Data modelling of converters for the automation and monitoring of MTDC grids
Multi-terminal DC (MTDC) grids based on voltage source converters (VSCs) are a promising option to integrate the increasing share of generation from the distributed energy resources (DERs) both in the transmission and distribution grids. However, with the broader use of VSCs for the transmission and...
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| Online Access: | https://digital-library.theiet.org/content/journals/10.1049/iet-stg.2018.0170 |
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doaj-9a2eb5ff54bd4f1aa80c66d177bafc352021-04-02T15:30:14ZengWileyIET Smart Grid2515-29472019-05-0110.1049/iet-stg.2018.0170IET-STG.2018.0170Data modelling of converters for the automation and monitoring of MTDC gridsGaurav Kumar Roy0Jingxin Hu1Abhinav Sadu2Ferdinanda Ponci3Antonello Monti4Rik W. De Doncker5Institute for Automation of Complex Power Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityInstitute for Power Generation and Storage Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityInstitute for Automation of Complex Power Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityInstitute for Automation of Complex Power Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityInstitute for Automation of Complex Power Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityInstitute for Power Generation and Storage Systems, E.ON Energy Research Center, Flexible Electrical Networks (FEN) Research Campus, RWTH UniversityMulti-terminal DC (MTDC) grids based on voltage source converters (VSCs) are a promising option to integrate the increasing share of generation from the distributed energy resources (DERs) both in the transmission and distribution grids. However, with the broader use of VSCs for the transmission and distribution grid, there is an absence of a standardised data model for the VSC. In this work, the authors propose an IEC 61850 based data model for VSCs and an existing IEC 61850 model is extended for the dual-active bridge (DAB) converter as an interlink between various DC terminals and the modular multilevel converter (MMC). Furthermore, a generic data modelling guideline is proposed for intelligent electronic devices (IEDs), which are responsible for the interoperability among converters in the MTDC grid. The implementation of the real-time monitoring system of a hybrid AC-DC MTDC grid with the proposed IED is presented as an exemplary case. Through experimental tests of this MTDC grid, it is shown that the proposed IED meets the latency requirements for P2 through P6 class of monitoring, protection, and control applications according to the IEC 61850 standard. The automation architecture presented in this work is also validated for interoperability within the MTDC grid.https://digital-library.theiet.org/content/journals/10.1049/iet-stg.2018.0170IEC standardsopen systemsdistributed power generationpower gridspower convertorssubstation automationdata modelspower engineering computingVSCsdistributed energy resourcestransmissiondistribution gridstandardised data modelIEC 61850 based data modelexisting IEC 61850 modeldual-active bridge converterDC terminalsmodular multilevel convertergeneric data modelling guidelinehybrid AC-DC MTDC gridmultiterminal DCvoltage source converters |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Gaurav Kumar Roy Jingxin Hu Abhinav Sadu Ferdinanda Ponci Antonello Monti Rik W. De Doncker |
| spellingShingle |
Gaurav Kumar Roy Jingxin Hu Abhinav Sadu Ferdinanda Ponci Antonello Monti Rik W. De Doncker Data modelling of converters for the automation and monitoring of MTDC grids IET Smart Grid IEC standards open systems distributed power generation power grids power convertors substation automation data models power engineering computing VSCs distributed energy resources transmission distribution grid standardised data model IEC 61850 based data model existing IEC 61850 model dual-active bridge converter DC terminals modular multilevel converter generic data modelling guideline hybrid AC-DC MTDC grid multiterminal DC voltage source converters |
| author_facet |
Gaurav Kumar Roy Jingxin Hu Abhinav Sadu Ferdinanda Ponci Antonello Monti Rik W. De Doncker |
| author_sort |
Gaurav Kumar Roy |
| title |
Data modelling of converters for the automation and monitoring of MTDC grids |
| title_short |
Data modelling of converters for the automation and monitoring of MTDC grids |
| title_full |
Data modelling of converters for the automation and monitoring of MTDC grids |
| title_fullStr |
Data modelling of converters for the automation and monitoring of MTDC grids |
| title_full_unstemmed |
Data modelling of converters for the automation and monitoring of MTDC grids |
| title_sort |
data modelling of converters for the automation and monitoring of mtdc grids |
| publisher |
Wiley |
| series |
IET Smart Grid |
| issn |
2515-2947 |
| publishDate |
2019-05-01 |
| description |
Multi-terminal DC (MTDC) grids based on voltage source converters (VSCs) are a promising option to integrate the increasing share of generation from the distributed energy resources (DERs) both in the transmission and distribution grids. However, with the broader use of VSCs for the transmission and distribution grid, there is an absence of a standardised data model for the VSC. In this work, the authors propose an IEC 61850 based data model for VSCs and an existing IEC 61850 model is extended for the dual-active bridge (DAB) converter as an interlink between various DC terminals and the modular multilevel converter (MMC). Furthermore, a generic data modelling guideline is proposed for intelligent electronic devices (IEDs), which are responsible for the interoperability among converters in the MTDC grid. The implementation of the real-time monitoring system of a hybrid AC-DC MTDC grid with the proposed IED is presented as an exemplary case. Through experimental tests of this MTDC grid, it is shown that the proposed IED meets the latency requirements for P2 through P6 class of monitoring, protection, and control applications according to the IEC 61850 standard. The automation architecture presented in this work is also validated for interoperability within the MTDC grid. |
| topic |
IEC standards open systems distributed power generation power grids power convertors substation automation data models power engineering computing VSCs distributed energy resources transmission distribution grid standardised data model IEC 61850 based data model existing IEC 61850 model dual-active bridge converter DC terminals modular multilevel converter generic data modelling guideline hybrid AC-DC MTDC grid multiterminal DC voltage source converters |
| url |
https://digital-library.theiet.org/content/journals/10.1049/iet-stg.2018.0170 |
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