Determining the frequency stability boundary of the Tasmanian system due to voltage disturbances

Author

Jones, David ; Pasalic, S. ; Negnevitsky, Michael ; Haque, Md Enamul

Author_Institution

Transend Networks Pty Ltd. in Tasmania, Lenah Valley, TAS, Australia

fYear

2012

fDate

Oct. 30 2012-Nov. 2 2012

Firstpage

1

Lastpage

6

Abstract

Large-scale integration of wind into power grids can have significant impact on the system stability. This paper presents the Rate Of Change Of Frequency (RoCoF) metric to determine limitations of the system with high levels of wind penetration. The metric takes into account the system inertia, wind turbine response, and the size of contingencies. The metric is then applied to the Tasmanian power system - a small predominantly hydro power system with a potentially large-scale penetration of wind. The simulation studies are carried out using PSS/E. Case studies are performed with critical contingencies such as the loss of synchronous generation, loss of wind generation and loss of the HVDC interconnector, and their impacts are discussed.

Keywords

frequency stability; hydroelectric power stations; power grids; power system interconnection; power system stability; wind power plants; wind turbines; HVDC interconnector; PSS-E; RoCoF metric; Tasmanian power system; frequency stability boundary determination; high voltage direct current; hydropower system; large-scale wind penetration; power grids; power system inertia; power system stability; rate of change of frequency; voltage disturbance; wind penetration; wind turbine response; Australia; HVDC transmission; Hydroelectric power generation; TV; Power Generation Dispatch; Power System Dynamics; Power System Stability; Wind power generation;

fLanguage

English

Publisher

ieee

Conference_Titel

Power System Technology (POWERCON), 2012 IEEE International Conference on

Conference_Location

Auckland

Print_ISBN

978-1-4673-2868-5

Type

conf

DOI

10.1109/PowerCon.2012.6401272

Filename

6401272