Finite element modeling of thermal stability and quench propagation in a pancake coil of PbBi2223 tapes
Finite element modeling of thermal stability and quench propagation in a pancake coil of PbBi2223 tapes
The initiation and propagation of quench events in a high temperature superconducting (HTS) pancake coil were modeled using finite element software package ANSYS. The nonlinear temperature dependent heat generation in HTS composite over a wide current sharing range is calculated based on power-law E-J characteristics with temperature dependence of the n-value and critical current density. Thermal properties of the HTS composite and coil sections were measured and compared with estimated values based on data for individual coil components and the fill factor of the coil construct. The effect of replacing the complex coil winding structure with an effective continuum was investigated by examining the normal zone temperature profiles and minimum quench energy (MQE). With reducing operating temperature from 77 K to 30 K, MQE reduces correspondingly from 30 J to 15 J. Simulation results are found in satisfactory agreement with experimental results from a test coil wound with PbBi2223 tape.
finite element methods, minimum quench energy, normal zone quench
1647-1650
Huang, Taotao
05cd33eb-8799-4539-b2f7-2828d79118b3
Johnstone, A.
9d1c14be-3ad6-471f-aba8-f9a82efae4af
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Beduz, C.
2cbc6ece-3e8b-454b-86d6-3960596bd234
Friend, C.
b772838d-746b-4160-b248-0a3bd94881da
2005
Huang, Taotao
05cd33eb-8799-4539-b2f7-2828d79118b3
Johnstone, A.
9d1c14be-3ad6-471f-aba8-f9a82efae4af
Yang, Yifeng
4cac858a-e0c0-4174-a839-05ca394fc51f
Beduz, C.
2cbc6ece-3e8b-454b-86d6-3960596bd234
Friend, C.
b772838d-746b-4160-b248-0a3bd94881da
Huang, Taotao, Johnstone, A., Yang, Yifeng, Beduz, C. and Friend, C.
(2005)
Finite element modeling of thermal stability and quench propagation in a pancake coil of PbBi2223 tapes.
IEEE Transactions on Applied Superconductivity, 15 (2, Part 2), .
(doi:10.1109/TASC.2005.849220).
Abstract
The initiation and propagation of quench events in a high temperature superconducting (HTS) pancake coil were modeled using finite element software package ANSYS. The nonlinear temperature dependent heat generation in HTS composite over a wide current sharing range is calculated based on power-law E-J characteristics with temperature dependence of the n-value and critical current density. Thermal properties of the HTS composite and coil sections were measured and compared with estimated values based on data for individual coil components and the fill factor of the coil construct. The effect of replacing the complex coil winding structure with an effective continuum was investigated by examining the normal zone temperature profiles and minimum quench energy (MQE). With reducing operating temperature from 77 K to 30 K, MQE reduces correspondingly from 30 J to 15 J. Simulation results are found in satisfactory agreement with experimental results from a test coil wound with PbBi2223 tape.
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Published date: 2005
Keywords:
finite element methods, minimum quench energy, normal zone quench
Identifiers
Local EPrints ID: 23638
URI: http://eprints.soton.ac.uk/id/eprint/23638
ISSN: 1051-8223
PURE UUID: c7e571ec-6e5c-4564-9132-2446a9b92e37
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Date deposited: 20 Mar 2006
Last modified: 16 Mar 2024 02:44
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Contributors
Author:
Taotao Huang
Author:
A. Johnstone
Author:
C. Beduz
Author:
C. Friend
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