Abstract
Power system operation is of vital importance and must be developed far beyond today’s practice to meet future needs. Almost all European countries are facing an abrupt and very important increase of renewables with intrinsically varying yields which are difficult to predict. In addition, an increase of new types of electric loads and a reduction of traditional production from bulk generation can be observed as well. Hence, the level of complexity of system operation steadily increases. Because of these developments, the traditional power system is being transformed into a smart grid. Previous and ongoing research has tended to focus on how specific aspects of smart grids can be developed and validated, but until now there exists no integrated approach for analysing and evaluating complex smart grid configurations. To tackle these research and development needs, a pan-European research infrastructure is realized in the ERIGrid project that supports the technology development as well as the roll-out of smart grid technologies and solutions. This paper provides an overview of the main results of ERIGrid which have been achieved during the last four years. Also, experiences and lessons learned are discussed and an outlook to future research needs is provided.
Highlights
Power system operation is of vital importance and has to be developed far beyond today’s practice in order to meet future needs like the integration of Renewable Energy Resources (RES), Battery Energy Storage Systems (BESS), Electrical Vehicle Supply Equipment (EVSE) and other types of new devices and components [1, 2]
The roll-out of smart grid technology, solutions, and corresponding applications based on recent developments in Information and Communication Technology (ICT) and power electronics is of particular importance in order to realize a number of advanced system functionalities [4, 5]
The expected large-scale roll out of smart grid products and solutions during the few years requires a multi-disciplinary understanding of several domains
Summary
Power system operation is of vital importance and has to be developed far beyond today’s practice in order to meet future needs like the integration of Renewable Energy Resources (RES), Battery Energy Storage Systems (BESS), Electrical Vehicle Supply Equipment (EVSE) and other types of new devices and components [1, 2]. In order to tackle the above identified research and development needs, a pan-European Research Infrastructure (RI) has been realized in the European ERIGrid project which supports the technology development as well as the roll out of smart grid technology and solutions [7]. It provides a holistic, CPES-based approach by integrating European research centres and institutions with outstanding power system and smart grid laboratory infrastructure to jointly develop common methods, concepts, and procedures and provide them for free to researchers, engineers, and students.
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