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Hybrid electrochemical energy storage systems: An overview for smart grid and electrified vehicle applications

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  • Zhang, Lei
  • Hu, Xiaosong
  • Wang, Zhenpo
  • Ruan, Jiageng
  • Ma, Chengbin
  • Song, Ziyou
  • Dorrell, David G.
  • Pecht, Michael G.

Abstract

Electrochemical energy storage systems are fundamental to renewable energy integration and electrified vehicle penetration. Hybrid electrochemical energy storage systems (HEESSs) are an attractive option because they often exhibit superior performance over the independent use of each constituent energy storage. This article provides an HEESS overview focusing on battery-supercapacitor hybrids, covering different aspects in smart grid and electrified vehicle applications. The primary goal of this paper is to summarize recent research progress and stimulate innovative thoughts for HEESS development. To this end, system configuration, DC/DC converter design and energy management strategy development are covered in great details. The state-of-the-art methods to approach these issues are surveyed; the relationship and technological details in between are also expounded. A case study is presented to demonstrate a framework of integrated sizing formulation and energy management strategy synthesis. The results show that an HEESS with appropriate sizing and enabling energy management can markedly reduce the battery degradation rate by about 40% only at an extra expense of 1/8 of the system cost compared with battery-only energy storage.

Suggested Citation

  • Zhang, Lei & Hu, Xiaosong & Wang, Zhenpo & Ruan, Jiageng & Ma, Chengbin & Song, Ziyou & Dorrell, David G. & Pecht, Michael G., 2021. "Hybrid electrochemical energy storage systems: An overview for smart grid and electrified vehicle applications," Renewable and Sustainable Energy Reviews, Elsevier, vol. 139(C).
    • Handle: RePEc:eee:rensus:v:139:y:2021:i:c:s1364032120308650
    DOI: 10.1016/j.rser.2020.110581
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    1. Lv, Chaoxian & Liang, Rui & Zhang, Ge & Zhang, Xiaotong & Jin, Wei, 2023. "Energy accommodation-oriented interaction of active distribution network and central energy station considering soft open points," Energy, Elsevier, vol. 268(C).
    2. Weng, Jingwen & Xiao, Changren & Yang, Xiaoqing & Ouyang, Dongxu & Chen, Mingyi & Zhang, Guoqing & Lee Waiming, Eric & Kit Yuen, Richard Kwowk & Wang, Jian, 2022. "An energy-saving battery thermal management strategy coupling tubular phase-change-material with dynamic liquid cooling under different ambient temperatures," Renewable Energy, Elsevier, vol. 195(C), pages 918-930.
    3. Yang, Yuqing & Bremner, Stephen & Menictas, Chris & Kay, Merlinde, 2022. "Modelling and optimal energy management for battery energy storage systems in renewable energy systems: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 167(C).
    4. Hu, Lin & Tian, Qingtao & Zou, Changfu & Huang, Jing & Ye, Yao & Wu, Xianhui, 2022. "A study on energy distribution strategy of electric vehicle hybrid energy storage system considering driving style based on real urban driving data," Renewable and Sustainable Energy Reviews, Elsevier, vol. 162(C).
    5. Md. Mahamudul Hasan & Boris Berseneff & Tim Meulenbroeks & Igor Cantero & Sajib Chakraborty & Thomas Geury & Omar Hegazy, 2022. "A Multi-Objective Co-Design Optimization Framework for Grid-Connected Hybrid Battery Energy Storage Systems: Optimal Sizing and Selection of Technology," Energies, MDPI, vol. 15(15), pages 1-21, July.
    6. Xiao, B. & Ruan, J. & Yang, W. & Walker, P.D. & Zhang, N., 2021. "A review of pivotal energy management strategies for extended range electric vehicles," Renewable and Sustainable Energy Reviews, Elsevier, vol. 149(C).
    7. Di Giorgio, Paolo & Di Ilio, Giovanni & Jannelli, Elio & Conte, Fiorentino Valerio, 2022. "Innovative battery thermal management system based on hydrogen storage in metal hydrides for fuel cell hybrid electric vehicles," Applied Energy, Elsevier, vol. 315(C).
    8. Lin, Haiyang & Bian, Caiyun & Wang, Yu & Li, Hailong & Sun, Qie & Wallin, Fredrik, 2022. "Optimal planning of intra-city public charging stations," Energy, Elsevier, vol. 238(PC).
    9. Liu, Shan & Yan, Jie & Yan, Yamin & Zhang, Haoran & Zhang, Jing & Liu, Yongqian & Han, Shuang, 2024. "Joint operation of mobile battery, power system, and transportation system for improving the renewable energy penetration rate," Applied Energy, Elsevier, vol. 357(C).
    10. Antonio Venancio M. L. Filho & Andrea S. M. Vasconcelos & Washington de A. S. Junior & Nicolau K. L. Dantas & Ayrlw Maynyson C. Arcanjo & Amanda C. M. Souza & Amanda L. Fernandes & Kaihang Zhang & Kun, 2023. "Impact Analysis and Energy Quality of Photovoltaic, Electric Vehicle and BESS Lead-Carbon Recharge Station in Brazil," Energies, MDPI, vol. 16(5), pages 1-18, March.
    11. Mobin Naderi & Diane Palmer & Matthew J. Smith & Erica E. F. Ballantyne & David A. Stone & Martin P. Foster & Daniel T. Gladwin & Amirhossein Khazali & Yazan Al-Wreikat & Andrew Cruden & Ewan Fraser, 2024. "Techno-Economic Planning of a Fully Renewable Energy-Based Autonomous Microgrid with Both Single and Hybrid Energy Storage Systems," Energies, MDPI, vol. 17(4), pages 1-31, February.
    12. Ma, Xurui & Jing, Zefeng & Feng, Chenchen & Qiao, Mingzheng & Xu, Donghai, 2023. "Research and development progress of porous foam-based electrodes in advanced electrochemical energy storage devices: A critical review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 173(C).
    13. Lian, Gaoqi & Ye, Min & Wang, Qiao & Li, Yan & Xia, Baozhou & Zhang, Jiale & Xu, Xinxin, 2024. "Robust state-of-charge estimation for LiFePO4 batteries under wide varying temperature environments," Energy, Elsevier, vol. 293(C).
    14. Smolenski, Robert & Szczesniak, Pawel & Drozdz, Wojciech & Kasperski, Lukasz, 2022. "Advanced metering infrastructure and energy storage for location and mitigation of power quality disturbances in the utility grid with high penetration of renewables," Renewable and Sustainable Energy Reviews, Elsevier, vol. 157(C).

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