Decentralized Autonomous Energy Management Strategy for Multi-Paralleled Hybrid Energy Storage Systems in the DC Microgrid with Mismatched Line Impedance

Wentao Jiang; Zhishuang Wang; Junjun Wang; Xinan Zhang; Peng Wang

doi:10.1109/TSTE.2023.3328249

Decentralized Autonomous Energy Management Strategy for Multi-Paralleled Hybrid Energy Storage Systems in the DC Microgrid with Mismatched Line Impedance

Wentao Jiang, Zhishuang Wang, Junjun Wang, Xinan Zhang, Peng Wang

School of Automation

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

In this paper, a decentralized P-V{2} droop-based energy management strategy for the hybrid energy storage systems (HESSs), including multiple batteries/supercapacitors (SCs), in the DC microgrid is proposed. By using the output voltage of the SC converter as the unified feedback voltage in each HESS, the impacts of non-negligible and mismatched line impedance on the power allocation performance and bus voltage tracking are eliminated. Compared with the I-V droop-based method, the adopted P-V{2} droop technique improves the stability of the HESS, especially considering the constant power loads (CPLs). In addition, the state-of-charge (SoC) recovery is considered for the SCs to prolong the service life of the HESSs. Finally, the experiment and hardware-in-the-loop (HIL) simulations have been carried out for the studied system to verify the effectiveness of the proposed control strategy.

Original language	English
Pages (from-to)	1114-1126
Number of pages	13
Journal	IEEE Transactions on Sustainable Energy
Volume	15
Issue number	2
DOIs	https://doi.org/10.1109/TSTE.2023.3328249
State	Published - 1 Apr 2024

Keywords

constant power load (CPL)
Decentralized control
hybrid energy storage system (HESS)
mismatched line impedance
power allocation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/TSTE.2023.3328249

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title = "Decentralized Autonomous Energy Management Strategy for Multi-Paralleled Hybrid Energy Storage Systems in the DC Microgrid with Mismatched Line Impedance",

abstract = "In this paper, a decentralized P-V{2} droop-based energy management strategy for the hybrid energy storage systems (HESSs), including multiple batteries/supercapacitors (SCs), in the DC microgrid is proposed. By using the output voltage of the SC converter as the unified feedback voltage in each HESS, the impacts of non-negligible and mismatched line impedance on the power allocation performance and bus voltage tracking are eliminated. Compared with the I-V droop-based method, the adopted P-V{2} droop technique improves the stability of the HESS, especially considering the constant power loads (CPLs). In addition, the state-of-charge (SoC) recovery is considered for the SCs to prolong the service life of the HESSs. Finally, the experiment and hardware-in-the-loop (HIL) simulations have been carried out for the studied system to verify the effectiveness of the proposed control strategy.",

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AU - Wang, Zhishuang

AU - Wang, Junjun

AU - Zhang, Xinan

AU - Wang, Peng

PY - 2024/4/1

Y1 - 2024/4/1

N2 - In this paper, a decentralized P-V{2} droop-based energy management strategy for the hybrid energy storage systems (HESSs), including multiple batteries/supercapacitors (SCs), in the DC microgrid is proposed. By using the output voltage of the SC converter as the unified feedback voltage in each HESS, the impacts of non-negligible and mismatched line impedance on the power allocation performance and bus voltage tracking are eliminated. Compared with the I-V droop-based method, the adopted P-V{2} droop technique improves the stability of the HESS, especially considering the constant power loads (CPLs). In addition, the state-of-charge (SoC) recovery is considered for the SCs to prolong the service life of the HESSs. Finally, the experiment and hardware-in-the-loop (HIL) simulations have been carried out for the studied system to verify the effectiveness of the proposed control strategy.

AB - In this paper, a decentralized P-V{2} droop-based energy management strategy for the hybrid energy storage systems (HESSs), including multiple batteries/supercapacitors (SCs), in the DC microgrid is proposed. By using the output voltage of the SC converter as the unified feedback voltage in each HESS, the impacts of non-negligible and mismatched line impedance on the power allocation performance and bus voltage tracking are eliminated. Compared with the I-V droop-based method, the adopted P-V{2} droop technique improves the stability of the HESS, especially considering the constant power loads (CPLs). In addition, the state-of-charge (SoC) recovery is considered for the SCs to prolong the service life of the HESSs. Finally, the experiment and hardware-in-the-loop (HIL) simulations have been carried out for the studied system to verify the effectiveness of the proposed control strategy.

KW - constant power load (CPL)

KW - Decentralized control

KW - hybrid energy storage system (HESS)

KW - mismatched line impedance

KW - power allocation

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Decentralized Autonomous Energy Management Strategy for Multi-Paralleled Hybrid Energy Storage Systems in the DC Microgrid with Mismatched Line Impedance

Abstract

Keywords

UN SDGs

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