The Gaussian Process (GP) based Chance-Constrained Optimal Power Flow (CC-OPF) is an open-source Python code developed for solving economic dispatch (ED) problem in modern power grids. In recent years, integrating a significant amount of renewables into a power grid causes high fluctuations and thus brings a lot of uncertainty to power grid operations. This fact makes the conventional model-based CC-OPF problem non-convex and computationally complex to solve. The developed tool presents a novel data-driven approach based on the GP regression model for solving the CC-OPF problem with a trade-off between complexity and accuracy. The proposed approach and developed software can help system operators to effectively perform ED optimization in the presence of large uncertainties in the power grid.
翻译:高山进程(GP)以 " 高山进程(GP) " 为基础,以 " 机会受限制的优化电力流动(CC-OPF) " (CC-OPF)为基础,是为解决现代电网中经济发送(ED)问题而开发的开放源码Python代码。近年来,将大量可再生能源纳入电网导致高波动,从而给电网运行带来许多不确定性。这一事实使得基于模式的常规CC-OPF问题不易处理,而且计算复杂。开发的工具以GP回归模型为基础,提出了新的数据驱动方法,以解决CC-OPF问题,在复杂性和准确性之间取舍。拟议方法和开发的软件可以帮助系统操作者在电网存在巨大不确定性的情况下有效进行ED优化。
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