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MODULAR HOUSES WITH SOLAR ENERGY SCENARIOS, BETWEEN TECHNOLOGIES AND LIMITATIONS

Gheorghe Badea

Abstract

The buildings sector currently consumes between 30% and 40% of the total energy produced in the developed countries while contributing over 35% of the total carbon emissions, most of them being built without taking into account passive strategies as well as the integration of renewable energy resources RRE. Given that the technology of solar energy is constantly increasing, adapting continuously to existing solutions is necessary. In this paper we approach the implementation of solar technologies, taking into account the most complex case, respectively, the implementation of a thermal photovoltaic hybrid system (BIPV-T), which has a multiple structural and aesthetic role in generating electricity and thermal energy, but also improving the energy performance, in terms regarding the relationship between the technical system and the building. Through this type of approach the same building has different energy attributes when the amount of thermal energy / electricity is higher or lower than the required energy requirement. In order to implement the system (BIPV-T), a series of technical information is presented, regarding the interaction of thermal collectors and PV based mainly on simultaneously satisfying the energy requirement on the one hand, and on the other hand solving the limitations of the necessary parameters that characterize the hybrid system. In this sense, an alternative is presented, with new solutions and concepts by implementing solar energy in the buildings of the future and sustainable modular homes, aimed at presenting the performance and reducing the limitations of a complex hybrid system.

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DOI resolver: doi.org/10.5593/sgem2019v/6.3/s10.061

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