TY - JOUR
T1 - Operation of an SCFCL at 65 K
AU - Tixador, Pascal
AU - Vialle, J.
AU - Badel, A.
N1 - Funding Information:
Manuscript received September 19, 2017; accepted January 10, 2018. Date of publication January 31, 2018; date of current version February 23, 2018. This paper was supported by the European Unions’s Horizon 2020 research and innovative programme under Grant 721019. (Corresponding Author: Pascal Tixador.) The authors are with the University of Grenoble Alpes, CNRS Grenoble-INP, G2Elab – Institut Néel, Grenoble 38000, France, (e-mail: Pascal.Tixador @grenoble-inp.fr).
Publisher Copyright:
© 2002-2011 IEEE.
PY - 2018/6
Y1 - 2018/6
N2 - The SuperConducting Fault Current Limiter (SC FCL) is a very promising application with the first commercial sales for permanent uses in electrical grids. The reduction of the cost of the SC tape is indispensable to increase the deployment of SC FCL, especially for high-voltage devices such as for HVdc supergrids. The cost reduction is obtained by three ways: the cost reduction of the tape, the increase of the electric field under limitation, and the lowering of the temperature. The use of liquid nitrogen as a coolant has many advantages: industrial low-cost coolant, good exchanges, satisfying dielectric properties, etc. This is why we have chosen to study the operation with 65 K subcooled liquid nitrogen. Measurements show that recovery is then very quick and the bubbles during limitation rapidly collapse, at 65 K (the critical current is multiplied by 2 compared to 77 K). However, the superconductor is more sensitive to hot spots for low prospective current faults. We have studied this hot spot behavior from simulation (multiblock one-dimensional model) and experimental points of view including a high-speed camera. We propose a preliminary design of a RECO conductor able to withstand 150 V/m (40 ms) and safe from a hot spot point of view. The favorable influence of the increase of the normal zone propagation velocity is tackled.
AB - The SuperConducting Fault Current Limiter (SC FCL) is a very promising application with the first commercial sales for permanent uses in electrical grids. The reduction of the cost of the SC tape is indispensable to increase the deployment of SC FCL, especially for high-voltage devices such as for HVdc supergrids. The cost reduction is obtained by three ways: the cost reduction of the tape, the increase of the electric field under limitation, and the lowering of the temperature. The use of liquid nitrogen as a coolant has many advantages: industrial low-cost coolant, good exchanges, satisfying dielectric properties, etc. This is why we have chosen to study the operation with 65 K subcooled liquid nitrogen. Measurements show that recovery is then very quick and the bubbles during limitation rapidly collapse, at 65 K (the critical current is multiplied by 2 compared to 77 K). However, the superconductor is more sensitive to hot spots for low prospective current faults. We have studied this hot spot behavior from simulation (multiblock one-dimensional model) and experimental points of view including a high-speed camera. We propose a preliminary design of a RECO conductor able to withstand 150 V/m (40 ms) and safe from a hot spot point of view. The favorable influence of the increase of the normal zone propagation velocity is tackled.
KW - 65 K subcooled nitrogen
KW - Hot spots
KW - simulation
KW - superconducting fault current limiter
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U2 - 10.1109/TASC.2018.2797303
DO - 10.1109/TASC.2018.2797303
M3 - Article
AN - SCOPUS:85041402728
SN - 1051-8223
VL - 28
JO - IEEE Transactions on Applied Superconductivity
JF - IEEE Transactions on Applied Superconductivity
IS - 4
M1 - 5601005
ER -