![]() ![]() The Air handling units obtain the fresh air from the terrace area on the mezzanine floor. Zone 8 is fed via the Air handling units located on the mezzanine floor. This zone is studied in more detail in software compared to other zones, including the determination of the materials and their heat conductivity coefficients used in walls, glaze and ceiling components. ![]() In the building model, the Departures Waiting Area is denoted as Zone 8. The model of the building is drawn in Ecotect Analysis 2011 software in order to determine the heating needs of the place during winter months. Integration of the unglazed transpired collector system is developed and heating load reductions in the demand of places with fresh air need as a result of heating of the intake air during winter months are calculated. In this study, the use of solar energy is investigated for supplying of some of the heating energy needs of departing floor of Sabiha Gökçen Airport. Solar energy systems are of preference when green energy consumption in buildings is desired. For this reason, buildings that consume green energy have gained increasing importance. The greenhouse gases that arise as a result of fossil fuel consumption leads to increases in the temperature of the world. ENERGY PERFORMANCE OF BUILDING INTEGRATED SOLARWALL SYSTEM CASE STUDY: SABİHA GÖKÇEN AIRPORT SUMMARY Most of the energy needs of the world is supplied via fossil fuels. ![]()
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