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- Title
Stochastic dynamic economic emission dispatch with unit commitment problem considering wind power integration.
- Authors
Zhang, Yachao; Liu, Kaipei; Liao, Xiaobing; Qin, Liang; An, Xueli
- Abstract
Summary: This paper establishes a probabilistic scenario–based framework for the stochastic dynamic economic emission dispatch with unit commitment (SDEED‐UC) problem, taking into account wind power uncertainty. To solve the stochastic UC problem, this paper presents a probabilistic scenario analysis approach to find the unit scheduling solution considering all the original scenarios under a predetermined probability level. And a reduced scenario set can be obtained by the simultaneous backward method. Consequently, the SDEED problem is decomposed into a number of deterministic multiobjective dispatch problems. For each scenario, an enhanced multiobjective particle swarm optimization (EMOPSO) algorithm integrated with the handling strategy for system operation constraints is proposed to produce the Pareto optimal solutions. Furthermore, the available reserve capacity by the UC solution is verified. The simulation results demonstrate that the proposed probabilistic scenario–based and EMOPSO approach is practicable for solving SDEED‐UC from the perspectives of system operation economy, emission, and reliability simultaneously.
- Subjects
WIND power; ELECTRIC power systems; UNIT commitment problem (Electric power systems)
- Publication
International Transactions on Electrical Energy Systems, 2018, Vol 28, Issue 1, p1
- ISSN
2050-7038
- Publication type
Article
- DOI
10.1002/etep.2472