Title :
A mixed integer disjunctive model for transmission network expansion
Author :
Bahiense, Laura ; Oliveira, Gerson C. ; Pereira, Mario ; Granville, Sergio
Author_Institution :
Power Syst. Res. Inc., Rio de Janeiro, Brazil
fDate :
8/1/2001 12:00:00 AM
Abstract :
The classical nonlinear mixed integer formulation of the transmission network expansion problem cannot guarantee finding the optimal solution due to its nonconvex nature. We propose an alternative mixed integer linear disjunctive formulation, which has better conditioning properties than the standard disjunctive model. The mixed integer program is solved by a commercial branch and bound code, where an upper bound provided by a heuristic solution is used to reduce the tree search. The heuristic solution is obtained using a GRASP metaheuristic, capable of finding sub-optimal solutions with an affordable computing effort. Combining the upper bound given by the heuristic and the mixed integer disjunctive model, optimality can be proven for several hard problem instances
Keywords :
integer programming; linear programming; power transmission planning; tree searching; GRASP metaheuristic; affordable computing effort; branch and bound code; conditioning properties; heuristic solution; mixed integer disjunctive model; mixed integer linear disjunctive formulation; mixed integer program; nonconvex nature; nonlinear mixed integer formulation; sub-optimal solutions; transmission network expansion; tree search reduction; upper bound; Circuits; Helium; Investments; Large-scale systems; Load flow; Load forecasting; Nonlinear equations; Power system modeling; Upper bound; Voltage;
Journal_Title :
Power Systems, IEEE Transactions on
