This study presents Integrid's project framework to manage low voltage (LV) electrical networks, aiming to avoid both technical and quality constraints, induced by the ever-increasing amount of flexible resources spread all over the grid. These assets cover a large amount of renewable-based energy generation to electrical vehicles and energy storage units. For this to be possible, new advanced tools were developed to exploit the benefits of the so-called distributed energy resources, while overcoming limitations on the metering and communication infrastructures. Hence, this study describes the approach taken to perform the active management of LV networks, without a perfect level of observability, exploiting the flexibility provided by the distribution system operator's resources combined with the one offered by private consumers through the home energy management systems. Additionally, some results followed by a brief discussion are presented, enforcing the success of the developed tools. The algorithms within these tools allow to forecast both microgeneration, available flexibility and load profiles, as well as to estimate the network's state, at different time frames.
CITATION STYLE
Lopes, D. F., Simões, M., Sampaio, G., Rua, D., Machado, P., Bessa, R., … Madureira, A. (2020). From home energy management system local flexibility to low-voltage predictive grid management. In CIRED - Open Access Proceedings Journal (Vol. 2020, pp. 94–97). Institution of Engineering and Technology. https://doi.org/10.1049/oap-cired.2021.0031
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