Abstract
The world demands a smart and green future in every sector, which directly corresponds to increases in electrical energy demand one way or another. It is unfeasible to attain future energy demand with the present electrical infrastructure. That means more research and development is required. Future energy sources should be intermittent, and, in addition, the energy sector should be more inwards for distributed energy generation with demand side control. In such cases, the smartest and most autonomous system would be essential to deliver an adequate power supply with all electrical properties. A real-time monitoring and control system with a self-healing infrastructure is a forthcoming desideratum. By accepting these challenges, we have designed a smart street. The basic idea of the smart street is presented in this paper as a landing page; the paper is more focused on emphasizing information regarding the electrical energy flow algorithm for the household, street, and street battery storages. This algorithm is helpful for two-way energy flow and the automatic detection of islanding and the grid connection mode. It will be not only helpful for the users but to the utility as well.
Highlights
Maximum load value was reached as the fault occurred during the peak hours: this amounted to approximately 112.13 kWh of energy, and for fulfilling the load, 50.11 kWh of the energy was supplied by the battery in the smart street
In peak hours, the electricity supply is prioritized to draw from the street power generation, street storage, and EVs
We have attempted to put forward some general information about our smart street, which was very essential for better comprehension of the algorithm
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Electrical energy is one of the dominant themes of research and development in the. The world is eagerly seeking the best alternative solution to fossil fuels to generate electrical energy. Generation is the solution, as demand has become highly sensitive in recent years. Most of the alternative solutions are unpredictable sources of energy. That means we will not be able to follow the same patterns we have been following for a long time, utilizing electrical energy at the same time of generation. The development of immense storage systems is one of the challenging topics for researchers
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