Improving PV Resilience by Dynamic Reconfiguration in Distribution Grids: Problem Complexity and Computation Requirements

Improving PV Resilience by Dynamic Reconfiguration in Distribution Grids: Problem Complexity and Computation Requirements

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The dissemination of low-carbon technologies, such as urban photovoltaic distributed generation, imposes new challenges to the operation of distribution grids.Distributed generation may introduce significant net-load asymmetries between feeders in the course of the day, resulting in higher losses.The dynamic reconfiguration of the grid could mitigate daily losses and be used to minimize or defer the need for network reinforcement.Yet, weleda skin food 75ml best price dynamic reconfiguration has to be carried out in near real-time in order to make use of the most updated load and generation forecast, this way maximizing operational benefits.Given the need to quickly find and update reconfiguration decisions, the computational complexity of the underlying optimal scheduling problem is studied in this paper.

The problem is formulated and the impact of sub-optimal solutions is illustrated using a real medium-voltage distribution grid operated under a heavy generation 2000 bmw 528i front bumper scenario.The complexity of the scheduling problem is discussed to conclude that its optimal solution is infeasible in practical terms if relying upon classical computing.Quantum computing is finally proposed as a way to handle this kind of problem in the future.