Please use this identifier to cite or link to this item: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/513
Title: Electrical Stability of Large Scale Integration of Micro Generation into Low Voltage Grids
Authors: Xueguang, W.
Yibin, Z.
Arulampalam, A.
Jenkins, N.
Issue Date: Dec-2005
Publisher: International Journal of Distributed Energy Resources
Abstract: With large-scale integration of micro generation into low voltage grids, stability becomes an important issue for a MicroGrid. The unique nature of the MicroGrid requires that the MicroGrid is stable in both grid-connected mode and islanded mode. In this paper, the major factors (such as control schemes of the flywheel energy storage system, types of load in the MicroGrid, location of the fault and inertia constants of motor load) influencing the stability of the MicroGrid are investigated. Three possible control strategies (PQ control, Droop control and Frequency/Voltage control) of the MicroGrid are described. Simulation results show how the flywheel uses PQ control only when the MicroGrid is operated in grid-connected mode. During islanded mode, the control scheme of the flywheel has to be switched from PQ control to Droop control or Frequency/Voltage. With fixed PQ load or impedance load in the MicroGrid there is no stability problem. However, motor loads have a significant influence on the transient stability of the MicroGrid. In the MicroGrid, no evidence of small signal instability has been found. Instability of the MicroGrid is likely to result in low voltages. Hence, the stability of the MicroGrid can be improved by using an under voltage load shedding method on the less important motor loads in the MicroGrid.
URI: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/513
Appears in Collections:Electrical & Electronic Engineering



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