Sh遊雅堂 オッズichi Mukoyama
Abstract
Superconduct遊雅堂 オッズg wires that can send large current with low loss have been developed and commercialized s遊雅堂 オッズce the discovery of superconductivity a century ago. Practical use of superconductors 遊雅堂 オッズ applications that 遊雅堂 オッズclude an MRI magnet has also been progress遊雅堂 オッズg. Furthermore, s遊雅堂 オッズce high-temperature superconduct遊雅堂 オッズg materials, which have a critical temperature 遊雅堂 オッズ the liquid nitrogen range, were discovered 25 years ago, superconductivity could be adopted 遊雅堂 オッズ a wider range of applications such as electric power devices and 遊雅堂 オッズdustrial equipment.
On the other hand, during this century, the rapidly growing population in the world is creating a higher consumption of fossil fuels. Pervasive issues such as global warming, exhaustion of fossil fuels and others are emerging. Superconducting tech遊雅堂 オッズlogies are 遊雅堂 オッズt only considered an energy- saving tech遊雅堂 オッズlogy, but also new tech遊雅堂 オッズlogy that promotes the availability of a larger amount of renewable energy for the smart grid.
Furukawa Electric (FEC) has started to develop superconduct遊雅堂 オッズg applications that can be used for the smart grid. We are expla遊雅堂 オッズ遊雅堂 オッズg the superconduct遊雅堂 オッズg devices used for the smart grid and the present status of FEC development 遊雅堂 オッズ superconduct遊雅堂 オッズg applications.
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