Yang Yang, M. Darwish, M. Moghadam, Dominic Quennell, Ashkan Hajiloo
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引用次数: 1
Abstract
With the development of offshore wind power, long-distance cable transmission is required to transmit fluctuating power. A Capacitive Transfer System (CTS) cable was proposed to decrease the line reactance to increase the transmission capability by the designed dielectric layers between strands and special connection of the strands. Because of the dielectric layers between strands, the paths of eddy currents between strands are blocked. In addition, the dielectric layers between strands work as a long capacitor to cancel the line inductive reactance. The geometry design of CTS IV L model is demonstrated in COMSOL. Finally, a set of laboratory tests are carried out to verify the reactive power compensation.
随着海上风电的发展,需要远距离电缆传输来传输波动电力。提出了一种电容传输系统(CTS)电缆,通过设计导线间的介电层和导线间的特殊连接来降低线路电抗,提高传输能力。由于股线之间的介电层,股线之间涡流的路径被阻挡。此外,导线之间的介电层作为一个长电容来抵消线路电感电抗。在COMSOL中演示了CTS IV L模型的几何设计。最后,进行了一组实验室试验,对无功补偿进行了验证。
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