A New Combined Scheduling Method of Thermal-Wind Power Considering Grid Restrictions and Wind Power Consumption

Ziqi Zhu, Mingliang Han, Luo Li, Xing Li
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引用次数: 1

Abstract

In order to effectively alleviate wind power consumption and environmental pollution, taking the grid restrictions and wind power consumption into consideration, a combined dispatching model of thermal-wind power system is proposed, which is helpful to arrange the output of generating units economically and reasonably. The wind power cogeneration scheduling model is built on the basis of minimizing the total operation cost which includes unit operation cost, environmental cost and wind abandonment cost. Besides, the grid restrictions are considered reasonably, inclueding DC power flow equation for fast calculation, constraints of generator operating range, limit constraint of unit slope, start/stop time limit, spinning reserve limitations and wind energy output constraints. The model is a quadratic programming model, which is solved by CPLEX in this paper. Taking IEEE30 electrical system as an illustration, the validity and rationality of the proposed method are verified.
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考虑电网约束和风电消纳的热风联合调度新方法
为有效缓解风电消纳和环境污染,综合考虑电网限制和风电消纳,提出了一种热风联合调度模型,有助于经济合理地安排发电机组出力。风电热电联产调度模型是以机组运行成本、环境成本和弃风成本等总运行成本最小为目标建立的。合理考虑了电网约束,包括快速计算的直流潮流方程、发电机运行范围约束、机组坡度限制约束、启停时限限制、旋转备用限制、风电输出约束等。该模型是一个二次规划模型,本文采用CPLEX求解。以IEEE30电气系统为例,验证了该方法的有效性和合理性。
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