A new thermal unit commitment approach using constraint logic programming

Proceedings of the 20th International Conference on Power Industry Computer Applications Pub Date : 1997-05-11 DOI:10.1109/PICA.1997.599394

Kun-Yuan Huang, Hong-Tzer Yang, C. Huang

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引用次数: 111

Abstract

The authors propose a constraint logic programming (CLP) algorithm to solve the thermal unit commitment (UC) problem in this paper. The algorithm combines the characteristics of the logic programming with the constraint satisfaction as well as the depth-first branch and bound (B&B) search techniques to provide an efficient and flexible approach to the UC problem. Through the constraint satisfaction techniques, the constraints, which consist of the upper bound on the objective value, are propagated as much as possible to actively reduce the search space of the UC problem in a priori way. Consequently, the optimal solution can be acquired in a very early stage. To demonstrate the effectiveness of the proposed approach, the practical thermal UC problem of Taiwan Power (Taipower) 38-unit system over a 24-hour period is solved by the CLP algorithm implemented in CHIP language, The results obtained are compared with those from the established methods of dynamic programming, Lagrangian relaxation as well as simulated annealing.

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一种基于约束逻辑规划的热机组配置新方法

本文提出了一种约束逻辑规划(CLP)算法来求解热力机组调度问题。该算法结合了逻辑规划与约束满足的特点以及深度优先的分支定界搜索技术，为UC问题的求解提供了一种高效、灵活的方法。通过约束满足技术，尽可能多地传播由目标值上界组成的约束，以先验的方式主动缩小UC问题的搜索空间。因此，最优解可以在非常早的阶段获得。为验证该方法的有效性，以台湾电力38台机组24小时的实际热UC问题为例，采用CHIP语言实现的CLP算法进行求解，并与已有的动态规划、拉格朗日松弛和模拟退火方法的结果进行了比较。

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 the 20th International Conference on Power Industry Computer Applications

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