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Two-Time-Scale Approach to Characterize the Steady-State Security Region for the Electricity-Gas Integrated Energy System

Jia Su, Hsiao‐Dong Chiang, Luís Alberto

2021IEEE Transactions on Power Systems26 citationsDOIOpen Access PDF

Abstract

The knowledge of the steady-state security region is essential for secure operation of the integrated energy system (IES). The two-time-scale feature of the IES is explored to facilitate construction of its exact steady-state security region. Conditions allowing decomposition of the IES into fast and slow subsystems are established. A complete characterization of the IES steady-state security region via the stable equilibrium manifold of the fast subsystem and the slow subsystem is derived and theoretically proven. This characterization can significantly facilitate construction of the IES steady-state security region (SSR) and is derived under the AC power flow model and gas flow model without any model approximation and simplification. Numerical studies are conducted to validate the derived characterization of the SSR and to illustrate the advantages of the proposed characterization in terms of robustness and reduced computational burden. Numerical studies show that exploring the fast and slow subsystems can lead to fast computation of feasible solutions with a 20-fold speed up in calculation time, as compared with the direct integration of the original IES system. Hence, the proposed two-time-scale method appears to be fast and yet accurate.

Topics & Concepts

Robustness (evolution)ComputationSteady state (chemistry)Computer scienceElectricityElectric power systemScale (ratio)Mathematical optimizationPower (physics)MathematicsEngineeringAlgorithmPhysicsChemistryGenePhysical chemistryQuantum mechanicsBiochemistryElectrical engineeringIntegrated Energy Systems OptimizationOptimal Power Flow DistributionPower System Optimization and Stability
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