2015 4th International Conference on Advancements in Nuclear Instrumentation Measurement Methods and Their Applications (ANIMMA 2015
DOI: 10.1109/animma.2015.7465292
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Low drift type N thermocouples in out-of-pile advanced gas reactor mock-up test: Metallurgical analysis

Abstract: Thermocouples are the most commonly used sensors for temperature measurement in nuclear reactors. They are crucial for the control of current nuclear reactors and for the development of GEN IV reactors. In nuclear applications thermocouples are strongly affected by intense neutron fluxes. As a result of the interaction with neutrons, the thermoelements of the thermocouples undergo transmutation, which produces a time dependent change in composition and, as a consequence, a time dependent drift of the thermocou… Show more

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Cited by 2 publications
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“…(INL) [112] has shown the superiority of the performance of the Cambridge design with respect to the standard construction of type N thermocouples: after 2060 h at 1157°C, the special sheath Cambridge thermocouples had drifted an average of only 4°C, and after an additional 2000 h at 1207°C, the total drift was about 15°C. The metallurgical analysis presented in [113] shows that, at 1300°C, Cr and Fe and also Mn and Al are transferred from the Inconel sheath to the Nicrosil and Nisil thermoelements, while the Cr contamination to Nisil (the most responsible for the drift) is much reduced with the Cambridge special sheath, and the Fe and Mn contaminations to Nisil have disappeared.…”
Section: Reducing the Drift Of N Type Thermocouples With The Cambridgmentioning
confidence: 99%
“…(INL) [112] has shown the superiority of the performance of the Cambridge design with respect to the standard construction of type N thermocouples: after 2060 h at 1157°C, the special sheath Cambridge thermocouples had drifted an average of only 4°C, and after an additional 2000 h at 1207°C, the total drift was about 15°C. The metallurgical analysis presented in [113] shows that, at 1300°C, Cr and Fe and also Mn and Al are transferred from the Inconel sheath to the Nicrosil and Nisil thermoelements, while the Cr contamination to Nisil (the most responsible for the drift) is much reduced with the Cambridge special sheath, and the Fe and Mn contaminations to Nisil have disappeared.…”
Section: Reducing the Drift Of N Type Thermocouples With The Cambridgmentioning
confidence: 99%