Title :
Helium Flow and Temperature Distribution in a Heated Dual-Channel CICC Sample for ITER
Author :
Herzog, Robert ; Lewandowska, Monika ; Bagnasco, Maurizio ; Calvi, Marco ; Marinucci, Claudio ; Bruzzone, Pierluigi
Author_Institution :
Fusion Technol., EPFL-CRPP, Villigen, Switzerland
fDate :
6/1/2009 12:00:00 AM
Abstract :
A spare, 3.5 m long dual-channel cable-in-conduit conductor (CICC) section, made according to the most recent ITER toroidal-field coil design, allowed conducting dedicated thermo-hydraulic experiments in the SULTAN test facility. The sample was heated by eddy-current losses induced in the strands by an applied AC magnetic field as well as by strip heaters mounted on the outside of the conductor jacket. Temperature sensors mounted on the jacket surface, in the central channel and at different radii in the annular region revealed a detailed picture of the temperature distribution at different mass flow rates and heat deposition modes. A clear phenomenological description of the temperature deviations from the one-dimensional expectation emerged during the experiments. The measurement of the flow velocities in the central channel and in the annular region under several heat-load conditions led to further insights.
Keywords :
Tokamak devices; channel flow; fusion reactor design; fusion reactor materials; niobium alloys; plasma toroidal confinement; superconducting cables; superconducting coils; temperature sensors; tin alloys; AC magnetic field; CICC; ITER design; Nb3Sn; SULTAN test facility; cable-in-conduit conductor; channel flow; eddy-current losses; flow velocity measurement; heat deposition modes; mass flow rates; phenomenological description; superconductor coil; temperature distribution; temperature sensors; thermo-hydraulic experiments; toroidal-field coil; Cable-in-conduit conductors; ITER; superconducting cables; thermo-hydraulic behavior;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2009.2018751
