Two-stage approach for the assessment of distributed generation capacity mixture in active distribution networks

- Jayaweera, Dilan, Islam, Syed, Neduvelil, Sandeep

Title
Two-stage approach for the assessment of distributed generation capacity mixture in active distribution networks
Creator
Jayaweera, Dilan; Islam, Syed; Neduvelil, Sandeep
Date
2013
Type
Text; Journal article
Identifier
http://researchonline.federation.edu.au/vital/access/HandleResolver/1959.17/167094
Identifier
vital:13628
Identifier
https://doi.org/10.1063/1.4822252
Identifier
ISBN:1941-7012
Abstract
Distribution networks are limited with spare capacities to integrate increased volumes of distributed generation (DG). Network constraints and congestion, dynamic thermal limits, intermittent outputs, and the need for reduction in greenhouse gas emission increase the complexity of capturing optimal DG mixture that can safely permit the optimal operation. This paper investigates this problem in detail and proposes a two-stage approach for the quantification of optimal DG capacity mixture in an active distribution network. The approach is aimed at operational planning and takes into account dynamic thermal limits, network internal benefit, and network external benefit and then optimizes samples of DG mixtures through sequential simulation. A case study is performed incorporating wind and photovoltaic generation as intermittent DG and diesel units as standing reserve units. Results suggest that specific operating conditions in an active distribution network can dominate the optimal DG mixture. Wind and diesel hybrid operation can be the most beneficial DG mixture compared to any other DG combination. Dynamic thermal limits of assets can potentially control the type of DG of the optimized mixture.
Publisher
American Institute of Physics
Relation
Journal of Renewable and Sustainable Energy Vol. 5, no. 5 (2013), p.
Rights
Copyright © 2013 AIP Publishing LLC.
Rights
Open Access
Rights
This metadata is freely available under a CCO license
Subject
Distributed power generation; Electric power distribution; Loss reduction
Full Text
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