Title :
Assessing the Transmission Expansion Cost With Distributed Generation: An Australian Case Study
Author :
FengJi Luo ; Junhua Zhao ; Jing Qiu ; Foster, J. ; Yaoyao Peng ; Zhaoyang Dong
Author_Institution :
Centre for Intell. Electr. Networks, Univ. of Newcastle, Newcastle, NSW, Australia
Abstract :
Distributed generation (DG) is rapidly increasing its penetration level worldwide and is expected to play a more important role in providing power. An important benefit of DG is its ability to defer transmission investments. In this paper, a simulation model is implemented to conduct quantitative analysis on the effect of DG on transmission investment deferral. The transmission expansion model is formulated as a multi-objective optimization problem with comprehensive technical constraints, such as AC power flow and system reliability and/or security. The case study that was selected is the Queensland electricity market in Australia. Simulation results show that DG can reduce transmission investments significantly. This ability however is greatly influenced by a number of factors, such as the location of DG, the network topology, and power system technical constraints.
Keywords :
distributed power generation; investment; optimisation; power markets; power transmission economics; AC power flow; Australian case study; DG location; Queensland electricity market; comprehensive technical constraints; distributed generation; multiobjective optimization problem; network topology; power system technical constraints; quantitative analysis; system reliability; system security; transmission expansion cost assessment; transmission investment deferral; Generators; Investment; Load modeling; Power system stability; Reliability; Security; Wind speed; Distributed generation; cost allocation; transmission expansion;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2014.2314451
