物理DLR计算方法的发展

Dávid Szabć, G. Göcsei, B. Németh
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引用次数: 3

摘要

可再生能源的并网、日益增长的能源需求和分布式发电的普及是输电系统运行中的关键问题。在满足上述问题的同时,还应提高架空线路的输电能力,保证运行的安全性。动态线路额定值(DLR)计算方法为实时确定架空线路的容量提供了一种经济有效的方法。该方法不仅增加了线路的传输容量,而且通过对热过载的预测,提高了运行安全性,使电网比传统的静态方法更具弹性和灵活性。国际DLR模型存在一些疏漏,而这些系统在实际应用中的实施也处于起步阶段。本文的目的是通过对现有物理模型的扩展和微调,探讨DLR系统的实际应用。此外,还通过实例说明了扩展物理模型的优越性。
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Development of physical DLR calculation method
The key issues during the operation of transmission system is the integration of renewable energy sources, the increasing demand for energy and the spreading of distributed energy generation. The transmission capacity of the overhead lines should be increased to satisfy the above-mentioned questions, while the high level of operation safety is also should be provided. Dynamic Line Rating (DLR) calculation methodology offers a cost-effective way to determine the ampacity of overhead lines in real-time. This method not only increases the transmission capacity of the line, but also improves the operational safety with the forecast of thermal overloads, which means a more resilient and flexible grid against the conventional static approach. International DLR models have some neglections while the implementation of these systems for practical application is also in initial phase. The aim of this paper to investigate the practical application of DLR system with the extension and fine-tune of existing physical models. Furthermore, the advantages of the extended physical model are also demonstrated through case studies.
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