1. Digital Architecture for Monitoring and Operational Analytics of Multi-Vector Microgrids Utilizing Cloud Computing, Advanced Virtualization Techniques, and Data Analytics Methods.
- Author
-
Patsidis, Angelos, Dyśko, Adam, Booth, Campbell, Rousis, Anastasios Oulis, Kalliga, Polyxeni, and Tzelepis, Dimitrios
- Subjects
MICROGRIDS ,RENEWABLE energy sources ,OPERATING costs ,REAL-time control ,COST control ,CLOUD computing - Abstract
Microgrids are considered a viable solution for achieving net-zero targets and increasing renewable energy integration. However, there is a lack of conceptual work focusing on practical data analytics deployment schemes and case-specific insights. This paper presents a scalable and flexible physical and digital architecture for extracting data-driven insights from microgrids, with a real-world microgrid utilized as a test-bed. The proposed architecture includes edge monitoring and intelligence, data-processing mechanisms, and edge–cloud communication. Cloud-hosted data analytics have been developed in AWS, considering market arrangements between the microgrid and the utility. The analysis involves time-series data processing, followed by the exploration of statistical relationships utilizing cloud-hosted tools. Insights from one year of operation highlight the potential for significant operational cost reduction through the real-time optimization and control of microgrid assets. By addressing the real-world applicability, end-to-end architectures, and extraction of case-specific insights, this work contributes to advancing microgrid design, operation, and adoption. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF