2020
DOI: 10.1088/1757-899x/756/1/012033
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Liquid Nitrogen Cooled Superconducting Power Cable with No Solid Insulation

Abstract: In an attempt to eliminate solid insulation challenges in cryogenic superconducting power cables, a new design concept for liquid cryogen cooled superconducting power cable was investigated. The design is based on superconducting gas insulated line (S-GIL). The design used liquid cryogen as the sole insulation medium. The suitability of the design for medium voltage power cables is discussed and the benefits of eliminating a solid insulation were identified. Experiments on 1-m long model cables with insulator … Show more

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Cited by 4 publications
(2 citation statements)
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“…For DC HTS cables, with lengths less than 100m, the heat loads typically come from the terminations and heat leak from the cryostat. For the terminations, the heat loads are typically 100 -300 W and the heat load along the HTS cable due to cryogenic leaks is approximately 1 W/m [15], [16].…”
Section: Hybrid Hts Cable Designmentioning
confidence: 99%
“…For DC HTS cables, with lengths less than 100m, the heat loads typically come from the terminations and heat leak from the cryostat. For the terminations, the heat loads are typically 100 -300 W and the heat load along the HTS cable due to cryogenic leaks is approximately 1 W/m [15], [16].…”
Section: Hybrid Hts Cable Designmentioning
confidence: 99%
“…The power transmission capacity may be affected as the critical current reduces due to the rise in temperature of the cable core [3]. This temperature rise results in two-phase of cryogen which enhances probability of voltage breakdown due to the presence of bubbles [4] [5] resulting in the occurrence of faults. In addition, this also affects the thermo-hydraulic characteristics of Figure 1.…”
Section: Introductionmentioning
confidence: 99%