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Optimal integration of D-STATCOM in distribution grids for annual operating costs reduction via the discrete version sine-cosine algorithm

Oscar Danilo Montoya, Alexander Molina-Cabrera, D. Ramı́rez, Edwin Rivas Trujillo, Jorge Alarcón

2022Results in Engineering30 citationsDOIOpen Access PDF

Abstract

This paper deals with the problem of the optimal placement and sizing of distribution static compensators (D-STATCOM) in electrical distribution networks to reduce the total annual operative costs associated with the total costs of energy losses added with the investment costs in D-STATCOM. The metaheuristic sine-cosine optimization algorithm determines nodes with the location and optimal sizes of the D-STATCOM. A discrete-continuous codification represents the decision variables, where the discrete part is entrusted with the best candidate nodes selection. The continuous part deals with the optimal sizes assigned to the D-STATCOM. Numerical results in the IEEE 33- and IEEE 69-bus systems demonstrate the effectiveness of this approach since it helps to minimize the total grid operation costs compared with the solution of the mixed-integer nonlinear programming model in GAMS. All the numerical validations are carried out in the MATLAB programming environment.

Topics & Concepts

SineSizingMathematical optimizationReduction (mathematics)MATLABNonlinear programmingGridComputer scienceInteger (computer science)Integer programmingAlgorithmControl theory (sociology)MathematicsNonlinear systemControl (management)Artificial intelligenceVisual artsQuantum mechanicsOperating systemArtPhysicsGeometryProgramming languageOptimal Power Flow DistributionSmart Grid Energy ManagementPower System Optimization and Stability
Optimal integration of D-STATCOM in distribution grids for annual operating costs reduction via the discrete version sine-cosine algorithm | Litcius