阻抗源逆变器风力发电机和直流采集系统:故障穿越分析

2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies Pub Date : 2021-03-05 DOI:10.1109/ICEPE50861.2021.9404490

Muhammad B. M. S. Ramadan, R. T. Naayagi

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引用次数: 0

摘要

研究了40台并联海上风电机组在中压直流(MVDC)配置输电系统中瞬时故障中断时的故障穿越能力。在固态变压器设计中，采用阻抗源变换器(Impedance Source Converter, ZSC)对MVDC集流和风能转换系统进行建模，并定义相应的控制系统架构。为了验证这一点，将WTs启动过程中FRT抗电压违规事件和高涌流的分析研究与基于电网跟随操作的IEEE1547-2018要求进行了比较。在PSCAD环境下进行了仿真研究，并在WT低压交流线路注入100ms故障信号时显示出积极的FRT性能。事实证明，由于ZSC提供的积极下垂控制特性，它可以在较短的时间内有效地恢复稳定性，并且支持积极的电能质量监管，尽管直接耦合到弱配电网络:更接近需求负载。

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Impedance Source Inverter Wind Turbine and DC Collection System: Fault Ride-Through Analysis

This paper investigates into Fault Ride-Through (FRT) competency during momentary fault interruption of 40 parallel-connected offshore Wind Turbine (WT) unit, in Medium Voltage Direct Current (MVDC) configured transmission system. It proposes to model both aggregative MVDC collection and wind energy conversion systems using Impedance Source Converter (ZSC) in solid-state transformer design and define their corresponding control system architecture. To verify, analytical studies on FRT capabilities against voltage violation events and high inrush current during WTs' start-up were compared with IEEE1547-2018 requirements based on grid-following operation. Simulation studies were conducted in PSCAD environment and have shown positive FRT performances when injected with 100ms fault signals at WT's low-voltage AC line. It proved to efficiently regained stability in a reduced timespan due to aggressive droop control feature rendered by ZSC and endorses positive power quality regulatory despite direct coupling to a weak distribution network: closer to demand loads.

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2020 3rd International Conference on Energy, Power and Environment: Towards Clean Energy Technologies

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