Title :
Strategies for the Connection of Distributed Power Generation Units to Distorted Networks
Author :
Blanco Charro, Cristian ; Diaz Reigosa, David ; Briz, Fernando ; Guerrero, Juan M.
Author_Institution :
Dept. of Electr., Comput. & Syst. Eng., Univ. of Oviedo, Gijon, Spain
Abstract :
Connection of distributed power generators (DPGs) to a utility grid requires the synchronization between the DPG and the grid voltages with the goal of controlling the power flow and limiting the currents at instant that the switch or breaker closes. Synchronization methods typically match the positive sequence voltage component of the two systems being connected, the connection being realized when the error is smaller than a preset threshold. While synchronization using the positive sequence voltage provides adequate results in the case of undistorted grid voltages, it can be inadequate if the grid is polluted, e.g., in case of weak grids. Instantaneous voltage mismatches between the DPG and the grid, e.g., due to the harmonic content or unbalances in the grid and/or DPG voltages..., at the instant that the breaker closes, can cause overcurrents and result in unwanted protection tripping or equipment damage, even if the corresponding positive sequence voltages perfectly match. This paper analyzes the synchronization and connection of DPGs to highly distorted grids with the goal of limiting the overcurrent due to voltage mismatch. Once the connection is realized, a transition to the conventional positive sequence voltage based synchronization occurs, as this is adequate to control the power flow in steady state.
Keywords :
distributed power generation; load flow control; overcurrent protection; power apparatus; power generation control; power generation faults; power generation protection; power generation reliability; power grids; synchronisation; DPG connection; breaker closing; distorted grid voltage; distorted network; distributed power generation unit; equipment damage; overcurrent protection; positive sequence voltage component matching; power flow control; switch closing; synchronization method; unwanted protection tripping; voltage mismatch; Harmonic analysis; Inductance; Information filtering; Power harmonic filters; Power transmission lines; Synchronization; Voltage control; Current control; current control; microgrids; phase locked loops; phase-locked loops (PLLs); power system harmonics; power system interconnection;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2015.2439639