Influence of capacitive parameters on the overvoltage characteristics of three-core submarine cable

Wei Wang, Zhaohui Wang, W. Bu, Xilin Yan, Zhiqiang Guo, Xin Wang
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引用次数: 1

Abstract

Over-voltage in submarine cable plays an important role in the cable failure and the collapse of the connected power system. Previous studies focused on the effects of circuit parameters of power transmission line on over-voltage characterisitics. However, in the case of long distance submarine cable, the effects of cable parameters, especially for capacitive parameters can not be ignored. In this paper, the influence of capacitive parameters on the over-voltage characteristics of a 35 kV three-core submarine cable is studied. A simulation model is constructed by PSCAD/EMTDC software to calculate the transient over-voltage and over-current characteristics under the fault conditions. Particularly, the relative permittivity of the insulation layer and the reactive compensation are carried out. The results show that when the line operates with no load, the terminal voltage rise and reactive power increase with the increase of the relative permittivity of the insulation material. The single-phase grounding fault gives rise to a 1.5 times overvoltage amplitude and an overcurrent of 860 A. In addition, 1100V over-voltage will be induced on the metal sheath of the submarine cable. With an increase of relative permittivity, the overvoltage value caused by the single-phase grounding increases.
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电容参数对三芯海底电缆过电压特性的影响
海底电缆的过电压对电缆的故障和所连接的电力系统的崩溃起着重要的作用。以往的研究主要集中在输电线路电路参数对过电压特性的影响上。然而,在长距离海底电缆的情况下,电缆参数,特别是电容参数的影响是不可忽视的。本文研究了电容参数对35kv三芯海底电缆过电压特性的影响。利用PSCAD/EMTDC软件建立仿真模型,计算故障条件下的暂态过压和过流特性。特别地,对绝缘层的相对介电常数和无功补偿进行了分析。结果表明,当线路空载运行时,随着绝缘材料相对介电常数的增大,终端电压升高,无功功率增大。单相接地故障,过压幅值1.5倍,过流860a。另外,海底电缆的金属护套会产生1100V的过电压。随着相对介电常数的增大,单相接地引起的过电压值增大。
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