Abstract
Combining switching state optimization (SSO) and network expansion planning (NEP) in AC systems results in a mixed-integer non-linear optimization problem. Two methodically different solution approaches are mathematical programming and heuristic methods. In this paper, we develop a hybrid optimization method combining both methods to solve the combined optimization of SSO and NEP. The presented hybrid method applies a DC programming model as an initialization strategy to reduce the search space of the heuristic. A greedy heuristic ensures that the obtained solutions are AC feasible. We compare the hybrid method with other heuristic methods and three mathematical programming models on the same set of planning problems. We show optimization results for four realistic sized power system study cases. Evaluation criteria are convergence, solution cost, and run time. Results show that the hybrid method is able to find a higher number of valid AC-solutions in comparisons to the mathematical programming methods. Furthermore, the obtained solutions have lower expansions costs and are obtained in a shorter run-time compared to the remaining methods for the analyzed study cases. As an addition to this paper, the hybrid implementation and the defined benchmark cases are available as open-source software.
Highlights
P OWER system operators apply several measures to develop their systems according to future demands of increasing load and generation
Common optimization problem definitions to integrate these measures in transmission and sub-transmission system optimization are the network expansion planning (NEP) [1] and optimal transmission switching (OTS) [2] formulations
We showed results for four grid planning problems, including switching state optimization, line replacements, installation of additional lines, and a combined optimization
Summary
P OWER system operators apply several measures to develop their systems according to future demands of increasing load and generation. New power lines are installed, existing power lines are replaced, and switching measures reconfigure the system. Common optimization problem definitions to integrate these measures in transmission and sub-transmission system optimization are the network expansion planning (NEP) [1] and optimal transmission switching (OTS) [2] formulations. The optimization goal is to find the optimal subset of measures with minimal cost out of all available measures. Optimization constraints include the power flow formulation, which is non-linear in AC-systems. The result are NP-hard mixed integer non-linear programming (MINLP) problems [3], [4]
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