Short-term optimal scheduling of hydro–wind–PV and multi-storage complementary systems based on opposition-based learning PSO algorithm

The introduction of energy storage systems in multi-energy complementary systems ensures efficient energy use and distribution, enhancing the system’s economic benefits. However, current research not only lacks the application of energy storage in large-scale hydro–wind–PV hybrid systems, but also u...

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Published inApplied energy Vol. 394; p. 126125
Main Authors He, Yaoyao, Xian, Ning
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.09.2025
Subjects
Coordinated operation
Economic efficiency
Hydro–wind–PV hybrid system
Multiple energy storage technologies
Short-term scheduling model
Hydro–wind–PV hybrid system
Multiple energy storage technologies
Economic efficiency
Coordinated operation
Short-term scheduling model
Online AccessGet full text
ISSN0306-2619
DOI10.1016/j.apenergy.2025.126125

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Abstract The introduction of energy storage systems in multi-energy complementary systems ensures efficient energy use and distribution, enhancing the system’s economic benefits. However, current research not only lacks the application of energy storage in large-scale hydro–wind–PV hybrid systems, but also uses only one type of energy storage system in the complementary system, neglecting the synergistic effect between various energy storage systems. To address this research gap, this study proposes a hydro–wind–PV joint scheduling model that considers the coordinated optimization of pumped storage and battery storage. Through this synergy, the energy storage systems can further optimize the exploitation of energy storage potential and improve energy utilization. Additionally, a particle swarm optimization algorithm based on opposite-based learning (PSO-OBL) is proposed, tailored for short-term optimization. The model and algorithm are validated through their application to a power grid in the southwest region of China. The results demonstrate that the integration of pumped storage and battery storage significantly enhances the system’s economic efficiency, and the PSO-OBL algorithm outperforms traditional algorithms in both convergence and solution quality. By analyzing 4 typical days, the findings show that multiple energy storage systems can effectively cooperate under varying environmental conditions, further improving energy self-sufficiency and maximizing the benefits of energy storage. Compared with the traditional model, the system’s economic efficiency can be improved by a maximum of 3.01 %, and the load self-sufficiency rate is increased by 2.32 %. This study provides practical reference for optimal scheduling of multiple energy storage systems. •Propose a hydro–wind–PV dispatch model combining battery storage and pumping station.•Propose a particle swarm optimization algorithm based on opposite-based learning.•The proposed model achieves better economic benefits compared to other models.•Analyze the synergies between multiple energy storage in different typical days.
AbstractList The introduction of energy storage systems in multi-energy complementary systems ensures efficient energy use and distribution, enhancing the system’s economic benefits. However, current research not only lacks the application of energy storage in large-scale hydro–wind–PV hybrid systems, but also uses only one type of energy storage system in the complementary system, neglecting the synergistic effect between various energy storage systems. To address this research gap, this study proposes a hydro–wind–PV joint scheduling model that considers the coordinated optimization of pumped storage and battery storage. Through this synergy, the energy storage systems can further optimize the exploitation of energy storage potential and improve energy utilization. Additionally, a particle swarm optimization algorithm based on opposite-based learning (PSO-OBL) is proposed, tailored for short-term optimization. The model and algorithm are validated through their application to a power grid in the southwest region of China. The results demonstrate that the integration of pumped storage and battery storage significantly enhances the system’s economic efficiency, and the PSO-OBL algorithm outperforms traditional algorithms in both convergence and solution quality. By analyzing 4 typical days, the findings show that multiple energy storage systems can effectively cooperate under varying environmental conditions, further improving energy self-sufficiency and maximizing the benefits of energy storage. Compared with the traditional model, the system’s economic efficiency can be improved by a maximum of 3.01 %, and the load self-sufficiency rate is increased by 2.32 %. This study provides practical reference for optimal scheduling of multiple energy storage systems. •Propose a hydro–wind–PV dispatch model combining battery storage and pumping station.•Propose a particle swarm optimization algorithm based on opposite-based learning.•The proposed model achieves better economic benefits compared to other models.•Analyze the synergies between multiple energy storage in different typical days.
ArticleNumber 126125
Author He, Yaoyao
Xian, Ning
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Keywords Hydro–wind–PV hybrid system
Multiple energy storage technologies
Economic efficiency
Coordinated operation
Short-term scheduling model
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Snippet The introduction of energy storage systems in multi-energy complementary systems ensures efficient energy use and distribution, enhancing the system’s economic...
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StartPage 126125
SubjectTerms Coordinated operation
Economic efficiency
Hydro–wind–PV hybrid system
Multiple energy storage technologies
Short-term scheduling model
Title Short-term optimal scheduling of hydro–wind–PV and multi-storage complementary systems based on opposition-based learning PSO algorithm
URI https://dx.doi.org/10.1016/j.apenergy.2025.126125
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