• DocumentCode
    1480411
  • Title

    Practical AC loss and thermal considerations for HTS power transmission cable systems

  • Author

    Demko, J.A. ; Lue, J.W. ; Gouge, M.J. ; Stovall, J.P. ; Butterworth, Z. ; Sinha, U. ; Hughey, R.L.

  • Author_Institution
    Oak Ridge Nat. Lab., TN, USA
  • Volume
    11
  • Issue
    1
  • fYear
    2001
  • fDate
    3/1/2001 12:00:00 AM
  • Firstpage
    1789
  • Lastpage
    1792
  • Abstract
    The use of high-temperature superconducting materials for power-transmission cable applications is being realized in prototype situations. It is well known that AC loss decreases as the temperature of the conductor decreases. Also, thermal losses are higher at lower temperatures, owing to the increased temperature difference between ambient and cryogenic operating conditions. Both counterflow and parallel-flow cooling arrangements have been proposed in the literature and significantly affect temperature distribution along the cable. In this investigation, the counteracting AC loss and thermal losses are analyzed for both cooling configurations to determine the benefits and limits of each. The thermal-insulation performance levels of materials versus those of typical systems in operation are presented. Widespread application of long-length flexible cable systems, from the refrigeration point of view, will depend on an energy-efficient cryogenic system that is economical to manufacture and operate. While the counterflow arrangement will typically have a lower heat load, it has a length limit arising from the large pressure drop associated with the configuration
  • Keywords
    cooling; heat losses; high-temperature superconductors; power transmission; superconducting cables; temperature distribution; thermal analysis; thermal insulation; AC loss considerations; HTS power transmission cable systems; counterflow cooling; energy-efficient cryogenic system; parallel-flow cooling; temperature difference; temperature distribution; thermal considerations; thermal losses; thermal-insulation performance; Conducting materials; Cooling; Cryogenics; High temperature superconductors; Power cables; Prototypes; Refrigeration; Superconducting cables; Superconducting materials; Temperature distribution;
  • fLanguage
    English
  • Journal_Title
    Applied Superconductivity, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1051-8223
  • Type

    jour

  • DOI
    10.1109/77.920133
  • Filename
    920133