A practical resource scheduling with OPF constraints

Proceedings of Power Industry Computer Applications Conference Pub Date : 1995-05-07 DOI:10.1109/PICA.1995.515170

K. Abdul-Rahman, S. M. Shahidehpour, M. Aganagic, S. Mokhtari

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引用次数: 109

Abstract

This paper presents an efficient approach to short term power system resource scheduling based on the augmented Lagrangian relaxation method. The problem is divided into two stages, the commitment stage and the constrained economic dispatch stage. The proposed mathematical model incorporates optimal power flow (OPF) constraints in the unit commitment stage. By OPF constrains, the authors refer to the relevant active power constraints that are incorporated in the constrained economic dispatch stage (i.e. transmission capacity constraints, fuel and various regulated emission requirements). The inclusion of OPF constraints in the commitment stage will improve the feasibility of the constrained economic dispatch solution. Other unit commitment constraints such as spinning and operating reserve requirements, power balance as well as other relevant local constraints (i.e. unit ramping rates, upper and lower generation limits, minimum up and down times) are taken into account in the proposed model. As a larger number of constraints are dealt with, a more rigorous method is introduced for updating Lagrange multipliers to improve the solution convergence. A software package which addresses energy management systems requirements is developed and tested.

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一种实用的OPF约束资源调度方法

提出了一种基于增广拉格朗日松弛法的电力系统短期资源调度方法。将问题分为承诺阶段和约束经济调度阶段。该数学模型在机组投入阶段引入了最优潮流约束。OPF约束是指纳入约束经济调度阶段的相关有功约束(即输电容量约束、燃料约束和各种管制排放要求)。在承诺阶段加入OPF约束将提高约束经济调度方案的可行性。在建议的模型中考虑了其他机组承诺约束，如旋转和运行储备要求，功率平衡以及其他相关的局部约束(即机组爬坡率，上下限发电限制，最小启动和停机时间)。由于处理的约束条件较多，引入了一种更严格的拉格朗日乘子更新方法来提高解的收敛性。开发和测试了一个解决能源管理系统要求的软件包。

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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Proceedings of Power Industry Computer Applications Conference

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