D-JRA2.1 Simulator coupling and Smart Grid libraries

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D-JRA2.1 Simulator coupling and Smart Grid libraries

Report (2017)

Author(s)

Edmund Widl (Austrian Institute of Technology)

Michael Spiegel (Austrian Institute of Technology)

Cyndi Moyo (Austrian Institute of Technology)

Thomas Strasser (Austrian Institute of Technology)

Arjen van der Meer (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Peter Palensky (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Rishabh Bhandia (TU Delft - Electrical Engineering, Mathematics and Computer Science)

A. Emhemed (University of Strathclyde)

M. Syed (University of Strathclyde)

Oliver Gehrke (Technical University of Denmark (DTU))

D. E. Morales Bondy (Technical University of Denmark (DTU))

C Steinbrink (OFFIS – Institute for Information Technology, OFFIS e.V)

M. Blank (OFFIS e.V)

A. Stathakis (National Technical University of Athens)

T. Sarris (National Technical University of Athens)

Panos Kotsampopoulos (National Technical University of Athens)

N. Akroud (Ormazabal Corporate Technology)

I. O. Sagarduy (Ormazabal Corporate Technology)

V. H. Nguyen (Université Grenoble Alpes)

D. Moneta (Ricerca sul Sistema Energetico)

C. Sandroni (Ricerca sul Sistema Energetico)

S. Corti (Ricerca sul Sistema Energetico)

S. Uski (VTT Technical Research Center of Finland)

L. Matti (VTT Technical Research Center of Finland)

P. Chodura (DNV GL)

R. Brandl (Fraunhofer Institute of Wind Energy and Energy System Technology)

Q. T. Tran (CEA Grenoble)

B. Lazpita (CEA Grenoble)

T. Delaplagne (CEA Grenoble)

Research Group

Intelligent Electrical Power Grids

URL related publication

https://erigrid.eu/wp-content/uploads/2017/07/DL_D-JRA2.1_Simulator_coupling_and_Smart_Grid_libraries_2017-05-22.pdf Final published version

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https://resolver.tudelft.nl/uuid:b5fa3c5d-7afa-4551-82ab-93c50958b3ca

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Publication Year

2017

Language

English

Research Group

Intelligent Electrical Power Grids

Publisher

European Commission H2020

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Abstract

Work package JRA2 focuses on the development of advanced simulation-based methods to checkand validate smart grid scenarios, configurations and corresponding applications. The main aim isto employ offline simulation of scenarios where a combination of parallel processing, advanced optimization techniques, and design-of-experiments is used to master the system complexity. Secondary targets include the development of methods for HIL application as well as for the assessment of cyber-security concepts. This assessment will cover the following smart grid properties:system stability, system scalability, component interoperability, and information security. Eventuallyit is the goal to explore the operational limits and the sensitivity of these system properties towardssystem parameters.

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