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风电变流技术
★ 5.0
用于交流/直流系统的最优潮流工具及其在北海海上风电并网电网分析中的应用
An Optimal Power Flow Tool for AC/DC Systems, Applied to the Analysis of the North Sea Grid for Offshore Wind Integration
| 作者 | Bernardo Castro Valerio · Vinicius A. Lacerda · Marc Cheah-Mane · Pieter Gebraad · Oriol Gomis-Bellmunt |
| 期刊 | IEEE Transactions on Power Systems |
| 出版日期 | 2025年1月 |
| 技术分类 | 风电变流技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 多端直流电网 交直流混合电网 功率优化 Pyflow ACDC工具 可再生能源互联 |
语言:
中文摘要
全球范围内对构建多端直流电网的兴趣日益增长,因其在整合海上风电和互联异步电网方面具有灵活性。在此背景下,开展交直流混合电网的最优潮流计算至关重要。本文提出了一种基于Python的交直流混合电网运行优化工具Pyflow ACDC,支持多种交流与直流电网的协同分析,可配置点对点及同质或异质多端直流系统。以北海海上风电开发为案例,展示了该工具在满负荷、变负荷及变电价市场条件下的优化分析能力。
English Abstract
Interest in installing multi-terminal DC grids is growing worldwide due to their versatility in incorporating offshore wind and interconnecting asynchronous grids. In such cases, it is vital to run optimal power flows in the integrated hybrid AC/DC grids. Therefore,the objective of this work is to present Pyflow ACDC, a Python-based tool for the operational optimization of hybrid AC and DC grids, facilitating the interconnection of renewable energy developments.This tool enables the optimal flow analysis of multiple AC and DC grids within the same system. The DC grids can be tailored to the user's needs, including point-to-point systems and both homogeneous and heterogeneous multi-terminal DC configurations. A case study based on North Sea developments is used to exemplify the utilization of such tool. The analysis includes a full load analysis as well variable load and variable market price optimization.
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SunView 深度解读
该交直流混合电网最优潮流工具对阳光电源的大型储能和海上风电产品具有重要参考价值。工具支持的多端直流系统分析可直接应用于PowerTitan储能系统的电网侧VSG控制优化,提升系统并网稳定性。对于风电产品线,其变负荷和变电价优化算法可用于完善风电变流器的功率调度策略。此外,该工具的交直流协同分析方法也可应用于iSolarCloud平台,优化新能源电站群的经济性运行。建议在ST系列储能变流器和风电变流器的控制算法中引入类似的优化机制,提升产品在复杂电网环境下的适应性。