建立固态变压器模型以支持微电网互联,从而在孤岛运行期间实现电力共享和谐波补偿

Mayaka N. Moses, Michael Juma Saulo
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引用次数: 0

摘要

在向最终用户配电方面,微电网的概念越来越受欢迎。由于环境和经济效益,集成了储能设备、热电联产系统(CHP)和可再生能源发电的微电网对工业用户(如工业园区)尤其具有吸引力。然而,可再生能源的间歇性意味着储能对于经济运行至关重要。然而,由于电网存储解决方案的技术限制,我们需要考虑向主电网供电。然而,电网是为单向运行而设计的,这意味着 mcirogrids 无法接收和向电网输送电力。本研究论文展示了 SST 支持孤岛微电网之间电力共享的潜力。微电网通过低压介质互联,这意味着它们可以从主电网发送和接收电力。通过 MATLAB 进行的仿真表明,SST 可以支持在低压直流母线上集成可再生能源。此外,先进的控制(尤其是粒子群优化)可以在微电网层面缓解谐波(在非线性负载存在的情况下仅为 1.17%,仅在电阻负载存在的情况下为 0.36%)和电压不平衡(电压不平衡系数小于 1%)。在没有主电网的情况下(例如发生故障时),产生多余电力的微电网还可以与邻近微电网共享。这项研究有助于重新配置传统电网,以满足现代电力系统的需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modelling of Solid-State Transformer to Support the Interconnection of Microgrids for Power Sharing and Harmonic Compensation During Islanded Operation
The concept of mcirogrids has gained popularity in the distribution of electricity to the final consumer. Microgrids integrating energy storage devices, combined heat and power system (CHP) and renewable energy generation are especially becoming attractive to industrial consumers –such as industrial parks – due to environmental and economic benefits. However, the intermittence of renewable energy sources imply that storage is essential for economic operation. However, technological limitations of storage solutions for the grid imply that we need to consider supplying the power into the main grid. However, grids are designed for unidirectional operation, which implies that mcirogrids cannot receive and send power to the grid. This research paper, shows the potential for SSTs to support power-sharing among islanded microgrids. The microgrids are interconnected through the low-voltage medium, which implies that they can send and receive power from the main grid. Simulations through MATLAB demonstrate that the SST can support the integration of renewable energy sources at the low-voltage DC bus. Furthermore, advanced controls – particularly, particle swarm optimization – can be implemented to mitigate harmonics (only 1.17% in the presence of non-linear loads and 0.36% in the presence of resistive loads alone) and voltage imbalance (the voltage unbalance factor is less than 1%) at the microgrid level. Microgrids generating excess power can also share with neighboring microgrids in the absence of the main grid (for instance, during a fault). This research is instrumental in reconfiguring conventional grids to meet the needs of modern power system requirements.
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