电压稳定约束下的低碳发电和输电扩展规划

V. Asgharian, M. Abdelaziz
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引用次数: 1

摘要

环境问题和对二氧化碳排放的限制需要扩大可再生发电装置的容量。然而,可再生能源发电容量的增加会显著影响宿主电力系统的电压稳定性。因此,在扩容规划问题中,电压稳定性的考虑变得越来越重要。本文提出了一种多阶段低碳电压稳定约束发电与输电扩展规划(G&TEP)模型。开发的G&TEP模型考虑了发电机组和输电线路的投资和运行成本,以及负荷和弃风成本,确定了输电线路和发电机组的最佳安装年份和位置,以满足预期的负荷需求增长。电压崩溃接近指示器(VCPI)是一种基于线路电压稳定指标的技术,用于描述所制定的扩容方案的电压稳定性。为此,VCPI被纳入G&TEP模型,以保证在规划范围内开发的扩展计划具有可接受的电压稳定性水平。通过在通用代数建模系统(GAMS)环境下开发的IEEE 24总线RTS测试系统的数值案例研究,验证了该框架的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Voltage Stability Constrained Low-Carbon Generation & Transmission Expansion Planning
Environmental concerns and limits on CO2 emissions entail expanding the capacity of renewable generation units. However, the increase in the renewable generation capacity can significantly impact the hosting power system voltage stability. Therefore, the consideration of voltage stability in the expansion planning problem is of an increasing importance. In this paper, we present a multi-stage low carbon voltage stability constrained generation and transmission expansion planning (G&TEP) model. The developed G&TEP model accounts for the investment and operation costs of generation units and transmission lines, as well as the load and wind curtailment costs, and determines the optimal installation year and location for transmission lines and generation units to meet the anticipated load demand increase. The voltage collapse proximity indicator (VCPI), which is a line voltage stability index based technique, is used to account for the voltage stability of the developed expansion plans. To this end, the VCPI is incorporated in the G&TEP model to guarantee an acceptable level of voltage stability for the developed expansion plans over the planning horizon. The effectiveness of the proposed framework is validated using numerical cases studies on the IEEE 24-bus RTS test system developed in General Algebraic Modeling System (GAMS) environment.
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