A control methodology for renewable energy integrations in distribution systems

Hossain, M. J., Saha, T. K. and Mithulananthan, N. (2011). A control methodology for renewable energy integrations in distribution systems. In: 2011 IEEE PES Innovative Smart Grid Technologies (ISGT) Asia Conference proceedings. Innovative Smart Grid Technologies Asia Conference (1st, IEEE PES ISGT-ASIA, 2011), Perth, Australia, (1-8). 13-16 November 2011. doi:10.1109/ISGT-Asia.2011.6167104

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Author Hossain, M. J.
Saha, T. K.
Mithulananthan, N.
Title of paper A control methodology for renewable energy integrations in distribution systems
Conference name Innovative Smart Grid Technologies Asia Conference (1st, IEEE PES ISGT-ASIA, 2011)
Conference location Perth, Australia
Conference dates 13-16 November 2011
Convener IEEE Power & Energy Society
Proceedings title 2011 IEEE PES Innovative Smart Grid Technologies (ISGT) Asia Conference proceedings
Journal name 2011 IEEE PES Innovative Smart Grid Technologies, ISGT Asia 2011 Conference: Smarter Grid for Sustainable and Affordable Energy Future
Place of Publication Piscataway, NJ, U.S.A.
Publisher Institute of Electrical and Electronic Engineers
Publication Year 2011
Sub-type Fully published paper
DOI 10.1109/ISGT-Asia.2011.6167104
ISBN 9781457708732
1457708736
9781457708749
1457708744
9781457708756
1457708752
Start page 1
End page 8
Total pages 8
Collection year 2012
Language eng
Formatted Abstract/Summary This paper presents a systematic control methodology for intermittent renewable energy integrations in low voltage distribution systems considering operating constraints and limits. An output feedback decentralized controller is synthesized for renewable generators using a linear quadratic robust control strategy. The change in volatile renewable generations is considered as an uncertain term in the design algorithm. The designed controller, for both wind and photovoltaic (PV), ensures both steady state and transient voltage stability for a given integration level. Effectiveness of the proposed controller is verified on a 43 bus industrial mesh distribution system under large disturbances and it is found that the designed control scheme enhances the stability and making the renewable integration grid friendly.
Keyword Distributed generations
Voltage constraints
Decentralized Control and Generation and load uncertainties
Q-Index Code E1
Q-Index Status Confirmed Code
Institutional Status UQ

 
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