Virtual synchronous generator: an overview

The continuous increase in the penetration of renewable energy (RE) based distributed generations (DGs) in the power system network has created a great concern on the stability of the existing grid. Traditional bulk power plants, which are dominated by synchronous machines (SMs) can easily support system instability, due to the inherent rotor inertia and damping characteristic, as well as voltage (reactive power) control ability. Nevertheless, converter based RE has some special characteristics, such as stochastic real and reactive power output, quick active and reactive power response, small output impedance, and little or no inertia and damping property thereby causing frequency and voltage instability in the system. To solve this problem, virtual synchronous generator (VSG) concept was proposed to emulate some of the features of conventional SG through converter control strategy in order to provide additional inertia virtually. Different control schemes for VSG has been proposed in literature. Surprisingly, an overview of these schemes is yet to be efficiently presented. This paper presents an overview of the VSG control schemes. It provides the concepts, the features of the control schemes and the applications of VSG. Finally, the crucial issues regarding VSG control schemes and the necessary improvement that need to be addressed are highlighted. Keywords: Distributed generation, Synchronous generator, Virtual synchronous generator, Power electronicv converter, Energy storage system, Frequency control

[1]  M. Baran,et al.  STATCOM Impact Study on the Integration of a Large Wind Farm into a Weak Loop Power System , 2008, 2006 IEEE PES Power Systems Conference and Exposition.

[2]  F. Blaabjerg,et al.  Synchronverter-based operation of STATCOM to Mimic Synchronous Condensers , 2012, 2012 7th IEEE Conference on Industrial Electronics and Applications (ICIEA).

[3]  Toshifumi Ise,et al.  Microgrid Dynamics and Control , 2017 .

[4]  Shahab Mehraeen,et al.  Novel Decentralized Control of Power Systems With Penetration of Renewable Energy Sources in Small-Scale Power Systems , 2014, IEEE Transactions on Energy Conversion.

[5]  Yan Li,et al.  Active Voltage Feedback Control for Hybrid Multiterminal HVDC System Adopting Improved Synchronverters , 2016, IEEE Transactions on Power Delivery.

[6]  Chi Li Design, Analysis and Experimental Evaluation of a Virtual Synchronous Machine Based Control Scheme for STATCOM Applications , 2015 .

[7]  Yushi Miura,et al.  Distributed generation grid integration using virtual synchronous generator with adoptive virtual inertia , 2013, 2013 IEEE Energy Conversion Congress and Exposition.

[8]  Yushi Miura,et al.  Oscillation Damping of a Distributed Generator Using a Virtual Synchronous Generator , 2014, IEEE Transactions on Power Delivery.

[9]  P. Rodriguez,et al.  Control of PV generation systems using the synchronous power controller , 2013, 2013 IEEE Energy Conversion Congress and Exposition.

[10]  Hans-Peter Nee,et al.  Analysis of Stability Limitations of a VSC-HVDC Link Using Power-Synchronization Control , 2011, IEEE Transactions on Power Systems.

[11]  Achim Woyte,et al.  Virtual synchronous generator: An element of future grids , 2010, 2010 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT Europe).

[12]  Aravinda Perera,et al.  Virtual Synchronous Machine-based Power Control in Active Rectifiers for Micro Grids , 2012 .

[13]  Andrew J. Roscoe,et al.  Inertia Emulation Control Strategy for VSC-HVDC Transmission Systems , 2013, IEEE Transactions on Power Systems.

[14]  Jon Are Suul,et al.  Virtual synchronous machines — Classification of implementations and analysis of equivalence to droop controllers for microgrids , 2013, 2013 IEEE Grenoble Conference.

[15]  Lidong Zhang,et al.  Modeling and Control of VSC-HVDC Links Connected to Island Systems , 2011, IEEE Transactions on Power Systems.

[16]  Dushan Boroyevich,et al.  Analysis and design of virtual synchronous machine based STATCOM controller , 2014, 2014 IEEE 15th Workshop on Control and Modeling for Power Electronics (COMPEL).

