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Autores principales: Silano, Giuseppe, Rikos, Evangelos, Rajkumar, Vetrivel, Gehrke, Oliver, Zerihun, Tesfaye Amare, Rodio, Carmine, Lazzari, Riccardo
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2407.00093
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author Silano, Giuseppe
Rikos, Evangelos
Rajkumar, Vetrivel
Gehrke, Oliver
Zerihun, Tesfaye Amare
Rodio, Carmine
Lazzari, Riccardo
author_facet Silano, Giuseppe
Rikos, Evangelos
Rajkumar, Vetrivel
Gehrke, Oliver
Zerihun, Tesfaye Amare
Rodio, Carmine
Lazzari, Riccardo
contents This paper investigates the integration and validation of multi-energy systems within the H2020 ERIGrid 2.0 project, focusing on the deployment of the JaNDER software middleware and universal API (uAPI) to establish a robust, high-data-rate, and low-latency communication link between Research Infrastructures (RIs). The middleware facilitates seamless integration of RIs through specifically designed transport layers, while the uAPI provides a simplified and standardized interface to ease deployment. A motivating case study explores the provision of power-to-heat services in a local multi-energy district, involving laboratories in Denmark, Greece, Italy, the Netherlands, and Norway, and analyzing their impact on electrical and thermal networks. This paper not only demonstrates the practical application of Geographically Distributed Simulations and Hardware-in-the-Loop technologies but also highlights their effectiveness in enhancing system flexibility and managing grid dynamics under various operational scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2407_00093
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Integrating Power-to-Heat Services in Geographically Distributed Multi-Energy Systems: A Case Study from the ERIGrid 2.0 Project
Silano, Giuseppe
Rikos, Evangelos
Rajkumar, Vetrivel
Gehrke, Oliver
Zerihun, Tesfaye Amare
Rodio, Carmine
Lazzari, Riccardo
Distributed, Parallel, and Cluster Computing
This paper investigates the integration and validation of multi-energy systems within the H2020 ERIGrid 2.0 project, focusing on the deployment of the JaNDER software middleware and universal API (uAPI) to establish a robust, high-data-rate, and low-latency communication link between Research Infrastructures (RIs). The middleware facilitates seamless integration of RIs through specifically designed transport layers, while the uAPI provides a simplified and standardized interface to ease deployment. A motivating case study explores the provision of power-to-heat services in a local multi-energy district, involving laboratories in Denmark, Greece, Italy, the Netherlands, and Norway, and analyzing their impact on electrical and thermal networks. This paper not only demonstrates the practical application of Geographically Distributed Simulations and Hardware-in-the-Loop technologies but also highlights their effectiveness in enhancing system flexibility and managing grid dynamics under various operational scenarios.
title Integrating Power-to-Heat Services in Geographically Distributed Multi-Energy Systems: A Case Study from the ERIGrid 2.0 Project
topic Distributed, Parallel, and Cluster Computing
url https://arxiv.org/abs/2407.00093