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Abstract
One of the goals of future cities in many regions around the world is that they become smart cities. One of the major contributions that implement the smart cities concept is the use of renewable energy sources, which, in its turn, leads to the desired decarbonized society. In order to make it possible, it is necessary to ensure sustainability policies to take it into account either by using natural resources (e.g., replacing the so far used energy sources by renewable ones) or by saving resources (e.g., energy, water…), clearly resulting in financial and ecological savings.
One of the main objectives of these cities is they can be energetically autonomous, sustainable, and digitally more and more efficient. But for this to happen, it is necessary to depart from the existing services and respective buildings and implement therein efficient energy policies.
Based on these assumptions, this paper presents the research work results derived from a case study focused on a kindergarten infrastructure. In order to implement the smart energy and smart city concepts, endogenous resources were used, such as the Sun, garden facades, a heat pump and remote digital management mode.
Concurrent with the migration to renewable energy sources, other efficiency actions were taken as part of the research. They encompassed the development of consumers’ digital capabilities, the control and remote management of energy systems and the decrease of consumption and associated costs. Finally, increase the mobility of employees with the installation of an electric charging station, whose energy source will be generated from the installed system.
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