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Lagrangian relaxation based heuristics for a chance-constrained optimization model of a hybrid solar-battery storage system

Bismark Singh, Bernard Knueven

2021Journal of Global Optimization20 citationsDOIOpen Access PDF

Abstract

Abstract We develop a stochastic optimization model for scheduling a hybrid solar-battery storage system. Solar power in excess of the promise can be used to charge the battery, while power short of the promise is met by discharging the battery. We ensure reliable operations by using a joint chance constraint. Models with a few hundred scenarios are relatively tractable; for larger models, we demonstrate how a Lagrangian relaxation scheme provides improved results. To further accelerate the Lagrangian scheme, we embed the progressive hedging algorithm within the subgradient iterations of the Lagrangian relaxation. We investigate several enhancements of the progressive hedging algorithm, and find bundling of scenarios results in the best bounds. Finally, we provide a generalization for how our analysis extends to a microgrid with multiple batteries and photovoltaic generators.

Topics & Concepts

Lagrangian relaxationMathematical optimizationSubgradient methodHeuristicsPhotovoltaic systemBattery (electricity)LagrangianRelaxation (psychology)Computer scienceMicrogridConstraint (computer-aided design)Augmented Lagrangian methodScheduling (production processes)Power (physics)MathematicsApplied mathematicsEngineeringElectrical engineeringArtificial intelligencePhysicsPsychologyGeometryQuantum mechanicsSocial psychologyControl (management)Smart Grid Energy ManagementElectric Vehicles and InfrastructureMicrogrid Control and Optimization
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