Andres Tarraso;Jose Ignacio Candela;Joan Rocabert;Pedro Rodriguez
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引用次数: 0
摘要
随着可再生能源的发展,发电厂和居民区中与光伏和风能相关的并网变流器数量大幅增加。电压谐波通常由大量设备产生,是弱电网环境中的常见问题,目前正在向主公用电网过渡。由于电子变流器与电网之间的相互作用,这种谐波畸变正在显著增加,不仅会损坏连接到同一共用连接点(PCC)的其他设备,还会增加线路中变压器的损耗和饱和度。以往的研究已广泛解决了电网跟随型变流器的这一问题,但并联电网形成型变流器的谐波控制,尤其是基于虚拟同步仿真的谐波控制,仍未得到充分探讨。本文旨在提供一种解决方案,重点是为基于同步功率控制器 (SPC) 的功率转换器提供选择性谐波控制。所提出的解决方案可实现功率转换器的并行化,从而在 PCC 上自然分担谐波衰减效应。通过实时模拟以及在 200 kVA 微电网试验平台上进行的实验测试,介绍并验证了该方法。
Selective Harmonic Compensation in SPC Grid-Forming Converters for Improving Power Quality in Weak Grid
The expansion of renewable energy sources highly increased the number of grid-connected converters associated to PV and wind in power plants as well as in residential areas. The appearance of voltage harmonics, which are typically generated by a large number of devices, is a common issue in weak grid environments and it is transitioning to the main utility grid. This harmonic distortion is significantly increasing due to the interaction between electronic power converters and the network, which not only contribute to damage other equipment connected to the same point of common connection (PCC), but also increase the losses and saturation of the transformers in the line. While previous studies have extensively addressed this issue for grid-following power converters, the harmonic control in parallel grid-forming converters, particularly those based on virtual synchronous emulation, remains underexplored. This paper intends to provide a solution focused on providing a selective harmonic control for synchronous power controller (SPC) based power converters. The proposed solution enables the parallelization of power converters to naturally share the harmonics attenuation effect at the PCC. The methodology is presented and validated through real-time simulations as well as experimental tests conducted in a 200 kVA microgrid testbed.
期刊介绍:
The scope of the Society embraces planning, research, development, design, application, construction, installation and operation of apparatus, equipment, structures, materials and systems for the safe, reliable and economic generation, transmission, distribution, conversion, measurement and control of electric energy. It includes the developing of engineering standards, the providing of information and instruction to the public and to legislators, as well as technical scientific, literary, educational and other activities that contribute to the electric power discipline or utilize the techniques or products within this discipline.