VENTILATION SYSTEM
Climatic comfort control and air quality control. Air renewal 0,3/h. Heating and cooling charge.
HEAT RECOVERY
Energy exchange between indepedient flows (outgoing and incoming)
SELF-CONSUMPTION / NEARLY ZERO ENERGY CONSUMPTION
Battery powered energy storage system to accumulate energy in order to use it in the future
THERMAL ISOLATION
Continuous Large thicknesses thermal insulation throughout the passive exterior building skin of the building.
The external temperature variations does not influence the house indoor comfort.
The external temperature variations does not influence the house indoor comfort.
AIR TIGHTNESS
Air thightness throughout the passive exterior skin of the building (n50 ≤ 0,6h)
DECIDUOUS VEGETATION AND GREEN COVER
South and west sun protection in summer and passing of the sun in winter. Solar radiation absortion and evapotranspiration from the ground.
SOLAR CONTROL
Setback of windows in facades.
CANADIAN WEELS
Harnessing the wind, as a renewable source for pre-heating and precooling of ventilation air by termal inertia.
AIR QUALITY
Air renewal of 0,3/h.
Control of the CO2 level by placing CO2 probes in the classrooms.
Control of the CO2 level by placing CO2 probes in the classrooms.
PASSIVE STRATEGIES
Compactness, orientation and wind control, termal inertia of materials.
AEROTHERMIA
Installation of a back-up aerothermical energy system
The hot water supply will be realised by aerothermal energy.
The hot water supply will be realised by aerothermal energy.
ELECTRIC POWER GENERATION
Through renewable sources (solar energy, photovoltaic panels)