Utilization in Microgrids through Advanced Predictive Algorithms

Utilization in Microgrids through Advanced Predictive Algorithms

The inclusion of renewable energy sources into the nominal circuit of residential microgrids poses several issues due to the stochastic nature of renewable resources. This paper examines a full-scale DSM plan for a grid-integrated residential microgrid environment focusing on improved energy usage p...

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Bibliographic Details
Main Authors: K Aravind, Lakhanpal Sorabh, Pushpa Rani K., Khattab Al-Rubaye Taqi Mohammed, Tewari Preeti, Shanmugasundaram Ravivarman
Format: Article
Language:English
Published: EDP Sciences 2025-01-01
Series:E3S Web of Conferences
Subjects:
demand-side management (dsm)
real-time demand response
renewable energy utilization
energy storage systems
residential microgrids
ai-based load forecasting
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2025/19/e3sconf_icsget2025_02003.pdf
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Summary:The inclusion of renewable energy sources into the nominal circuit of residential microgrids poses several issues due to the stochastic nature of renewable resources. This paper examines a full-scale DSM plan for a grid-integrated residential microgrid environment focusing on improved energy usage profiles, cost-efficiency, and integration of renewables. However, in contrast to the conventional load management, this approach consists of real time demand response and energy storage system, which makes the grid more flexible and reliable. One of the main results of calculations, based on data collected from living lab environments within the GSBP in Benguerir Morocco and performed in Matlab, is the range of a monthly energy saving of about 59% coupled with a monthly use of renewable energy of about 23%. The study goes further in explaining a more generalized application of AI predictive models to demand response and non-storage techniques for reliability. Overall, the results suggest that it is still possible to gain additional levels of energy savings and grid stability – proving that such an approach can be considered as highly scalable and more universally applicable to other residential and urban microgrids. Future work will analyse how cybersecurity measures can be implemented and how the system can be adjusted according to various energy markets.
ISSN:2267-1242

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