Long distance underground HVDC transmission via elpipes

2010 International Conference on High Voltage Engineering and Application Pub Date : 2010-11-18 DOI:10.1109/ICHVE.2010.5640717

R. Faulkner, R. Todd

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引用次数: 7

Abstract

Elpipes are polymer-insulated underground HVDC power lines that use relatively rigid extruded conductors designed for higher capacity and efficiency than is practical for overhead power lines. Elpipes can use far more conductor than cables, but also have more splices that an HVDC cable. The US Department of Energy showed early interest in massive underground transmission [1], but that faded until recently. The high efficiency of elpipes is motivated by the need to minimize heat dissipation while maintaining passive cooling. Minimizing waste heat production is critical since heat dissipation limits capacity. For a 325-800kV DC elpipe, we have selected a design basis of 1% loss per 1000 km, about three times better than an overhead 800kVDC line, and similar to “high temperature” superconducting (HTS) lines after accounting for the energy HTS lines consume for cryogenic cooling. This high efficiency enables continental scale power transfers with acceptable loss, and fully buried elpipes carrying up to 12 GW. Elpipes may one day enable continental scale HVDC grids, though there remain technological hurdles such as the need for HVDC breakers that must first be solved before that can occur.

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长距离地下高压直流输电管道

Elpipes是聚合物绝缘的地下高压直流电力线，使用相对刚性的挤压导体，其设计具有比架空电力线更高的容量和效率。与电缆相比，Elpipes可以使用更多的导体，但也比高压直流电缆有更多的接头。美国能源部很早就对大规模地下输电表现出兴趣[1]，但直到最近才消退。elpipes的高效率是由于需要在保持被动冷却的同时最大限度地减少散热。最大限度地减少废热生产是至关重要的，因为散热限制了产能。对于325-800kV直流电管，我们选择了每1000公里1%损耗的设计基础，比架空800kv直流线路好三倍左右，并且在考虑高温超导线路低温冷却消耗的能量后，与高温超导(HTS)线路相似。这种高效率使大陆规模的电力传输具有可接受的损失，并且完全埋地的管道承载高达12吉瓦。Elpipes可能有一天会实现大陆规模的高压直流电网，尽管仍然存在技术障碍，如需要高压直流断路器，在此之前必须首先解决。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 International Conference on High Voltage Engineering and Application

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