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Modeling and Analysis of DC Microgrids as Stochastic Hybrid Systems

Jacob Mueller, Jonathan W. Kimball

2021IEEE Transactions on Power Electronics15 citationsDOIOpen Access PDF

Abstract

This article proposes a method of predicting the influence of random load behavior on the dynamics of dc microgrids and distribution systems. This is accomplished by combining stochastic load models and deterministic microgrid models. Together, these elements constitute a stochastic hybrid system. The resulting model enables straightforward calculation of dynamic state moments, which are used to assess the probability of desirable operating conditions. Specific consideration is given to systems based on the dual active bridge (DAB) topology. Bounds are derived for the probability of zero voltage switching (ZVS) in DAB converters. A simple example is presented to demonstrate how these bounds may be used to improve ZVS performance as an optimization problem. Predictions of state moment dynamics and ZVS probability assessments are verified through comparisons to Monte Carlo simulations.

Topics & Concepts

Monte Carlo methodMicrogridMoment (physics)Computer scienceControl theory (sociology)ConvertersProbability distributionStochastic processTopology (electrical circuits)Mathematical optimizationVoltageMathematicsEngineeringControl (management)PhysicsStatisticsElectrical engineeringArtificial intelligenceClassical mechanicsCombinatoricsMicrogrid Control and OptimizationSmart Grid Energy ManagementOptimal Power Flow Distribution