Dynamic modeling and simulation of distributed static compensators in system impact studies

Author

Xiaokang Xu ; Bishop, Martin ; Sember, Jim ; Edmonds, Michael J. S. ; Chen Hao

Author_Institution

S&C Electr. Co., Franklin, WI, USA

fYear

2013

fDate

8-11 Dec. 2013

Firstpage

1

Lastpage

5

Abstract

This paper discusses dynamic modeling and simulation of distributed static compensators (DSTATCOM) in system impact studies involving renewable applications, e.g., wind or solar power plants. Two dynamic simulation models of the DTSTACOM are presented and discussed. Dynamic simulations are presented to show that a reactive compensation system (RCS) assembled with the DSTATCOM as a master controller complies with reactive power, voltage control, and low voltage ride-though requirements for a wind power plant. Benchmark and real system models integrate the mechanically switched capacitors and the wind turbine generator reactive power capability into the total RCS system. The reactive characteristics of the DSTATCOM are also discussed.

Keywords

distributed power generation; distribution networks; power capacitors; solar power stations; static VAr compensators; wind power plants; wind turbines; DSTATCOM; RCS; distributed static compensator; low voltage ride-though requirement; reactive compensation system; reactive power control; solar power plant; switched capacitor; voltage control; wind power plant; wind turbine generator; Biological system modeling; Inverters; Power system dynamics; Reactive power; Switches; Voltage control; Wind power generation; grid code; low voltage ride-though; solar power; static compensator; wind power; wind turbine generator;

fLanguage

English

Publisher

ieee

Conference_Titel

Power and Energy Engineering Conference (APPEEC), 2013 IEEE PES Asia-Pacific

Conference_Location

Kowloon

Type

conf

DOI

10.1109/APPEEC.2013.6837111

Filename

6837111