首页|Potential of contemporary earth-sheltered buildings to achieve Plus Energy status in various European climates during the heating season
Potential of contemporary earth-sheltered buildings to achieve Plus Energy status in various European climates during the heating season
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This study investigates the potential of contemporary Earth-Sheltered Buildings to contribute to sustainable societies by achieving Plus Energy Building status during the heating season.The buildings analyzed are intended to house a four-member family(102.5 m2).The house is equipped with a ground source heat pump,geothermal vertical probes,floor heating panels,an energy recovery ventilator,and building-integrated photovoltaic panels installed on the exposed building wall.The numerical analysis(using EnergyPlus software)was carried out for nine European sites covering five different climatic zones(namely:southern,Atlantic,continental,alpine,and northern climate)and three latitude belts spanning Europe from south to north.Buildings above 65° N(northern and alpine climate)could not achieve Plus Energy status with 20%efficient BIPVs.With 15%efficient BIPVs,the building above 59° N(northern climate)was incapable of achieving this as well.Regarding the monthly time step,the buildings in the southern and Atlantic climates with 15%efficient BIPVs were able to produce an energy surplus every month,as was the building in the Alps with 20%efficient BIPVs.
civil engineeringearth-sheltered buildingsrenewable energysustainable societiesPlus Energy BuildingsEnergyPlus software
Aleksandar Ne?ovi?、Neboj?a Juri?evi?、Robert Kowalik、Ivana Terzi?
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Faculty of Engineering,University of Kragujevac,Sestre Janjić 6,34000 Kragujevac,Serbia
Faculty of Environmental,Geomatic and Energy Engineering,Kielce University of Technology,Tysiqclecia Państwa Polskiego 7,25-314 Kielce,Poland
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