[17]  Dushan Boroyevich,et al.  Evaluation and control design of virtual-synchronous-machine-based STATCOM for grids with high penetration of renewable energy , 2014, 2014 IEEE Energy Conversion Congress and Exposition (ECCE).

[18]  Haritza Camblong,et al.  Survey on microgrids: Unplanned islanding and related inverter control techniques , 2011 .

[19]  Wanxing Sheng,et al.  Self-Synchronized Synchronverters: Inverters Without a Dedicated Synchronization Unit , 2014, IEEE Transactions on Power Electronics.

[20]  Khadija Ben Kilani,et al.  Synchronverter-based emulation and control of HVDC transmission , 2017, 2017 IEEE Power & Energy Society General Meeting.

[21]  L. Piegari,et al.  Control strategy of virtual synchronous generator based on virtual impedance and band-pass damping , 2016, 2016 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM).

[22]  Luiz A. C. Lopes,et al.  Virtual synchronous generator control in autonomous wind-diesel power systems , 2009, 2009 IEEE Electrical Power & Energy Conference (EPEC).

[23]  Ralf Hesse,et al.  Micro grid stabilization using the virtual synchronous machine (VISMA) , 2009 .

[24]  Khadija Ben Kilani,et al.  Virtual synchronous generators dynamic performances , 2014, 2014 International Conference on Electrical Sciences and Technologies in Maghreb (CISTEM).

[25]  Pedro Rodriguez,et al.  An active power self-synchronizing controller for grid-connected converters emulating inertia , 2014, 2014 International Conference on Renewable Energy Research and Application (ICRERA).

[26]  Silvia Kreibiehl Global Trends in Renewable Energy Investment 2015 , 2015 .

[27]  Qing-Chang Zhong,et al.  Synchronverters: Inverters That Mimic Synchronous Generators , 2011, IEEE Transactions on Industrial Electronics.

[28]  Jon Are Suul,et al.  Equivalence of Virtual Synchronous Machines and Frequency-Droops for Converter-Based MicroGrids , 2014, IEEE Transactions on Smart Grid.

[29]  Hans-Peter Nee,et al.  Power-Synchronization Control of Grid-Connected Voltage-Source Converters , 2010, IEEE Transactions on Power Systems.

[30]  Yasser Abdel-Rady I. Mohamed,et al.  Novel Comprehensive Control Framework for Incorporating VSCs to Smart Power Grids Using Bidirectional Synchronous-VSC , 2014, IEEE Transactions on Power Systems.

[31]  T.C. Green,et al.  Modeling, Analysis and Testing of Autonomous Operation of an Inverter-Based Microgrid , 2007, IEEE Transactions on Power Electronics.

[32]  Josep M. Guerrero,et al.  Generic inertia emulation controller for multi-terminal voltage-source-converter high voltage direct current systems , 2014 .

[33]  Yushi Miura,et al.  Power System Stabilization Using Virtual Synchronous Generator With Alternating Moment of Inertia , 2015, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[34]  Марина Володимирівна Рудіна,et al.  Переклад англомовного варіанту міжнародного документу “Directive 2009/28/EC of the european parliament and of the council of 23 April 2009 on the promotion of the use of energy renewable sources” українською мовою як навчальний ресурс літньої практики студентів-перекладачів , 2018 .

[35]  Yong Chen,et al.  Improving the grid power quality using virtual synchronous machines , 2011, 2011 International Conference on Power Engineering, Energy and Electrical Drives.

[36]  H.-P. Beck,et al.  Virtual synchronous machine , 2007, 2007 9th International Conference on Electrical Power Quality and Utilisation.

[37]  O. Fosso,et al.  Automatic Tuning of Cascaded Controllers for Power Converters Using Eigenvalue Parametric Sensitivities , 2015, IEEE Transactions on Industry Applications.

