000217216 001__ 217216
000217216 005__ 20190228220105.0
000217216 0247_ $$2doi$$a10.1109/TASC.2014.2365872
000217216 022__ $$a1558-2515
000217216 037__ $$aARTICLE
000217216 245__ $$aDC Performance Results Versus Assessment of ITER Main Busbar NbTi Conductors
000217216 260__ $$c2015
000217216 269__ $$a2015
000217216 336__ $$aJournal Articles
000217216 520__ $$aFour ITER main busbar (MB) conductor samples were tested in the SULTAN test facility (Centre de Recherches en Physique des Plasma, Ecole Polytechnique Fédérale de Lausanne, Switzerland) between 2011 and 2013. The MB conductors are NbTi-based cable-in-conduit conductors (CICCs), and they will become part of the feeder system of the ITER magnets. The measured dc performance of the four MB samples varied significantly, supposedly depending on the design of the bottom terminations. Two out of three samples with a U-bend box, made of a continuous conductor section, exhibit approximately 0.5 K lower current-sharing temperature Tcs than the sample with a solder-filled bottom joint, consisting of two straight conductor sections. We assess the theoretically expected Tcs performance of the MB conductor based on the characterization of individual NbTi strands, on the ITER NbTi scaling law, and on the magnetic field distribution across the cable cross section. The magnetic field in a SULTAN sample consists of three components, namely, the background SULTAN field, the self-field generated by the current in the conductor under test, and the magnetic field generated by the current in the return conductor. Taking into account all the three components, we calculate the average electric field in the cable and determine Tcs as in the experiment, namely, as the temperature at which the electric field reaches the critical value of Ec=0.1 μV/cm. The theoretically assessed Tcs confirms that the MB sample with solder-filled joint behaves as expected.
000217216 6531_ $$aITER Main Busbar Conductors Facility Test cable-in-conduit
000217216 700__ $$aSedlak, Kamil
000217216 700__ $$aBruzzone, Pierluigi
000217216 700__ $$aDevred, Arnaud
000217216 700__ $$aLiu, Bo
000217216 700__ $$aLong, Feng
000217216 700__ $$aStepanov, Boris
000217216 700__ $$aVostner, Alexander
000217216 700__ $$aWesche, Rainer
000217216 700__ $$aWu, Yu
000217216 773__ $$j25$$tIEEE Transactions on Applied Superconductivity$$k3$$q1-4
000217216 909CO $$ooai:infoscience.tind.io:217216
000217216 909C0 $$0252028$$pSPC
000217216 909CO $$pSB$$particle
000217216 909C0 $$xU12272$$xU12268$$xU10558$$xU10635$$xU12266$$xU10636$$xU10137$$xU12270$$xU10557$$xU12273$$xU10559$$xU12271$$xU12269$$xU12267$$xU10136
000217216 917Z8 $$x252094
000217216 937__ $$aEPFL-ARTICLE-217216
000217216 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000217216 980__ $$aARTICLE