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Optimum design and analysis study of stand-alone residential solar PV microgrid

Vinayagam, Arangarajan, Oo, Aman M T, Shafiullah, GM, Seyedmahmoudian, M and Stojcevski, Alex 2014, Optimum design and analysis study of stand-alone residential solar PV microgrid, in AUPEC 2014 : Smart power for Everyone : Proceedings of the 24th Australasian Universities Power Engineering Conference, IEEE, Piscataway, N.J., pp. 1-7, doi: 10.1109/AUPEC.2014.6966522.

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Title Optimum design and analysis study of stand-alone residential solar PV microgrid
Author(s) Vinayagam, Arangarajan
Oo, Aman M T
Shafiullah, GM
Seyedmahmoudian, M
Stojcevski, Alex
Conference name Australasian Universities Power Engineering. Conference (24th : 2014: Perth, Western Australia)
Conference location Perth, Western Australia
Conference dates 2014/9/28 - 2014/10/1
Title of proceedings AUPEC 2014 : Smart power for Everyone : Proceedings of the 24th Australasian Universities Power Engineering Conference
Editor(s) Abu-Siada,A
Masoum,MAS
Publication date 2014
Conference series Australasian Universities Power Engineering Conference
Start page 1
End page 7
Total pages 7
Publisher IEEE
Place of publication Piscataway, N.J.
Summary Today’s power system network has become more complex and it has more responsibilities and challenges to provide secure, reliable and quality energysupply to the communities. A small entity of electrical network known as Microgrid (MG) is more popular nowadays to enhance reliablity and secure level of energy supply, in case of any energy crisis in the utility network. The MG can also provide clean energy supply by integrating renewable energy sources effectively. TheMG with small scale solar photovoltaic (PV) power system is more suitable to provide reliable and clean energy supply for remote or urban communities in residential level. This paper presents the basic analysis study of stand-alone solar photovoltaic (PV) MG power system which has been developed with the aid of Matlab - Simulink software, on the basis of residential load profile and solar exposure level in a particular area of Geelong, Victoria State. The simulation result depicts the control behavior of MG power system with optimum sizing of PV (4.385 kW)and battery storage (480Ah/48V) facility, fulfills daily energy needs in residential load level. This study provides a good platform to develop an effective and reliable stand-alone MG power system for the remote communities in the near future.
ISBN 9780646923758
Language eng
DOI 10.1109/AUPEC.2014.6966522
Field of Research 090607 Power and Energy Systems Engineering (excl Renewable Power)
Socio Economic Objective 850504 Solar-Photovoltaic Energy
HERDC Research category E1 Full written paper - refereed
ERA Research output type E Conference publication
Copyright notice ©2014, IEEE
Persistent URL http://hdl.handle.net/10536/DRO/DU:30069325

Document type: Conference Paper
Collection: School of Engineering
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