000119840 001__ 119840
000119840 005__ 20190228220127.0
000119840 0247_ $$2doi$$a10.1016/S0920-3796(01)00570-1
000119840 022__ $$a0920-3796
000119840 02470 $$2DAR$$a778
000119840 02470 $$a000172991100026$$2ISI
000119840 037__ $$aARTICLE
000119840 245__ $$aTest program preparations of the ITER toroidal field model coil (TFMC)
000119840 260__ $$c2001
000119840 269__ $$a2001
000119840 336__ $$aJournal Articles
000119840 520__ $$aThe preparative experimental and analysis work as well as the code development for testing the ITER (International Thermonuclear Experimental Reactor) TFMC, one of the large projects of the ITER research and development programme, is described. The expected critical currents of the Nb3Sn superconducting cable are derived from the numerous short sample strand and subcable measurements. A data set of the thermo-hydraulic properties of the bundle conductor with a central channel was elaborated in experiments as an input for the thermo-hydraulic calculation codes GANDALF and MITHRANDIR combined with the hydraulic network code FLOWER. On this basis, the quench behaviour and the injection of gaseous heated helium slugs for determining the operation limits are treated. The mechanical behaviour of the test configuration was investigated by a finite element calculation. The winding type in which the conductor is embedded in radial plates has to be considered for transient voltage peaks as an electrical network. Arising over-voltages by resonance frequencies in the winding pack have to be considered for the integration of the electrical insulation system of the TFMC. Numerous sensors are installed to compare the predicted values and behaviour with the measurements. (C) 2001 Elsevier Science B.V. All rights reserved.
000119840 6531_ $$aITER
000119840 700__ $$aDuchateau, J. L.
000119840 700__ $$aFillunger, H.
000119840 700__ $$aFink, S.
000119840 700__ $$aHeller, R.
000119840 700__ $$aHertout, P.
000119840 700__ $$aLibeyre, P.
000119840 700__ $$aMaix, R.
000119840 700__ $$0240107$$g105759$$aMarinucci, C.
000119840 700__ $$aMartinez, A.
000119840 700__ $$aMeyder, R.
000119840 700__ $$aNicollet, S.
000119840 700__ $$aRaff, S.
000119840 700__ $$0242241$$g177793$$aRicci, M.
000119840 700__ $$aSavoldi, L.
000119840 700__ $$aUlbricht, A.
000119840 700__ $$aWuechner, F.
000119840 700__ $$aZahn, G.
000119840 700__ $$aZanino, R.
000119840 773__ $$j58-9$$tFusion Engineering and Design$$q147-151
000119840 909CO $$pSB$$particle$$ooai:infoscience.tind.io:119840
000119840 909C0 $$pCRPP
000119840 909C0 $$0252028$$pSPC$$xU12272$$xU12268$$xU10558$$xU10635$$xU12266$$xU10636$$xU10137$$xU12270$$xU10557$$xU12273$$xU10559$$xU12271$$xU12269$$xU12267$$xU10136
000119840 937__ $$aCRPP-ARTICLE-2001-054
000119840 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000119840 980__ $$aARTICLE