Title :
On the convexity of the system loss function
Author :
De la Torre, Sebastian ; Galiana, Francisco D.
Author_Institution :
E.T.S.I. Ind., Univ. de Castilla-La Mancha, Ciudad Real, Spain
Abstract :
We show that the system loss function in a power network is bounded below by any number of supporting hyper-planes in the space of generalized injections. A supporting hyper-plane is defined by the linear Taylor series expansion of the system loss function around a given operating point. The supporting hyper-plane property is valid provided that the expansion point is sufficiently near the flat-voltage profile. We have assessed experimentally the range of validity of this assumption, called the range of hyper-plane support (RHS), showing that for typical networks, the RHS is broad, particularly when the bus voltages are controlled near 1 per unit. The supporting hyper-plane model was also tested as part of an economic dispatch with transmission losses to demonstrate that this linear model provides the same results as when the losses are treated as a nonlinear function.
Keywords :
approximation theory; load flow; losses; power generation dispatch; power system control; power system economics; series (mathematics); transmission networks; voltage control; economic dispatch; hyper-plane support; linear Taylor series expansion; linear loss approximation; load flow; power network; transmission loss; voltage control; Admittance; Equations; Load flow; Power generation economics; Power system modeling; Propagation losses; Reactive power; Taylor series; Testing; Voltage control; Convexity; linear loss approximation; load flow; loss formulae; supporting hyper-planes; system loss;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2005.856993
