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Achieving Emission-Reduction Goals: Multi-Period Power-System Expansion Under Short-Term Operational Uncertainty

Tuomas Rintamäki, Fabrício Oliveira, Afzal S. Siddiqui, Ahti Salo

2023IEEE Transactions on Power Systems16 citationsDOIOpen Access PDF

Abstract

Stochastic adaptive robust optimization is capable of handling short-term uncertainties in demand and variable renewable-energy sources that affect investment in generation and transmission capacity. We build on this setting by considering a multi-year investment horizon for finding the optimal plan for generation and transmission capacity expansion while reducing greenhouse gas emissions. In addition, we incorporate multiple hours in power-system operations to capture hydropower operations and flexibility requirements for utilizing variable renewable-energy sources such as wind and solar power. To improve the computational performance of existing exact methods for this problem, we employ Benders decomposition and solve a mixed-integer quadratic programming problem to avoid computationally expensive big-M linearizations. The results for a realistic case study for the Nordic and Baltic region indicate which investments in transmission, wind power, and flexible generation capacity are required for reducing greenhouse gas emissions. Through out-of-sample experiments, we show that the stochastic adaptive robust model leads to lower expected costs than a stochastic programming model under increasingly stringent environmental considerations.

Topics & Concepts

Stochastic programmingRenewable energyMathematical optimizationTime horizonGreenhouse gasWind powerEconomic dispatchComputer scienceVariable renewable energyElectric power systemFlexibility (engineering)Integer programmingElectricity generationReduction (mathematics)Linear programmingEngineeringPower (physics)EconomicsMathematicsElectrical engineeringGeometryEcologyManagementPhysicsBiologyQuantum mechanicsElectric Power System OptimizationIntegrated Energy Systems OptimizationSmart Grid Energy Management
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