Computational techniques for efficient analysis of large halo current models in fusion devices

R Albanese; Bruno Carpentieri; G Rubinacci; S Ventre; F Villone

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Computational techniques for efficient analysis of large halo current models in fusion devices

Conference proceeding

Peer reviewed

Computational techniques for efficient analysis of large halo current models in fusion devices

R Albanese, Bruno Carpentieri, G Rubinacci, S Ventre and F Villone

2013 Computational Electromagnetics Workshop (CEM): 2 - 5 Aug. 2013, Izmir, Turkey, pp.40-41

Computational Electromagnetics International Workshop (CEM 2013) (Izmir, 02/08/2013 - 05/08/2013)

2013

Handle:

https://hdl.handle.net/10863/15266

Abstract

One of the main concerns in a tokamak is the risk of disruptions with asymmetric halo currents flowing partially in the plasma and partially in the surrounding structures. A detailed 3D description of the full torus is therefore needed. This paper proposes a method for the 3D halo current analysis based on an integral formulation, exploiting compression techniques, parallel architectures, and suitable preconditioners. The procedure is shown to work in an ITER-like geometry.

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https://ieeexplore.ieee.org/abstract/document/6617126View

Details

Title: Computational techniques for efficient analysis of large halo current models in fusion devices
Creators: R Albanese
Bruno Carpentieri
G Rubinacci
S Ventre
F Villone
Publication Details: 2013 Computational Electromagnetics Workshop (CEM): 2 - 5 Aug. 2013, Izmir, Turkey, pp.40-41
Editor(s): IEEE
ISBN: 9781479914326
EISBN: 9781479914340
Conference: Computational Electromagnetics International Workshop (CEM 2013) (Izmir, 02/08/2013 - 05/08/2013)
Publisher: IEEE
Piscataway, NJ
Identifiers: 978-1-4799-1432-6
(UNIBZ)31253055
991005772324001241
Web of Science ID: 000335000400017
Scopus ID: 2-s2.0-84890362846
Academic Unit: Faculty of Computer Science
Language: English
Resource Type: Conference proceeding
Author Names String: Albanese R, Carpentieri B, Rubinacci G, Ventre S, Villone F
Additional Description: srcEditors: IEEE

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