Title :
The effect of Distributed Generation modeling and static load representation on the optimal integrated sizing and network losses
Author :
AlHajri, M.F. ; El-Hawary, M.E.
Abstract :
In this paper the impact of both the distributed generation (DG) modeling and the static load response to voltage upon the optimal DG size, the radial distribution real power losses, and on the resulting voltage profiles are investigated. The optimal DG sizing nonlinear programming problem is tackled by the sequential quadratic programming deterministic technique. The DG modeling and the different static load representations were tested on 30-bus radial distribution system. Simulation results indicate that the DG size and network losses as well as voltage profiles are highly dependent on the DG and load representations.
Keywords :
distributed power generation; nonlinear programming; quadratic programming; distributed generation modeling; load representations; network losses; nonlinear programming problem; optimal integrated sizing; radial distribution real power losses; radial distribution system; sequential quadratic programming deterministic technique; static load representation; voltage profiles; Distributed control; Distributed power generation; Load modeling; Power generation; Power system modeling; Quadratic programming; System testing; Voltage; Wind energy generation; Wind turbines; Distribution Generation; Distribution Generation Modeling; Load Modeling; Radial Distribution System; Sequential Quadratic Programming;
Conference_Titel :
Electrical and Computer Engineering, 2008. CCECE 2008. Canadian Conference on
Conference_Location :
Niagara Falls, ON
Print_ISBN :
978-1-4244-1642-4
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2008.4564801
