This paper investigates coolant topologies for High Temperature Superconducting (HTS) transmission and distribution cable systems. We explore options that allow for flexibility of operation, low temperature rise in the superconductor and low refrigerator power consumption. Topologies for cooling the cryostat and HTS in long-distance electric power transmission systems are explored. For transmission, the goal is to achieve long spans between cooling stations along the transmission line, and low power consumption. For HTS distribution systems, the issue is cooling the superconductor and the current leads and the goals are to minimize the power consumption and to prevent excessive heating of the superconductor. Means are explored to cool distr...
  High temperature (below liquid nitrogen boiling temps.) superconductors have potential applicati...
AbstractIt is traditionally considered that superconducting technology is just the way that will hel...
The idea of insulating individual high-temperature superconducting (HTS) tapes was explored as a die...
Supported by a grant from the MIT Energy Initiative In this and its accompanying reports, the topolo...
AbstractGlobal energy problems should be solved quickly, and superconducting applications are highly...
Worldwide there is an increasing need for a more sustainable form of electrical power delivery with ...
High-temperature superconducting (HTS) cable systems for power transmission are under development th...
The hot temperature super conducting cable (HTS cable) cooled by the liquid nitrogen has many merits...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
The advantages of using HTS cables for dc transmission and distribution are quantitatively investig...
HVDC cables have been identified as the preferred solution for future pan-European grids for the tra...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
Superconductivity can solve the energy problems in the world as energy saving technologies. Among th...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
This article reports on the results of a study on the application of high temperature superconductor...
  High temperature (below liquid nitrogen boiling temps.) superconductors have potential applicati...
AbstractIt is traditionally considered that superconducting technology is just the way that will hel...
The idea of insulating individual high-temperature superconducting (HTS) tapes was explored as a die...
Supported by a grant from the MIT Energy Initiative In this and its accompanying reports, the topolo...
AbstractGlobal energy problems should be solved quickly, and superconducting applications are highly...
Worldwide there is an increasing need for a more sustainable form of electrical power delivery with ...
High-temperature superconducting (HTS) cable systems for power transmission are under development th...
The hot temperature super conducting cable (HTS cable) cooled by the liquid nitrogen has many merits...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
The advantages of using HTS cables for dc transmission and distribution are quantitatively investig...
HVDC cables have been identified as the preferred solution for future pan-European grids for the tra...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
Superconductivity can solve the energy problems in the world as energy saving technologies. Among th...
The hot temperature super conducting cables (HTS cable) are cooled by the liquid nitrogen and the su...
This article reports on the results of a study on the application of high temperature superconductor...
  High temperature (below liquid nitrogen boiling temps.) superconductors have potential applicati...
AbstractIt is traditionally considered that superconducting technology is just the way that will hel...
The idea of insulating individual high-temperature superconducting (HTS) tapes was explored as a die...