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AbstractAbstract
[en] Within an indirectly heated electric fuel pin simulator (EFPS), the influence of the radial position of a thermocouple bead on its ability to resolve rapid oscillatory surface temperatures and on the first-order time response of its signal is investigated numerically through solutions of the transient forward heat conduction problem. Higher-order time response theory is incorporated to examine analytically (1) the time responses of thermocouple beads located near the centerline of the EFPS and (2) the overall EFPS time response resulting from certain classes of surface phenomena
Original Title
PWR
Primary Subject
Source
McCulloch, R.W. (comp.); Oak Ridge National Lab., TN (USA); p. 639-662; May 1981; p. 639-662; International symposium on fuel rod simulators-development and application; Gatlinburg, TN, USA; 22 - 24 Oct 1980; Available from NTIS., PC A99/MF A01
Record Type
Report
Literature Type
Conference
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