近电距离下多馈入高压直流变流器间直流相互作用的估计

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Bilawal Rehman, A. Rehman, W. Khan, Jan Muhammad, Syed Mudassir Hussain
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引用次数: 0

摘要

本文旨在研究高压直流(HVDC)系统中各变流器之间的直流相互作用,这些变流器在多馈入配置中处于紧密的电邻近状态。在多馈入直流系统中,变流器之间的相互作用是极有可能发生的事件,为了避免不良的运行结果,需要对其进行评估。文献对考虑交流母线电压的多馈相互作用因子(MIIF)、不同交流干扰下换流站的局部和并发换相故障(CF)、交流系统强度对故障恢复时间(FRT)的影响、直流永久故障下的暂态过电压(TOV)、多馈直流系统的电压和功率稳定性等指标进行了全面阐述。然而,关于多馈入直流系统中电流相互作用的研究文献很少。因此,本文采用潮流法来估计变换器间的直流相互作用。提出了一种能够有效描述变换器间相互作用的指标——多馈流相互作用因子(MICIF)。通过PSCAD/EMTDC开发的双馈直流系统的电磁暂态仿真验证了MICIF指标。结果表明,MICIF指标能够准确地评价直流系统在稳态和暂态状态下不同换流站之间的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Estimation of multi-infeed HVDC inter converter direct current interaction in close electric proximity
This paper aims at investigating the direct current interaction between various converters of High Voltage Direct Current (HVDC) system, which lie in close electric proximity within the multi-infeed configuration. The interaction between converters in multi-infeed DC system are highly possible events which need to be evaluated in order to avoid the adverse operational results. The various indices such as multi-infeed interaction factor (MIIF) considering AC busbar voltages, local and concurrent commutation failures (CF) in converter stations under different AC disturbances, influence of AC system’s strength on fault recovery time (FRT), transient over-voltage (TOV) under permanent DC faults, voltage and power stability of multi-infeed DC system are comprehensively illustrated in literatures. However, there is lack of literature regarding the investigation of current interaction in multi-infeed DC system. Therefore, in this paper, a power flow approach is adopted to estimate the inter converter direct current interaction. An index, multi-infeed current interaction factor (MICIF) is proposed that can effectively depicts the interaction between converters. The MICIF index is verified through electromagnetic transient simulations of dual infeed HVDC system developed in PSCAD/EMTDC. The results show that MICIF index can accurately assess the interaction between different converter stations of HVDC system under steady and transient states.
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