Expansion Planning of Transmission Network Considering Abundance and Depletion Characteristics of Hydropower-dominated Power System

智能电网(汉斯) Pub Date : 2022-10-22 DOI:10.1109/ICSGSC56353.2022.9963010

Yang Liu, Fang Liu, Weiting Xu, Yunche Su

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Abstract

hydropower is an important renewable resources for building a carbon-neutral power system. With its rapid development in power system, its abundance and depletion characteristic in different season greatly impact the capacity utilization of transmission lines. This paper proposed an expansion planning method for hydropower-dominated power system considering line capacity utilization. Since N-1 security principle should be met when a new transmission line is built in the system, and the line expansion should also take load development into account, a line capacity utilization index is proposed. By using the utilization index as a operation constraint, and capital costs, power plant operation costs, line congestion costs are used as objective function, an optimal transmission line expansion planning model considering the utilization rate in hydropower-dominated power system is formulated. Three cases are studied to verify the proposed method in modified IEEE 24-bus system. The results shown that the proposed optimization model can avoid congestion and satisfy the system security demand with reasonable capital costs in transmission line expansion, the overall costs are minimized using proposed method.

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考虑水电系统丰耗特性的输电网扩容规划

水电是建设碳中和电力系统的重要可再生资源。随着其在电力系统中的迅速发展，其在不同季节的丰缺特性对输电线路的容量利用率产生了很大的影响。提出了一种考虑线路容量利用率的水电主导电力系统扩容规划方法。由于系统新建输电线路需满足N-1安全原则，且线路扩容需考虑负荷发展，故提出线路容量利用率指标。以利用指标为运行约束，以资金成本、电厂运行成本、线路拥塞成本为目标函数，建立了考虑水电主导电力系统利用率的输电线路扩建优化规划模型。通过三个实例验证了该方法在改进的IEEE 24总线系统中的有效性。结果表明，所提出的优化模型能够以合理的资金成本避免线路拥塞，满足系统安全需求，使线路扩建总成本最小化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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