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Hardware Implementation of Composite Control Strategy for Wind-PV-Battery Hybrid Off-Grid Power Generation System

Author

Listed:
  • Miloud Rezkallah

    (CR2i e Sept-Îles, 175 Rue de la Vérendrye, Sept-Îles, QC G4R 5B7, Canada
    Department of Electrical Engineering, École de Techonologie Superieure, 1100 Notre-Dame Montréal, Montreal, QC H3C1K3, Canada)

  • Hussein Ibrahim

    (CR2i e Sept-Îles, 175 Rue de la Vérendrye, Sept-Îles, QC G4R 5B7, Canada)

  • Félix Dubuisson

    (Department of Electrical Engineering, École de Techonologie Superieure, 1100 Notre-Dame Montréal, Montreal, QC H3C1K3, Canada)

  • Ambrish Chandra

    (Department of Electrical Engineering, École de Techonologie Superieure, 1100 Notre-Dame Montréal, Montreal, QC H3C1K3, Canada)

  • Sanjeev Singh

    (Electrical Engineering Department, Maulana Azad National Institute of Technology, Bhopal 462051, India)

  • Bhim Singh

    (Electrical Engineering Department, Indian Institute of Technology Delhi, New Delhi 110016, India)

  • Mohamad Issa

    (Quebec Maritime Institute, Rimouski, QC G5L 4B4, Canada)

Abstract

In this paper, a composite control strategy for improved off-grid configuration based on photovoltaic (PV array), a wind turbine (WT), and a diesel engine (DE) generator to achieve high performance while supplying nonlinear loads is investigated. To operate the WT efficiently under variable speed conditions and to obtain accurate and fast convergence to the maximum global operating point without a speed sensor, an iterative interpolation method is integrated with the perturbation and observation (P&O) technique. To ensure the balance of power in the system and to achieve the maximum power from the PV array without using any maximum power point tracking (MPPT) method, and ensuring stable operation during the disturbance, a double-loop control strategy for a two-switches buck-boost converter is developed. Furthermore, to protect the synchronous generator of the diesel generator (DG) from the 5th and 7th order-harmonics created by the connected nonlinear loads and to solve the issue of the filter resonance, the interfacing three-phase inverter is controlled using an improved synchronous-reference frame algorithm (SRF) with virtual impedance active damping. The presented work demonstrates effective and efficient control along with improved performance and cost-effective option as compared to the similar works reported in the literature. The performance of the presented off-grid configuration and its developed composite control strategy are tested using MATLAB/Simulink and validated through small-scale hardware prototyping.

Suggested Citation

  • Miloud Rezkallah & Hussein Ibrahim & Félix Dubuisson & Ambrish Chandra & Sanjeev Singh & Bhim Singh & Mohamad Issa, 2021. "Hardware Implementation of Composite Control Strategy for Wind-PV-Battery Hybrid Off-Grid Power Generation System," Clean Technol., MDPI, vol. 3(4), pages 1-23, November.
    • Handle: RePEc:gam:jcltec:v:3:y:2021:i:4:p:48-843:d:680355
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    References listed on IDEAS

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    1. Seung-Yeong Yu & Hyun-Jun Kim & Jae-Hyuk Kim & Byung-Moon Han, 2016. "SoC-Based Output Voltage Control for BESS with a Lithium-Ion Battery in a Stand-Alone DC Microgrid," Energies, MDPI, vol. 9(11), pages 1-15, November.
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    7. Mokhtara, Charafeddine & Negrou, Belkhir & Settou, Noureddine & Settou, Belkhir & Samy, Mohamed Mahmoud, 2021. "Design optimization of off-grid Hybrid Renewable Energy Systems considering the effects of building energy performance and climate change: Case study of Algeria," Energy, Elsevier, vol. 219(C).
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    Cited by:

    1. Hamidreza Nazaripouya, 2022. "Integration and Control of Distributed Renewable Energy Resources," Clean Technol., MDPI, vol. 4(1), pages 1-4, March.

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