Title :
Feasibility Studies of the ITER Cryogenic System at KSTAR
Author :
Chang, Hung-Shuo ; Forgeas, A. ; Vincent, G. ; Maekawa, R. ; Serio, L. ; Park, Y.-M. ; Cho, K.-W. ; Park, D.-S. ; Joo, J.-J. ; Moon, K.-M. ; Kalinin, V.
Author_Institution :
ITER Organ., St. Paul-lez-Durance, France
fDate :
6/1/2012 12:00:00 AM
Abstract :
One of the main challenges of the ITER cryogenic system is to manage the large pulsed heat load variation generated by the superconducting magnet system during the fusion experiments. A solution proposed to smooth such pulses and verified by numerical simulations is to use the ITER magnet structure (ST) system as a thermal buffer by taking advantage of its large mass of about 5,000 tons and consequent thermal inertia. In order to validate the simulated predictions, tests have been executed on existing cryogenic facilities. In this paper we will present the results of the ITER cryogenic system feasibility tests performed at KSTAR. The tests were concentrated on the heat load mitigation scenario of the ITER ST via variation of the coolant mass flow rate by using a flow by-pass valve in parallel with an in-line valve.
Keywords :
numerical analysis; superconducting magnets; ITER cryogenic system; ITER magnet structure system; KSTAR; cryogenic facilities; fusion experiments; numerical simulations; superconducting magnet system; thermal buffer; thermal inertia; Circulators; Cryogenics; Heating; Superconducting magnets; Temperature sensors; Toroidal magnetic fields; Valves; Cold circulator; Tokamak; fusion; mitigation; pulsed heat load; superconducting magnets; thermal buffer;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2011.2177952