[38]  Josep M. Guerrero,et al.  Design and Analysis of the Droop Control Method for Parallel Inverters Considering the Impact of the Complex Impedance on the Power Sharing , 2011, IEEE Transactions on Industrial Electronics.

[39]  Hans-Peter Nee,et al.  Interconnection of Two Very Weak AC Systems by VSC-HVDC Links Using Power-Synchronization Control , 2011, IEEE Transactions on Power Systems.

[40]  Jon Are Suul,et al.  A Virtual synchronous machine implementation for distributed control of power transformers in SmartGrids , 2015 .

[41]  Jing Zhang,et al.  Synchronous Generator Emulation Control Strategy for Voltage Source Converter (VSC) Stations , 2015, IEEE Transactions on Power Systems.

[42]  Juan C. Vasquez,et al.  Adaptive Droop Control Applied to Voltage-Source Inverters Operating in Grid-Connected and Islanded Modes , 2009, IEEE Transactions on Industrial Electronics.

[43]  Josep M. Guerrero,et al.  Wireless-control strategy for parallel operation of distributed generation inverters , 2006, Proceedings of the IEEE International Symposium on Industrial Electronics, 2005. ISIE 2005..

[44]  Yushi Miura,et al.  Voltage sag ride-through performance of Virtual Synchronous Generator , 2014, 2014 International Power Electronics Conference (IPEC-Hiroshima 2014 - ECCE ASIA).

[45]  Pierluigi Mancarella,et al.  Distributed multi-generation: A comprehensive view , 2009 .

[46]  Jia Liu,et al.  Comparison of Dynamic Characteristics Between Virtual Synchronous Generator and Droop Control in Inverter-Based Distributed Generators , 2016, IEEE Transactions on Power Electronics.

[47]  Yan Du,et al.  Modeling, analysis, and design of a frequency-droop-based virtual synchronous generator for microgrid applications , 2013, 2013 IEEE ECCE Asia Downunder.

[48]  Yong Chen,et al.  Comparison of methods for implementing virtual synchronous machine on inverters , 2012 .

[49]  Zhang Xing,et al.  An improved Virtual Synchronous Generator algorithm for system stability enhancement , 2015, 2015 IEEE 2nd International Future Energy Electronics Conference (IFEEC).

[50]  Ravishankar K. Iyer,et al.  Software-Defined Networking for Smart Grid Resilience: Opportunities and Challenges , 2015, CPSS@ASIACSS.

[51]  Lidong Zhang,et al.  Offshore Wind Integration to a Weak Grid by VSC-HVDC Links Using Power-Synchronization Control: A Case Study , 2014, IEEE Transactions on Power Delivery.

[52]  Nikos D. Hatziargyriou,et al.  Performance of the linear and binary algorithm of virtual synchronous generators for the emulation of rotational inertia , 2015 .

[53]  V. Karapanos,et al.  Testing a Virtual Synchronous Generator in a Real Time Simulated Power System , 2011 .

[54]  Yong Chen,et al.  Investigation of the Virtual Synchronous Machine in the island mode , 2012, 2012 3rd IEEE PES Innovative Smart Grid Technologies Europe (ISGT Europe).

[55]  Yasser Abdel-Rady I. Mohamed,et al.  Integrating VSCs to Weak Grids by Nonlinear Power Damping Controller With Self-Synchronization Capability , 2014, IEEE Transactions on Power Systems.

[56]  Toshifumi Ise,et al.  Virtual synchronous generators: A survey and new perspectives , 2014 .

[57]  J.G. Slootweg,et al.  Impacts of distributed generation on power system transient stability , 2002, IEEE Power Engineering Society Summer Meeting,.

[58]  Luiz A. C. Lopes,et al.  Self-Tuning Virtual Synchronous Machine: A Control Strategy for Energy Storage Systems to Support Dynamic Frequency Control , 2014, IEEE Transactions on Energy Conversion.

[59]  Jon Are Suul,et al.  Control system tuning and stability analysis of Virtual Synchronous Machines , 2013, 2013 IEEE Energy Conversion Congress and Exposition.