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ERIGrid

Title
European Research Infrastructure supporting Smart Grid Systems Technology Development, Validation and Roll Out
Funding
EC | H2020 | RIA
Call
H2020-INFRAIA-2014-2015
Contract (GA) number
654113
Start Date
2015/11/01
End Date
2020/04/30
Open Access mandate
yes
Data Pilot
no
Organizations
DTU, USTRATH, ICCS, DERlab e.V., VTT, RSE SPA, EIR, SINTEF ER, CEA, DNV GL, EIR, Fraunhofer, HEDNO, OCT, DNV GL, OFFIS, G-INP, KAPE - CRES, AIT, TECNALIA, TU Delft
More information
Detailed project information (CORDIS)

 

  • Towards a foundation for holistic power system validation and testing

    Blank, Marita; Lehnhoff, Sebastian; Hessen, Kai; Bondy, Daniel Esteban Morales; Moyo, Cyndi; Strasser, Thomas (2017)
    Projects: EC | ERIGrid (654113)
    Renewable energy sources and further electrificationof energy consumption are key enablers for decreasing green-house gas emissions, but also introduce increased complexitywithin the electric power system. The increased availability ofautomation, information and communication technology, andintelligent solutions for system operation have transformed thepower system into a smart grid. In order to support thedevelopment process of smart grid solutions on the system level,testing has to be done ...

    Cosimulation of Intelligent Power Systems: Fundamentals, Software Architecture, Numerics, and Coupling

    Palensky, Peter; Van Der Meer, Arjen A.; Lopez, Claudio David; Joseph, Arun; Pan, Kaikai (2017)
    Projects: EC | ERIGrid (654113)

    Combined control and power hardware in-the-loop simulation for testing smart grid control algorithms

    Maniatopoulos, Marios; Lagos, Dimitris; Kotsampopoulos, Panos; Hatziargyriou, Nikos (2017)
    Projects: EC | ERIGrid (654113)

    Laboratory Education of Modern Power Systems using PHIL Simulation

    Kotsampopoulos, Panos; Kleftakis, Vasilis; Hatziargyriou, Nikos (2017)
    Projects: EC | ERIGrid (654113)

    Using large-scale local and cross-location experiments for smart grid system validation

    Buscher, Martin; Lehnhoff, Sebastian; Rohjans, Sebastian; Andrén, Filip; Strasser, Thomas (2017)
    Projects: EC | ERIGrid (654113)
    For robust testing of new technologies used in future, intelligent power and energy systems, realistic testing environments are needed. Due to the dimensions of a real-world environment a field-based installation is often not viable. More efficient instead of a local installation is to connect existing and highly sophisticated labs with different focus of specialization. Today's experimental setups for the Smart Grid domain are very time-consuming solutions or specific implementations for a s...

    Simulation-based validation of smart grids – Status quo and future research trends

    Steinbrink, Cornelius; Lehnhoff, Sebastian; Rohjans, Sebastian; Strasser, Thomas I.; Widl, Edmund; Moyo, Cyndi; Lauss, Georg F.; Lehfuss, Felix; Faschang, Mario; Palensky, Peter P.; van der Meer, Arjen A.; Heussen, Kai; Gehrke, Oliver; Guillo-Sansano, E.; Syed, Mazzheruddin Hussain;... (2017)
    Projects: EC | ERIGrid (654113)
    Smart grid systems are characterized by high complexity due to interactions between a traditional passive network and active power electronic components, coupled using communication links. Additionally, automation and information technology plays an important role in order to operate and optimize such cyber-physical energy systems with a high(er) penetration of fluctuating renewable generation and controllable loads. As a result of these developments the validation on the system level becomes...

    Towards holistic power distribution system validation and testing—an overview and discussion of different possibilities

    Strasser, Thomas; Pröstl Andrén, Filip; Lauss, Georg; Bründlinger, Roland; Brunner, Helfried; Moyo, Cyndi; Seitl, Christian; Rohjans, Sebastian; Lehnhoff, Sebastian; Palensky, Peter; Kotsampopoulos, Panos; Hatziargyriou, Nikos; Arnold, Gunter; Heckmann, Wolfram; Jong, Erik;... (2017)
    Projects: EC | ERIGrid (654113)

    Using Power-Hardware-in-the-Loop Experiments together with Co-simulation for the Holistic Validation of Cyber-Physical Energy Systems

    Nguyen, Van Hoa; Besanger, Yvon; Tran, Quoc Tuan; Boudinnet, Cédric; Nguyen, Tung Lam; Brandl, Ron; Strasser, Thomas I. (2017)
    Projects: EC | ERIGrid (654113)
    International audience; —Composed of a large variety of technologies and applications with unprecedented complexity, the smart grid, as a cyber-physical energy system, needs careful investigation of the interactions between the various domains involved, especially the coupling between the power and information systems. In this paper , two modern ways of modeling and simulating complex cyber-physical energy systems are considered: Co-simulation and Power-Hardware-in-the-Loop experiments. An an...

    Hardware-in-the-loop (HIL) Test of Demand as Frequency Controlled Reserve (DFR)

    Wu, Qiuwei; Zimmermann, K.; Østergaard, Jacob; Nielsen, Arne Hejde (2016)
    Projects: EC | ERIGrid (654113)
    This paper presents the hardware-in-the-loop (HIL) test of the demand as frequency controlled reserve (DFR). The HIL test refers to a test in which parts of a pure simulation have been replaced by actual physical components. It is used to understand the behavior of a new device or controller. The DFR has been tested by offline simulations to illustrate the efficacy of this technology. The DFR control logics have been implemented in the SmartBox. The HIL was conducted by having the SmartBox co...

    Engineering Smart Grids: Applying Model-Driven Development from Use Case Design to Deployment

    Filip Pröstl Andrén; Thomas I. Strasser; Wolfgang Kastner (2017)
    Projects: EC | ERIGrid (654113)
    The rollout of smart grid solutions has already started and new methods are deployed to the power systems of today. However, complexity is still increasing as focus is moving from a single system, to a system of systems perspective. The results are increasing engineering efforts and escalating costs. For this reason, new and automated engineering methods are necessary. This paper addresses these needs with a rapid engineering methodology that covers the overall engineering process for smart g...
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