两阶段区域电力市场不完全竞争下的增减博弈——第一部分:概念分析

Econometrics: Mathematical Methods & Programming eJournal Pub Date : 2018-11-26 DOI:10.17863/CAM.33975

M. Sarfati, M. Hesamzadeh, P. Holmberg

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引用次数: 6

摘要

这篇论文是两部分论文的第一部分。提出了一种两阶段博弈的方法来分析具有提前一天和实时市场的区域电力市场中生产者的不完全竞争。我们在这两个市场都考虑战略生产商。在决定在每个市场出价时，他们需要同时考虑这两个市场。这些市场之间的需求冲击可以用几种情景来模拟。将两阶段对策描述为具有均衡约束的两阶段随机均衡问题(TS-EPEC)。然后将其重新表述为两阶段随机混合整数线性规划(MILP)。该模型的解给出了子博弈完全纳什均衡(SPNE)。为了处理多个SPNE，我们设计了一个程序来查找具有不同总调度成本的所有SPNE。该模型采用嵌入在CPLEX求解器中的Benders分解进行求解。该模型在6节点和IEEE 30节点实例系统上进行了验证。

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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Increase-Decrease Game Under Imperfect Competition in Two-stage Zonal Power Markets – Part I: Concept Analysis

This paper is part I of a two-part paper. It proposes a two-stage game to analyze imperfect competition of producers in zonal power markets with a day-ahead and a real-time market. We consider strategic producers in both markets. They need to take both markets into account when deciding what to bid in each market. The demand shocks between these markets are modeled by several scenarios. The two-stage game is formulated as a Twostage Stochastic Equilibrium Problem with Equilibrium Constraints (TS-EPEC). Then it is further reformulated as a two-stage stochastic Mixed-Integer Linear Program (MILP). The solution of this MILP gives the Subgame Perfect Nash Equilibrium (SPNE). To tackle multiple SPNE, we design a procedure which finds all SPNE with different total dispatch costs. The proposed MILP model is solved using Benders decomposition embedded in the CPLEX solver. The proposed MILP model is demonstrated on the 6-node and the IEEE 30-node example systems.

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Econometrics: Mathematical Methods & Programming eJournal

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