S. Bratt
Air Liquide
7 Papers
3 Citations
S. Bratt is an academic researcher from Air Liquide. The author has contributed to research in topics: Power cable & Fault (power engineering). The author has an hindex of 5, co-authored 7 publications.
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Papers
Installation and Testing Results of Long Island Transmission Level HTS Cable
TL;DR: The first long length, transmission level voltage, cold dielectric, high temperature superconductor power cable has been successfully installed in the Long Island Power Authority (LIPA) grid.
86
Development and Demonstration of a Fault Current Limiting HTS Cable to be Installed in the Con Edison Grid
TL;DR: The US Department of Homeland Security is currently funding the design, development and demonstration of an inherently fault current limiting HTS cable, called Secure Super Grids, under the Hydra project with Con Edison as discussed by the authors.
78
Operational experience of the world’s first transmission level voltage hts power cable
J. Maguire,J. Yuan,F. Schmidt,R. Soika,S. Bratt,Christopher G. King,J. McNamara,T. E. Welsh +7 more
- 23 Apr 2010
TL;DR: The first transmission voltage level HTS power cable has been designed, fabricated and permanently installed in Long Island Power Authority (LIPA) grid as discussed by the authors, which was successfully commissioned on April 22, 2008 and has been in operation since then.
3
Program Update on the Development and Demonstration of a HTS Power Cable to Operate in the Long Island Power Authority Transmission Grid
J.F. Maguire,F. Schmidt,S. Bratt,T.E. Welsh,Jie Yuan,A. Allais,F. Hamber +6 more
- 24 Jun 2007
TL;DR: The first long length, transmission level voltage, cold dielectric, high temperature superconductor power cable is designed for permanent installation in the Long Island Power Authority (LIPA) grid and will be able to carry 574 MVA at a voltage of 138 KV as mentioned in this paper.
2
Operation Experience and further Development of a High-Temperature Superconducting Power Cable in the Long Island Power Authority Grid
TL;DR: In this paper, the authors report on the status of two projects including the results of further developments and the operating experience gained during 3 years of in grid operation of a transmission voltage superconducting cable.