In moving towards ITER operation, the detailed analysis of fault conditions for the magnets becomes of increasing importance, to verify that the magnet protection system can safely manage them without any damage to the magnets. A “protected” Loss of Flow Accident in the ITER Toroidal Field (TF) coils, de-tected by the coil flow meters and managed by the Central Inter-lock System, is investigated here using the validated thermal-hydraulic code 4C. We simulate the entire sequence of events that is foreseen to protect the magnet, aiming at verifying the impact on the magnet. The LOFA consequences are investigated in terms of both the temperature margin in the winding pack and of the needed re-cooling time, which will affect the availability of the machine. It turns out that, for an “accelerated” discharge (i.e., a linear ramp-down) of the magnet current lasting less than 30 min, no quench should occur, while the corresponding re-cooling time should not exceed 1h. During the transient, ~ 10% of the He mass in the coil is vented to the quench tank due to the opening of the safety valves, and requires re-cooling.
Analysis of a protected Loss Of Flow Accident (LOFA) in the ITER TF coil cooling circuit / Savoldi, Laura; Bonifetto, Roberto; Pedroni, Nicola; Zanino, Roberto. - In: IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. - ISSN 1051-8223. - STAMPA. - 28:3(2018), p. 4202009. [10.1109/TASC.2017.2786688]
Analysis of a protected Loss Of Flow Accident (LOFA) in the ITER TF coil cooling circuit
Savoldi, Laura;Bonifetto, Roberto;Pedroni, Nicola;Zanino, Roberto
2018
Abstract
In moving towards ITER operation, the detailed analysis of fault conditions for the magnets becomes of increasing importance, to verify that the magnet protection system can safely manage them without any damage to the magnets. A “protected” Loss of Flow Accident in the ITER Toroidal Field (TF) coils, de-tected by the coil flow meters and managed by the Central Inter-lock System, is investigated here using the validated thermal-hydraulic code 4C. We simulate the entire sequence of events that is foreseen to protect the magnet, aiming at verifying the impact on the magnet. The LOFA consequences are investigated in terms of both the temperature margin in the winding pack and of the needed re-cooling time, which will affect the availability of the machine. It turns out that, for an “accelerated” discharge (i.e., a linear ramp-down) of the magnet current lasting less than 30 min, no quench should occur, while the corresponding re-cooling time should not exceed 1h. During the transient, ~ 10% of the He mass in the coil is vented to the quench tank due to the opening of the safety valves, and requires re-cooling.File | Dimensione | Formato | |
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J47_2018_TAS_ITER_TF_protectedLOFA_AuthorPostprint.pdf
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https://hdl.handle.net/11583/2696269
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