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Optimal Power Flow Based DR in Active Distribution Network With Reactive Power Control

Rishabh Verma, Narayana Prasad Padhy

2021IEEE Systems Journal21 citationsDOI

Abstract

Demand response works as a bridge to enable activities between end customer and distribution network operators. Previously, most of the demand response work is concerned about maintaining supply–demand balance and reducing peak load demand without acknowledging distribution network behavior. This article presents a demand response scheme for an active distribution network via the operation of an unbalanced feeder line and consumer loads. The day-ahead dynamic price is coupled with active distribution network constraints to prevent the formation of new peaks. To tackle up the complexities of unbalanced network and distributed generation (DG) integration, the merits of symmetrical domain components are utilized. Power electronically interfaced DG reactive power component is also considered for constant power and voltage mode of operation. For optimizing the distribution network, optimal power flow is modified to achieve social welfare with distribution network constraints. The performance and computational efficiency of the proposed algorithm are verified through extensive case studies.

Topics & Concepts

AC powerDemand responsePower (physics)Dynamic demandComputer scienceLoad managementPower-flow studyDistributed generationEngineeringControl theory (sociology)Control engineeringVoltageControl (management)Electrical engineeringRenewable energyElectricityArtificial intelligenceQuantum mechanicsPhysicsSmart Grid Energy ManagementOptimal Power Flow DistributionMicrogrid Control and Optimization