Distributed temperature sensing inside a 19-rod bundle

Abstract

The temperature field within a model of a sodium-cooled fast reactor fuel rod bundle was measured using Ø155μm fiber optic distributed temperature sensors (DTS). The bundle consists of 19 electrically-heated rods Ø6.3mm and 865mm long. Working fluids were argon and air at atmospheric pressure and Reynolds numbers up to 300. A 20m-long DTS was threaded through Ø1mm capillaries wound around rods as wire-wraps. The sensor generated 173 measurements along each rod at 5mm resolution for a total of 3300 data locations. A second DTS, 58m long, was suspended between rods to provide 9300 fluid temperature measurements at 20mm resolution. Such data density makes it possible to construct 3D maps of the temperature field that are beyond the reach of traditional sensors such as thermocouples. This is illustrated through a series of steady-state and transient tests. The work demonstrates the feasibility of mapping temperature within the close confines of a rod bundle at resolutions suitable for validation of computational fluid dynamics codes.