A comparison of the conductor requirements for energy storage devices made with ideal coil geometries

Hassenzahl W.

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A comparison of the conductor requirements for energy storage devices made with ideal coil geometries

机译：比较具有理想线圈几何形状的储能设备的导体要求

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Superconducting magnetic energy storage (SMES) plants have previously been proposed in both solenoidal and toroidal geometries. The former is efficient in terms of the quantity of superconductor required per unit of stored energy. For applications where a fringe field could be a problem, the toroidal geometry, which requires at least a factor of two more material, has been proposed. In addition to the solenoid and toroid, other geometries are possible, such as linear multipoles and spherical coils. These geometries have been considered for use in applications other than energy storage. Here the effectiveness (quantity of superconductor/stored energy) is calculated for various coil geometries.

机译：先前已经提出了螺线管和环形几何形状中的超导磁能存储（SMES）设备。就每单位存储能量所需的超导体数量而言，前者是有效的。对于边缘场可能成为问题的应用，已经提出了至少需要两倍以上材料的环形几何形状。除了螺线管和环形线圈之外，其他几何形状也是可能的，例如线性多极线圈和球形线圈。已经考虑将这些几何形状用于除能量存储之外的应用中。在此，针对各种线圈几何形状计算了有效性（超导体的数量/存储的能量）。

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《IEEE Transactions on Magnetics》 |1989年第2期|P.1799-1802|共4页
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Hassenzahl W.;
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7. A comparison of the conductor requirements for energy storage devices made with ideal coil geometries [O] . W. Hassenzahl 1989

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8. Comparison of the Conductor Requirements for Energy Storage Devices Made with Ideal Coil Geometries. [R] . Hassenzahl, W. 1988

机译：用理想线圈几何结构制造的储能装置的导体要求比较。

A comparison of the conductor requirements for energy storage devices made with ideal coil geometries

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