Litcius/Paper detail

Impact of Optimal Control of Distributed Generation Converters in Smart Transformer Based Meshed Hybrid Distribution Network

Chandan Kumar, Rampelli Manojkumar, Sanjib Ganguly, Marco Liserre

2021IEEE Access18 citationsDOIOpen Access PDF

Abstract

A smart transformer (ST) based meshed hybrid distribution network is realized by extending ST low voltage dc (LVDC) link to form a LVDC line which connects dc buses of existing distributed generation (DG) converters. This paper proposes a method for optimal operation in such ST based meshed hybrid distribution network. A CIGRE LV residential distribution network with DG sources is connected at ST low voltage ac (LVAC) and LVDC terminals. All the DG sources are proposed to be connected at LVDC line. The power management scheme and method of determining power flow solution for the considered distribution network are proposed. An optimal problem is formulated for determining the active and reactive power references of DG converters while maintaining the load bus voltages within the grid limits and considering the DG converters constraints. The minimization of energy drawn from ST medium voltage (STMV) grid is considered as objective function and solved using genetic algorithm. To know the impact of proposed optimal control DG converters various performance indicators i.e., energy loss, operating energy costs, voltage profile and sizing of ST converters are considered and compared with existing literature.

Topics & Concepts

ConvertersTransformerDistributed generationAC powerComputer scienceSmart gridVoltageSizingLow voltageElectronic engineeringElectrical engineeringVoltage regulationEngineeringTopology (electrical circuits)Renewable energyVisual artsArtMicrogrid Control and OptimizationOptimal Power Flow DistributionIslanding Detection in Power Systems