Experts, Designers and Auditors
Learning programme MEP skills for nZEB execution (white collars-execution engineers) Goals/Objectives Total number of hours 14 Total number of credit
Learning programme nZEB concept in practice (public authorities) Goals/Objectives Total number of hours 14 Total number of credits N/A Minimum EQF f
Learning programme Bioclimatic Design Goals/Objectives Total number of hours 12 Total number of credits N/A Minimum EQF for participants 6 Pre-curri
Based on the Passive House Standard:
Heating demand - 15 kWh / (m2a) calculated according to PHPP
Heating load - 15W/m2
Cooling/dehumidification needs - 14 kWh / (m2a) calculated according to PHPP
Cooling load - 10W/m2
Airtightness - n50 = 0.58/h
PER demand (renewable primary energy) - 29 kWh / (m2a) for heating, hot water, auxiliary and household electricity calculated according to PHPP
Generation of renewable energy - 136 kWh / (m2a) reference to built-up area
PE requirements (non-renewable primary energy) - 59 kWh / (m2a) for heating, hot water, auxiliary and household electricity calculated according to PHPP
Primary energy consumption: 108kWh/m2year
Building tightness: 0.56/h
CO2 emissions: 12 kgCO2/m2year
Renewable share of energy: 34%
Primary energy consumption: 96 kWh/m2year
Building tightness: 0.28/h
CO2 emissions: 11 kgCO2/m2year
Renewable share of energy: 50%
Primary energy consumption (includes RES): 77kWh/mp/year
Building tightness: 1 ACH@50Pa
CO2 emissions: 9 kgCO2/mp/year
Renewable share of energy: 60%
Primary energy consumption (includes RES): 71kWh/mp/year
Building tightness: 1 ACH@50Pa
CO2 emissions: 9 kgCO2/mp/year
Renewable share of energy: 51%
So far, the simulation with the best values was the house with LSF structure and ICB insulation 10cm on the outside and 10cm of rock wool on the inside.
Energy needed for heating: 12,31 kWh/(m2a)
Energy needed for cooling: 7,92 kWh/(m2a)
Building tightness: n/a
CO2 emissions: on going
Embodied energy: on going