Print Email Facebook Twitter Real-Time Coupling of Geographically Distributed Research Infrastructures: Taxonomy, Overview and Real-World Smart Grid Applications Title Real-Time Coupling of Geographically Distributed Research Infrastructures: Taxonomy, Overview and Real-World Smart Grid Applications Author Syed, M.H. (University of Strathclyde) Guillo-Sansano, E. (University of Strathclyde) Wang, Y. (Rolls-Royce) Vogel, S. (RWTH Aachen University) Palensky, P. (TU Delft Intelligent Electrical Power Grids) Burt, G. M. (University of Strathclyde) Xu, Y. (Nanyang Technological University) Monti, A. (RWTH Aachen University) Hovsapian, R. (National Renewable Energy Laboratory) Date 2020 Abstract Novel concepts enabling a resilient future power system and their subsequent experimental evaluation are experiencing a steadily growing challenge: large scale complexity and questionable scalability. The requirements on a research infrastructure (RI) to cope with the trends of such a dynamic system therefore grow in size, diversity and costs, making the feasibility of rigorous advancements questionable by a single RI. Analysis of large scale system complexity has been made possible by the real-time coupling of geographically separated RIs undertaking geographically distributed simulations (GDS), the concept of which brings the equipment, models and expertise of independent RIs, in combination, to optimally address the challenge. This article presents the outputs of IEEE PES Task Force on Interfacing Techniques for Simulation Tools towards standardization of GDS as a concept. First, the taxonomy for setups utilized for GDS is established followed by a comprehensive overview of the advancements in real-time couplings reported in literature. The overview encompasses fundamental technological design considerations for GDS. The article further presents four application oriented case studies (real-world implementations) where GDS setups have been utilized, demonstrating their practicality and potential in enabling the analysis of future complex power systems. Subject Geographically distributed simulationsdistributed laboratoriesgeographically distributed research infrastructuresmulti-site simulationspower and energy systems validationreal-time coupling of geographically distributed research infrastructuresreal-time simulationsremote coupling To reference this document use: http://resolver.tudelft.nl/uuid:b4015f33-221f-4ca9-af69-161cd054dd31 DOI https://doi.org/10.1109/TSG.2020.3033070 Embargo date 2021-12-22 ISSN 1949-3053 Source IEEE Transactions on Smart Grid, 12 (2), 1747-1760 Bibliographical note "Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public." Part of collection Institutional Repository Document type journal article Rights © 2020 M.H. Syed, E. Guillo-Sansano, Y. Wang, S. Vogel, P. Palensky, G. M. Burt, Y. Xu, A. Monti, R. Hovsapian Files PDF 09235545.pdf 3.78 MB Close viewer /islandora/object/uuid:b4015f33-221f-4ca9-af69-161cd054dd31/datastream/OBJ/view