Aggregate Model of Parallel Distributed Energy Resources Controlled using Virtual Admittance

The increased number of distributed generation sources in distribution networks in recent years has emphasized the importance of their accurate and computationally efficient modelling. The development of efficient models becomes more difficult and complex with the introduction of novel controllers that aim to support the grid, often emulating the operation of passive circuit elements. One of such controllers has been recently proposed that emulates the operation of an admittance to support the voltage at the point of the converter grid connection. In this paper, an aggregate model of distributed energy resources controlled using virtual admittance approach and connected in parallel is derived. The resemblance of the controller to classical circuit elements is used to obtain an equivalent circuit for each converter including its controller part and the distribution line connecting it to the main grid. Then, circuit analysis techniques are applied to synthesize the aggregate model of all the parallel converters in the network, simplifying the assessment of their combined effect on the rest of the network and reducing the computational burden. Simulation results from Matlab and its SimPowerSystems toolbox are used to validate the accuracy of the proposed model.

[1]  T. Dragičević,et al.  Micro-flexibility: Challenges for power system modeling and control , 2023, Electric Power Systems Research.

[2]  M. Prodanović,et al.  Quasi-Stationary Implementation of Virtual Admittance Controller for Voltage Support from Distributed Generation , 2022, 2022 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe).

[3]  M. Prodanović,et al.  Bifurcation Analysis of Active Electrical Distribution Networks Considering Load Tap Changers and Power Converter Capacity Limits , 2022, IEEE Transactions on Power Electronics.

[4]  E. Bueno,et al.  Design and Analysis of Parallel-Connected Grid-Forming Virtual Synchronous Machines for Island and Grid-Connected Applications , 2022, IEEE Transactions on Power Electronics.

[5]  Raymundo E. Torres-Olguin,et al.  Reduced-Order Model of Distributed Generators With Internal Loops and Virtual Impedance , 2022, IEEE Transactions on Smart Grid.

[6]  Milan Prodanovic,et al.  Virtual Admittance Control for Providing Voltage Support using Converter Interfaced Generation , 2021, 2021 IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe).

[7]  Federico Milano,et al.  Aggregated Model of Virtual Power Plants for Transient Frequency and Voltage Stability Analysis , 2021, IEEE Transactions on Power Systems.

[8]  Milan Prodanovic,et al.  Virtual Impedance Design Considerations for Virtual Synchronous Machines in Weak Grids , 2020, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[9]  Ioannis Lestas,et al.  A Review of Reduced-Order Models for Microgrids: Simplifications vs Accuracy. , 2020, 2003.04923.

[10]  James L. Kirtley,et al.  Reduced-Order Model for Inter-Inverter Oscillations in Islanded Droop-Controlled Microgrids , 2018, IEEE Transactions on Smart Grid.

[11]  James L. Kirtley,et al.  High-Fidelity Model Order Reduction for Microgrids Stability Assessment , 2016, 2018 IEEE Power & Energy Society General Meeting (PESGM).

[12]  Frede Blaabjerg,et al.  Virtual-Impedance-Based Control for Voltage-Source and Current-Source Converters , 2015, IEEE Transactions on Power Electronics.

[13]  Josep M. Guerrero,et al.  Dynamic Phasors-Based Modeling and Stability Analysis of Droop-Controlled Inverters for Microgrid Applications , 2014, IEEE Transactions on Smart Grid.

[14]  J L Agorreta,et al.  Modeling and Control of $N$ -Paralleled Grid-Connected Inverters With LCL Filter Coupled Due to Grid Impedance in PV Plants , 2011, IEEE Transactions on Power Electronics.

[15]  Reza Iravani,et al.  Voltage-Sourced Converters in Power Systems: Modeling, Control, and Applications , 2010 .

[16]  V. Blasko,et al.  Operation of a phase locked loop system under distorted utility conditions , 1996, Proceedings of Applied Power Electronics Conference. APEC '96.

[17]  Petar V. Kokotovic,et al.  Singular perturbations and order reduction in control theory - An overview , 1975, Autom..

[18]  Gabriela Hug,et al.  Reduced-order modeling of inverter-based generation using hybrid singular perturbation , 2021 .

[19]  Bo Wen,et al.  Analysis of Phase-Locked Loop Low-Frequency Stability in Three-Phase Grid-Connected Power Converters Considering Impedance Interactions , 2015, IEEE Transactions on Industrial Electronics.