Abstract
This paper proposes a new hybrid islanding detection method for grid-connected photovoltaic system (GCPVS)-based microgrid. In the presented technique, the suspicious islanding event is initially recognized whilst the absolute deviation of the point of common coupling (PCC) voltage surpasses a threshold. After an intentional delay, a transient disturbance is injected into the voltage source inverter’s d-axis reference current to decline the active power output. As a result, the PCC voltage reduces in islanding operating mode whilst its variation is negligible in the grid presence. Therefore, the simultaneous drop of PCC voltage and active power output is used as an islanding detection criterion. The effectiveness of the proposed algorithm is investigated for various islanding and non-islanding scenarios for a practical distribution network with three GCPVSs. The simulation results in MATLAB/Simulink show successful islanding detection with a small non-detection zone within 300 ms without false tripping during non-islanding incidents. In addition to the precise and fast islanding classification, the presented scheme is realized inexpensively; its thresholds are determined self-standing, and its output power quality degradation is eminently small. Moreover, the active power output is restored to the nominal set after islanding recognition, enhancing the chance of GCPVS generation at its highest possible level in the autonomous microgrid.
Highlights
The growing demand for clean and reliable energy enforces the integration of renewable energy resources in the distribution network over the past decades
distributed generators (DGs) behave almost same, the variation of the voltage and active power output are presented for the first, the same, the variation of the point of common coupling (PCC) voltage and active power output are presented for the and
This paper deals with a new hybrid methodology for detecting islanding operations of grid-connected photovoltaic system (GCPVS)
Summary
The growing demand for clean and reliable energy enforces the integration of renewable energy resources in the distribution network over the past decades. Islanding occurs when a part of the utility including one or multiple distributed generators (DGs) is isolated unintentionally from the upstream network while remains energized [2]. In this unwanted situation, the DG generation must be ceased/controlled timely to avoid jeopardizing the repair crew who think the downstream network is de-energized. The sensitive equipment of the isolated region may be damaged regarding the overcurrent/overvoltage of the unsynchronized reclosing In this regard, IEEE std 1547-2018 and UL 1741 determine 2 s as the maximum permissible time for islanding protection [3,4]
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