Fulltext results:
- Heating load in Passive Houses
- ld measurements: by building to the Passive House Standard, it is actually possible to achieve energy saving... to the DIN 1946 – health criterion). At 21°C and standard pressure, air has a heat capacity of 0.33 Wh/(m<s... therefore seem appropriate to apply the existing standards for determining the space heating load [EN 12831]. However, it soon became evident that this standardised method led to extreme over-dimensioning in th
- Thermal comfort parameters @basics:building_physics_-_basics:thermal_comfort
- results have been incorporated into international standards (DIN ISO 7730). A large part of the information ... pb_25:comfort_criteria_according_to_international_standards_especially_for_use_in_passive_houses|comprehensi... pb_25:comfort_criteria_according_to_international_standards_especially_for_use_in_passive_houses#Appendix: C... mfort equation]]). Furthermore, according to this standard it is essential that * the sultriness limit
- What defines thermal bridge free design?
- the external surfaces and regular U-values of the standard building elements alone. Regularly occurring thermal bridges in standard building components must already be taken into ac... efore be decisive for achieving the Passive House standard in the first place.\\ \\ [{{:picopen:thermo_ext_
- Definition and effects of thermal bridges @basics:building_physics_-_basics:thermal_bridges
- rate and lower surface temperatures than adjacent standard building components. They occur particularly at t... oints, edges, transitions and penetrations of the standard building components. They are depicted by the lin... efore be decisive for achieving the Passive House Standard in a construction project. ==== Effect on the b
- Examples of thermal bridge calculations @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- Interior walls on floor slabs @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- Special features and characteristics of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
- Recommended procedure for calculating thermal bridges of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
- Thermal Bridges Catalogue @basics:building_physics_-_basics:thermal_bridges
- not possible (e.g. modernisation to the EnerPHit Standard), this thermal bridge catalogue can support the d
- Adaptive versus Heat Balance Comfort Models @basics:building_physics_-_basics:thermal_comfort
- y experiments. They resulted in the international standard ISO 7730 which allows for the calculation of the
- Local thermal comfort @basics:building_physics_-_basics:thermal_comfort
- um way with the requirements of the Passive House Standard - Improved thermal insulation simultaneously impr