Community Research and Development Information Service - CORDIS

Abstract

The FTU Tokamak, in order to reach the expected performance, will have to operate steadily at high magnetic fields. Its vacuum chamber will undergo very high stresses due to thermal and electromagnetic loads for a large number of shots. In order to assess the feasibility of this component, numerical codes to compute current, magnetic field and temperature distributions and extensive three-dimensional finite element stress analysis have been developed. The main results obtained are illustrated.

Additional information

Authors: ANDREANI R, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);BETTINALI L, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);CECCHINI A, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);DI PIETRO E, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);DE VELLIS A, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);GASPAROTTO M, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);LOVISETTO L, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);MIGLIORI S, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);PIZZUTO A, ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY);ROCCELLA M ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY), ENEA, CENTRO RICERCHE ENERGIA FRASCATI (ITALY)
Bibliographic Reference: 11TH SYMPOSIUM FUSION ENGINEERING, AUSTIN, TEXAS (USA), NOV. 18-22, 1985 PP. 1-10 WRITE TO SERVIZIO STUDI E DOCUMENTAZIONE + ENEA, CENTRO RICERCHE ENERGIA FRASCATI, C.P. 65 + 00044 FRASCATI, ROMA (ITALY), MENTIONING REPORT RT-FUS-85-14, 1985
Record Number: 1989124116700 / Last updated on: 1987-01-01
Category: PUBLICATION
Available languages: en