Title :
A microturbine interface system with LVRT capability
Author :
Hamouda, Mohamed R. ; Marei, Mostafa I. ; Badr, Mohamed A.
Author_Institution :
Dept. of Electr. Eng., Future Univ., Cairo, Egypt
fDate :
Sept. 28 2014-Oct. 1 2014
Abstract :
Microturbine Units (MTU) are used widely as distributed generators for their proved advantages. This paper presents an interface system for the Microturbine Unit (MTU) based on back-to-back converter to operate in grid connected and islanding modes. Besides regulating the active power fed from the MTU, during the grid-connected mode, the proposed interface system regulates the Point of Common Coupling (PCC) voltage at its rated value. Moreover, the proposed interface system is controlled to have a Low Voltage Ride-Through (LVRT) capability by feeding the grid with reactive power during grid faults. Furthermore, the proposed interface system keeps the voltage and frequency at the load terminal during the islanding mode of operation with the same control structure. Simulation results are provided to evaluate the dynamic performance of the proposed MTU interface system at the different modes of operation.
Keywords :
distributed power generation; power convertors; power grids; reactive power; LVRT capability; MTU; PCC voltage; active power regulation; back-to-back converter; control structure; distributed generators; grid connected mode; grid faults; islanding modes; load terminal; low voltage ride-through; microturbine interface system; microturbine units; point of common coupling; reactive power; Control systems; Educational institutions; Electromagnetics; Generators; Reactive power; Torque; Voltage control; Grid-connected; LVRT; islanding; microturbine; voltage regulation;
Conference_Titel :
Power Engineering Conference (AUPEC), 2014 Australasian Universities
Conference_Location :
Perth, WA
DOI :
10.1109/AUPEC.2014.6966646
