The paper provides an overview of the main achievements and results of the ERIGrid project, which aimed to tackle the research and development needs for validating smart grid configurations from a holistic, cyber-physical systems perspective.
The key highlights include:
Development of a holistic validation methodology and improvement of simulation-based methods, hardware-in-the-loop approaches, and lab-based testing for comprehensive smart grid validation. This includes the creation of a procedural support for adopting complex test platforms, co-simulation techniques, and multi-laboratory integration through the JaNDER platform.
Creation of educational resources, such as e-learning tools, hands-on laboratory exercises, webinars, and training schools, to develop the necessary skills and expertise for the energy transition among students, researchers, and professionals.
Provision of free access to the ERIGrid research infrastructure, comprising 19 facilities across 11 European countries, to external researchers, engineers, and students through 75 implemented user projects covering a wide range of smart grid-related topics.
The paper also discusses the experiences and lessons learned from these activities, as well as the need for further research and development to address the integration of electric power systems with other energy domains and the standardization of multi-domain cyber-physical energy systems validation procedures.
Til et andet sprog
fra kildeindhold
arxiv.org
Vigtigste indsigter udtrukket fra
by T. I... kl. arxiv.org 04-25-2024
https://arxiv.org/pdf/2404.15796.pdfDybere Forespørgsler