Distribution system reconfiguration (DSR) is a critical process that improves the power transfer efficiency and reduces the over-all operational cost. There have been various methods for addressing the DSR problems. R...
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Distribution system reconfiguration (DSR) is a critical process that improves the power transfer efficiency and reduces the over-all operational cost. There have been various methods for addressing the DSR problems. Recently, DSR problems formulated in mixed-integerlinearprogramming (MILP) has gained popularity as they generally can be solved by the state-of-the-art commercially accessible linearprogramming solvers, and is able to solve the system with thousands of unknown variables within a reasonable time. However, in some MILP formulations, the distribution line losses are omitted in the nodal power injections for the sake of simplicity. This compromises the accuracy of the linearised model and contributes to the disparity between the MILP and the true non-linearmodel. Hence, in this study, new formulations are introduced for embedding the expressions of line losses inside load flow equations so that the deviations between the modelled and exact losses notably reduce. Moreover, other novel formulations have also been presented for simultaneously optimising distributed generation (DG) locations and sizes, while at the same time considering various DG's modes of connection to the distribution grid. The validity and effectiveness of the proposed MILP model is tested on standard IEEE systems and actual distribution network.
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