The Transmission Line for the SPIDER Experiment: From design to installation

The Transmission Line for the SPIDER Experiment: From design to installation

•In SPIDER a −100kVdc Transmission Line (TL) carries power and signal conductors.•An original air insulated design of the TL has been conceived.•The paper reports on the construction solutions developed by the Manufacturer.•The factory type tests to validate the TL design are described.•On-site inst...

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Veröffentlicht in:Fusion engineering and design 2017-11, Vol.123, p.247-252
Hauptverfasser: Boldrin, Marco, Toigo, Vanni, Gutierrez, Daniel, Simon, Muriel, Faoro, Giovanni, Maggiora, Edoardo, Pedron, Diego, Guion, Andrea, Decamps, Hans
Format: Artikel
Sprache:eng
Schlagworte:
100 kV Transmission Line
Cables
Conductors
Design
Deuterium
Diagnostic systems
Electric potential
Electric power lines
Electromagnetic interference
EMI
Experiments
Faraday cage
Heating Neutral Beam Injector (HNB)
High voltages
Ions
ITER
Neutral beams
Nuclear reactors
Power cables
Power supplies
SPIDER
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container_end_page 252
container_issue
container_start_page 247
container_title Fusion engineering and design
container_volume 123
creator Boldrin, Marco
Toigo, Vanni
Gutierrez, Daniel
Simon, Muriel
Faoro, Giovanni
Maggiora, Edoardo
Pedron, Diego
Guion, Andrea
Decamps, Hans
description •In SPIDER a −100kVdc Transmission Line (TL) carries power and signal conductors.•An original air insulated design of the TL has been conceived.•The paper reports on the construction solutions developed by the Manufacturer.•The factory type tests to validate the TL design are described.•On-site installation and final acceptance tests concluded in June 2016 are reported. SPIDER (Source for the Production of Ions of Deuterium Extracted from RF plasma) is the full scale prototype of the Ion Source for the ITER 1MeV Heating Neutral Beam Injector (HNB) and is presently under construction in the Neutral Beam Test Facility at Consorzio RFX premises, in Padua, Italy. The required Ion Source and Extraction Power Supply (ISEPS) system and the associated diagnostics need to be hosted inside a −100kVdc air-insulated Faraday cage, called High Voltage Deck (HVD); a High Voltage Transmission Line (TL) carries many power and signal conductors from the ISEPS to the Ion Source. An air insulated design of the TL, coping with the large dimensions required to host ISEPS diagnostic and power cables and duly screened against Electromagnetic Interferences (EMI), has been conceived. The paper reports on the construction solutions developed by the Manufacturer to meet the design indications and requirements of the technical specification for such unconventional device. Moreover, the factory type tests to validate the design and release the manufacturing of the overall TL are described. Finally, the paper reports on the on-site installation and commissioning activities for the final acceptance concluded in June 2016.
doi_str_mv 10.1016/j.fusengdes.2017.06.012
format Article
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subjects 100 kV Transmission Line
Cables
Conductors
Design
Deuterium
Diagnostic systems
Electric potential
Electric power lines
Electromagnetic interference
EMI
Experiments
Faraday cage
Heating Neutral Beam Injector (HNB)
High voltages
Ions
ITER
Neutral beams
Nuclear reactors
Power cables
Power supplies
SPIDER
title The Transmission Line for the SPIDER Experiment: From design to installation
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