Published July 26, 2023
| Version v1
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Technical drawings for the production of dual-type temperature probes
Creators
- Sestan, Danijel1
- Zvizdic, Davor1
- Matas, Ivan1
- Arifovic, Narcisa2
- Thurzo-Andras, Emese3
- Spasova, Snezhana4
- Nedialkov, Sasho4
- Aldev, Kostadin4
- Neagu, Dumitru5
- Stratulat, Camelia5
- Strnad, Radek6
- Strnadová, Lenka6
- Šindelárová, Lenka6
- Cohodarevic, Semir7
- Mutapcic, Nedzadeta7
- Lulić, Haris7
- Opel, Karsten8
- Olsen, Age Andreas Falnes8
- Buzuc, Grigore9
- Bordianu, Constantin9
- Vukicevic, Tanja10
- 1. University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture - Laboratory for Process Measurement, Zagreb, Croatia
- 2. Turkiye Bilimsel ve Teknolojik Arastirma Kurumu, Gebze/Kocaeli, Turkey
- 3. Budapest Főváros Kormányhivatala, Budapest, Hungary
- 4. Bulgarian Institute of Metrology, Sofia, Bulgaria
- 5. Biroul Roman de Metrologie Legala, București, România
- 6. Cesky Metrologicky Institut, Praha, Czech Republic
- 7. Institut za mjeriteljstvo Bosne i Hercegovine, Sarajevo, Bosna i Hercegovina
- 8. Justervesenet, Kjeller, Norway
- 9. I.P. Institutul Naţional de Metrologie, Chişinău, Republic of Moldova
- 10. Zavod za metrologiju Crne Gore, Montenegro
Description
Technical drawings for manufacturing prototypes of dual-type temperature probes that were used for testing the new concept of dual-type thermometers. Dual-type thermometers enable in-situ determination of thermocouple drift. The basic idea behind the concept is that thermocouple drift can be continuously monitored in situ by placing an additional and different temperature sensor in close proximity. The essential requirement for this additional sensor is that it experiences a drift that is lower than the drift of the monitored thermocouple. A drift of a thermocouple can be determined by an algorithm that monitors, and over time compares, the differences in its temperature readings and the readings of an additional (reference) sensor.
Notes
The design of dual-type temperature probes and testing of their performances was carried out within the EMPIR project "Traceable measurement capabilities for monitoring thermocouple performance" 18RPT03 MetForTC. The EMPIR initiative is co-funded by the European Union's Horizon 2020 research and innovation program and the EMPIR Participating States.
Files
MetForTC - Dual Type Temperature Probe Assembly - PT100 and TC_K0.2 - 2023-07-26.pdf
Files
(32.8 MB)
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