Litcius/Paper detail

Minimizing Wind Power Curtailment Using a Continuous-Time Risk-Based Model of Generating Units and Bulk Energy Storage

Ahmad Nikoobakht, Jamshid Aghaei, Miadreza Shafie‐khah, João P. S. Catalào

2020IEEE Transactions on Smart Grid29 citationsDOI

Abstract

Wind power curtailment (WPC) occurs because of the non-correlation between wind power generation (WPG) and load, and also due to the fast sub-hourly variations of WPG. Recently, advances in energy storage technologies facilitate the use of bulk energy storage units (ESUs) to provide the ramping required to respond to fast sub-hourly variations of WPGs. To minimize the sub-hourly WPC probability, this paper addresses a generic continuous-time risk-based model for sub-hourly scheduling of energy generating units and bulk ESUs in the day-ahead unit commitment (UC) problem. Accordingly, the Bernstein polynomials are hosted to model the continuous-time risk-based UC problem with ESU constraints. Also, the proposed continuous-time risk-based model ensures that the generating units and ESUs track the sub-hourly variations of WPG, while the load and generation are balanced in each sub-hourly intervals. Finally, the performance of the proposed model is demonstrated by simulating the IEEE 24-bus Reliability and Modified IEEE 118-bus test systems.

Topics & Concepts

Wind powerReliability engineeringPower system simulationScheduling (production processes)Energy storageReliability (semiconductor)Electric power systemEngineeringAutomotive engineeringPower (physics)Computer scienceReal-time computingElectrical engineeringOperations managementQuantum mechanicsPhysicsElectric Power System OptimizationOptimal Power Flow DistributionPower System Reliability and Maintenance