Large-scale optimal power flow: effects of initialization, decoupling and discretization

Extensive numerical testing of a second-order OPF (optimal power flow) solution method was conducted using a 1500 bus network under various loading conditions. The results show that properly implemented second-order OPF solution methods are robust with respect to different starting points, the decou...

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Bibliographic Details
Published in:IEEE transactions on power systems 1989-05, Vol.4 (2), p.748-759
Main Authors: Papalexopoulos, A.D., Imparato, C.F., Wu, F.F.
Format: Article
Language:English
Subjects:
Applied sciences
Electrical engineering. Electrical power engineering
Electrical power engineering
Equations
Exact sciences and technology
Large-scale systems
Linear programming
Load flow
Medical services
Operation. Load control. Reliability
Power engineering and energy
Power networks and lines
Quadratic programming
Reactive power
Steady-state
Systems engineering and theory
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Summary:Extensive numerical testing of a second-order OPF (optimal power flow) solution method was conducted using a 1500 bus network under various loading conditions. The results show that properly implemented second-order OPF solution methods are robust with respect to different starting points, the decoupled OPF solution is expected to be close to the full OPF solution, and the effects of discretization of load tap changing (LTC) transformer taps are very small and usually negligible. The test procedure required two optimizations. During the first optimization, the transformer taps were treated as continuous variables. Using the continuous solution, the LTC taps were moved to their closest allowable discrete values. During the second optimization the LTC transformer taps were held fixed at their discretized values. The second solution was compared to the first. A small difference between these two solutions indicates that the effects of the transformer tap discretization were minimal.< >
ISSN:0885-8950
1558-0679
DOI:10.1109/59.193850