Abstract :
A nonlinear complementarity method for solving nonlinear optimal power flow problems is presented. This method stems from proposed reformulation of complementarity problems as nonlinear systems of equations which age, in turn, solved by a Newton-type method. To reformulate optimal power flow problems as nonlinear systems of equations we employ a function ψμ: ℛ2→ℛ that satisfies the property ψμ(a,b)=0⇔a>0, b>0 and ab=μ, for any μ>0. Then, unlike interior-point methods, the new method handles the complementarity conditions for optimality, si⩾0, π i/⩾0 and siπi=0, without requiring that si>0 and πi>0 be satisfied at every iterate. Numerical results illustrate the viability of the proposed method as applied to several power networks. A comparison with two interior-point algorithms is discussed
Keywords :
Newton method; load flow; nonlinear programming; Newton-type method; nonlinear complementarity method; nonlinear programming; nonlinear systems of equations; optimal power flow; optimal power flow problems reformulation; Constraint optimization; Control systems; Load flow; Nonlinear control systems; Nonlinear equations; Nonlinear systems; Optimal control; Power system control; Power systems; Testing;
