Seamless control of grid-tied PV-Hybrid Energy Storage System
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Mukul Chankaya
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Ikhlaq Hussain
Abstract
This paper describes the normalized maximum correntropy criteria (NMCC) based seamless control of three-phase four-wire voltage source converter (VSC) for a grid-tied PV-Hybrid energy storage system (HESS). The micro-grid can operate in both islanded and grid-tied mode with seamless control. The seamless control facilitates the VSC control transition from grid current control (GCC) during grid-tied mode to voltage control during grid-isolated mode and back to GCC control with grid-resynchronized mode. The seamless control ensures the system stability and security of the personnel with reduces transients on the grid and load side of the system during the VSC control transition. The VSC is designed to fulfill the multi-objective including power quality enhancement, reactive power compensation, load balancing during unity power factor (UPF) operation. The VSC maintains the system stability during diverse dynamic conditions, inducing disturbances on grid side, load side and PV side of the system, i.e., Irradiation variation, unbalanced load, abnormal grid voltage, intentional islanding, specified power mode and grid-resynchronization. The hybrid energy storage system (HESS) consisting of lead-acid battery and ultra-capacitor (UC) further enhances the stability and disturbances handling capability of the grid-tied PV system. The functioning of the proposed system is found adequate as per IEEE 519 standards during steady and induced dynamic conditions.
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Author contributions: All the authors have accepted responsibility for the entire content of this submitted manuscript and approved submission.
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Research funding: None declared.
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Conflict of interest statement: The authors declare no conflicts of interest regarding this article.
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© 2021 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Frontmatter
- Research Articles
- Differential positive sequence power angle-based microgrid feeder protection
- Real-time hardware emulation of wind turbine model with asynchronous generator under hardware-in-the-loop platform
- Frequency stability analysis with fuzzy adaptive selfish herd optimization based optimal sliding mode controller for microgrids
- Seamless control of grid-tied PV-Hybrid Energy Storage System
- Improved higher order adaptive sliding mode control for increased efficiency of grid connected hybrid systems
- Optimal siting of solar based distributed generation (DG) in distribution system for constant power load model
- Electricity demand modeling techniques for hybrid solar PV system
- Robust decentralized model predictive load-frequency control design for time-delay renewable power systems
- A techno-economic analysis of the roof top off-grid solar PV system for Jamshedpur, Jharkhand, India
Artikel in diesem Heft
- Frontmatter
- Research Articles
- Differential positive sequence power angle-based microgrid feeder protection
- Real-time hardware emulation of wind turbine model with asynchronous generator under hardware-in-the-loop platform
- Frequency stability analysis with fuzzy adaptive selfish herd optimization based optimal sliding mode controller for microgrids
- Seamless control of grid-tied PV-Hybrid Energy Storage System
- Improved higher order adaptive sliding mode control for increased efficiency of grid connected hybrid systems
- Optimal siting of solar based distributed generation (DG) in distribution system for constant power load model
- Electricity demand modeling techniques for hybrid solar PV system
- Robust decentralized model predictive load-frequency control design for time-delay renewable power systems
- A techno-economic analysis of the roof top off-grid solar PV system for Jamshedpur, Jharkhand, India
