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Lithium-Ion Capacitor Lifetime Extension through an Optimal Thermal Management System for Smart Grid Applications

Author

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  • Danial Karimi

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Sahar Khaleghi

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Hamidreza Behi

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Hamidreza Beheshti

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Md Sazzad Hosen

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Mohsen Akbarzadeh

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Joeri Van Mierlo

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

  • Maitane Berecibar

    (Research Group MOBI—Mobility, Logistics, Automotive Technology Research Centre, Vrije Universiteit Brussel, Pleinlaan 2, 1050 Brussels, Belgium
    Flanders Make, 3001 Heverlee, Belgium)

Abstract

A lithium-ion capacitor (LiC) is one of the most promising technologies for grid applications, which combines the energy storage mechanism of an electric double-layer capacitor (EDLC) and a lithium-ion battery (LiB). This article presents an optimal thermal management system (TMS) to extend the end of life (EoL) of LiC technology considering different active and passive cooling methods. The impact of different operating conditions and stress factors such as high temperature on the LiC capacity degradation is investigated. Later, optimal passive TMS employing a heat pipe cooling system (HPCS) is developed to control the LiC cell temperature. Finally, the effect of the proposed TMS on the lifetime extension of the LiC is explained. Moreover, this trend is compared to the active cooling system using liquid-cooled TMS (LCTMS). The results demonstrate that the LiC cell temperature can be controlled by employing a proper TMS during the cycle aging test under 150 A current rate. The cell’s top surface temperature is reduced by 11.7% using the HPCS. Moreover, by controlling the temperature of the cell at around 32.5 and 48.8 °C, the lifetime of the LiC would be extended by 51.7% and 16.5%, respectively, compared to the cycling of the LiC under natural convection (NC). In addition, the capacity degradation for the NC, HPCS, and LCTMS case studies are 90.4%, 92.5%, and 94.2%, respectively.

Suggested Citation

  • Danial Karimi & Sahar Khaleghi & Hamidreza Behi & Hamidreza Beheshti & Md Sazzad Hosen & Mohsen Akbarzadeh & Joeri Van Mierlo & Maitane Berecibar, 2021. "Lithium-Ion Capacitor Lifetime Extension through an Optimal Thermal Management System for Smart Grid Applications," Energies, MDPI, vol. 14(10), pages 1-14, May.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:10:p:2907-:d:556693
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    References listed on IDEAS

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    5. Behi, Hamidreza & Karimi, Danial & Jaguemont, Joris & Gandoman, Foad Heidari & Kalogiannis, Theodoros & Berecibar, Maitane & Van Mierlo, Joeri, 2021. "Novel thermal management methods to improve the performance of the Li-ion batteries in high discharge current applications," Energy, Elsevier, vol. 224(C).
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    Cited by:

    1. Danial Karimi & Hamidreza Behi & Mohsen Akbarzadeh & Joeri Van Mierlo & Maitane Berecibar, 2021. "Holistic 1D Electro-Thermal Model Coupled to 3D Thermal Model for Hybrid Passive Cooling System Analysis in Electric Vehicles," Energies, MDPI, vol. 14(18), pages 1-20, September.
    2. Hamidreza Behi & Mohammadreza Behi & Ali Ghanbarpour & Danial Karimi & Aryan Azad & Morteza Ghanbarpour & Masud Behnia, 2021. "Enhancement of the Thermal Energy Storage Using Heat-Pipe-Assisted Phase Change Material," Energies, MDPI, vol. 14(19), pages 1-19, September.
    3. Danial Karimi & Hamidreza Behi & Mohsen Akbarzadeh & Joeri Van Mierlo & Maitane Berecibar, 2021. "A Novel Air-Cooled Thermal Management Approach towards High-Power Lithium-Ion Capacitor Module for Electric Vehicles," Energies, MDPI, vol. 14(21), pages 1-20, November.
    4. Karimi, Danial & Behi, Hamidreza & Berecibar, Maitane & Van Mierlo, Joeri, 2023. "A comprehensive coupled 0D-ECM to 3D-CFD thermal model for heat pipe assisted-air cooling thermal management system under fast charge and discharge," Applied Energy, Elsevier, vol. 339(C).
    5. Khaleghi, Sahar & Hosen, Md Sazzad & Karimi, Danial & Behi, Hamidreza & Beheshti, S. Hamidreza & Van Mierlo, Joeri & Berecibar, Maitane, 2022. "Developing an online data-driven approach for prognostics and health management of lithium-ion batteries," Applied Energy, Elsevier, vol. 308(C).
    6. Hamidreza Behi & Theodoros Kalogiannis & Mahesh Suresh Patil & Joeri Van Mierlo & Maitane Berecibar, 2021. "A New Concept of Air Cooling and Heat Pipe for Electric Vehicles in Fast Discharging," Energies, MDPI, vol. 14(20), pages 1-15, October.
    7. Hamidreza Behi & Danial Karimi & Rekabra Youssef & Mahesh Suresh Patil & Joeri Van Mierlo & Maitane Berecibar, 2021. "Comprehensive Passive Thermal Management Systems for Electric Vehicles," Energies, MDPI, vol. 14(13), pages 1-15, June.
    8. Danial Karimi & Hamidreza Behi & Joeri Van Mierlo & Maitane Berecibar, 2022. "An Experimental Study on Thermal Performance of Graphite-Based Phase-Change Materials for High-Power Batteries," Energies, MDPI, vol. 15(7), pages 1-13, March.
    9. Arkadiusz Hulewicz & Krzysztof Dziarski & Łukasz Drużyński & Grzegorz Dombek, 2023. "Thermogram Based Indirect Thermographic Temperature Measurement of Reactive Power Compensation Capacitors," Energies, MDPI, vol. 16(5), pages 1-18, February.
    10. Michal Mielniczek & Ewa Janicka & Lukasz Gawel & Kazimierz Darowicki, 2021. "Evaluation of Temperature Influence on Electrochemical Processes Occurring in a Lithium-Ion Supercapacitor with the Use of Dynamic Electrochemical Impedance Spectroscopy," Energies, MDPI, vol. 14(13), pages 1-12, June.

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