due to the perceived advantages and wide market availability. Blackbody Cavity Radiation Sources (BCRSs) are typically used for calibration of these instruments, and these cavities are oriented horizontally in most cases. For BCRSs based in thermal baths, this necessitates the use of custom-built baths with side openings. This paper presents a unique design of vertical bath-based BCRS that may be immersed in conventional calibration baths without modifications to the baths. The method, results, and analysis of an international comparison comparing this vertical BCRS, standard horizontal BCRSs, and a previous iteration of the vertical design of BCRS are also presented. The comparison was conducted through collaboration between the Laboratory of Metrology and Quality, Slovenia (LMK) and the National Standards Authority Ireland (NSAI), with the intention of evaluating the suitability of the vertical orientation for calibration work. Transfer pyrometers and Standard Platinum Resistance Thermometers (SPRTs) were used as comparison standards. The transfer pyrometers used have spectral sensitivity from 8μm to 14μm in this temperature range. It was found that the vertical orientation was comparable to within 0.25°Cthroughout the range to standard horizontal cavities. It was concluded that a vertical configuration is an economical alternative for calibration of RTs within the range assessed.
ISSN:0263-2241
1873-412X
DOI:10.1016/j.measurement.2017.03.023