[PDF] Full Evaluation Of The Use Of Superconducting 380 Kv Cable Download eBook

Evaluation of the Use of Superconducting 380 kV Cable

Author: Kottonau, Dustin

Publisher: KIT Scientific Publishing

Published: 2020-11-03

Total Pages: 138

ISBN-13: 373151026X

Diese Studie führt eine Auslegung von supraleitenden Kabeln für die Anwendung im 380-kV-Drehstromnetz durch und erläutert allgemeine Aspekte des Einsatzes solcher Kabel im Höchstspannungsnetz. Dabei vergleicht sie die Supraleitungstechnologie unter vielen verschiedenen Kriterien mit anderen Leitungstechnologien. - This study describes the design of superconducting cables for use in the 380 kV three-phase network and explains general aspects of the use of such cables in the extra-high voltage grid. It compares the superconducting technology with other line technologies under many different criteria.

Prospective Life Cycle Assessment of High-Temperature Superconductors for Future Grid Applications

Author: Buchholz, Alexander

Publisher: KIT Scientific Publishing

Published: 2022-07-27

Total Pages: 246

ISBN-13: 3731511940

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High-temperature superconductors have distinct advantages compared to conventional conductors. Below their critical temperature, superconductors have immeasurably low ohmic losses. To maintain the superconducting state, superconductors require constant cooling. This study aims at identifying the environmental impacts of the application of superconductors in future grid technologies such as superconducting power cables.

Development of high-temperature superconductor cables for high direct current applications

Author: Preuß, Alan

Publisher: KIT Scientific Publishing

Published: 2021-01-14

Total Pages: 194

ISBN-13: 3731510413

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A design process for HTS DC cables was developed for high current applications. Based on the design process, a 35 kA HTS DC cable demonstrator was developed. The superconducting elements of the demonstrator were manufactured and tested individually at 77 K. Afterwards, the demonstrator cable was assembled and tested at 77 K. The assembled demonstrator successfully reached 35 kA at 77 K and self field conditions.

AC Losses in High-Temperature Superconductor Tapes and Cables for Power Applications

Author: Godfrin, Aurélien

Publisher: KIT Scientific Publishing

Published: 2022-05-10

Total Pages: 146

ISBN-13: 3731510960

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This work focuses on two topics. The first is the investigation of producing filaments on copper-stabilized coated conductors, with striations made after or before electroplating the tape. The second topic is the applicability of the striations for reducing the AC losses of cables, in particular the CORC® and RACC cables, which are made with high-temperature superconductor (HTS) striated tapes.

Technology and readout for scaling up superconducting nanowire single-photon detectors

Author: Knehr, Emanuel Marius

Publisher: KIT Scientific Publishing

Published: 2023-03-02

Total Pages: 200

ISBN-13: 3731512564

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This work presents three advances to scale SNSPDs from few-pixel devices to large detector arrays: atomic layer deposition for the fabrication of uniform superconducting niobium nitride films of few-nanometer thickness, a frequency-multiplexing scheme to operate multiple detectors with a reduced number of lines, and the integration of SNSPDs with free-form polymer structures to achieve efficient optical coupling onto the active area of the detectors.

Fluorescent thermal imaging method for investigating transient effects in high-temperature superconductor tapes and coils

Author: Gyuráki, Roland

Publisher: KIT Scientific Publishing

Published: 2022-02-24

Total Pages: 194

ISBN-13: 3731510642

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This work presents the development and application of high-speed fluorescent thermal imaging for quench analysis in high-temperature superconductors (HTS). Using a fluorescent coating, with a temperature-dependent light emission, temperature changes can be calculated over 2D surfaces. The technique uncovered peculiar transient effects in novel HTS tape architectures and also helped to verify and better understand hot spot development in both insulated and non-insulated, HTS–wound pancake coils.