Fulltext results:
- Heating load in Passive Houses
- ====== Heating load in Passive Houses ====== Due to their extremely high level of energy efficiency, the heating demand in Passive Houses (typically no higher than 15 kWh/(m²a)) is negli... in field measurements: by building to the Passive House Standard, it is actually possible to achieve ener... e, is really secondary to ensuring that a Passive House building functions properly. \\ In this sense, t
- Thermal comfort parameters @basics:building_physics_-_basics:thermal_comfort
- rnational_standards_especially_for_use_in_passive_houses|comprehensive explanation of Fangers comfort res... [{{:picopen:fig._1_air_movement_near_to_a_passive_house_window.jpg?520 | **Fig. 1** Air movement near to a Passive House window: Due to the small temperature difference b... approximately 10 cm horizontally from the passive house window (U=0.8 W/(m²K)) the maximum air speed is a
- What defines thermal bridge free design?
- las as follows. \\ [{{ :picopen:envelope_passive_house.png?300|Due to thermal bridge free design, the he... ply be omitted during the planning of the Passive House - this saves a lot of work during calculations. On the [[http://www.passivehouse.com/component-database|Passive House Institute website]] there are many examples of construction systems
- Local thermal comfort @basics:building_physics_-_basics:thermal_comfort
- optimum way with the requirements of the Passive House Standard - Improved thermal insulation simultaneo... l comfort#Literature|[Pfluger 2003] ]]). "Passive House quality", particularly for windows, can even be d... nsulating effect of a window suitable for Passive Houses must be so efficient that even under the coldest... eaks – which do not occur in the airtight Passive House anyway) are due to uplift at surfaces which have
- Special features and characteristics of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
- :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]]. ===== Influence of th... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] which takes into account... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] this problem is analysed... skirt insulation:** **[AkkP 48]** Using Passive House technology for retrofitting non-residential build
- Definition and effects of thermal bridges @basics:building_physics_-_basics:thermal_bridges
- ects of thermal bridges can be avoided in Passive Houses: the interior surface temperatures are then so h... % (DIN EN ISO 14683, Section 5.1). **For Passive House buildings, the use of thermal bridge additions i... onstructions, particularly in the area of Passive House buildings, taking the Ψ-values into account can c... n therefore be decisive for achieving the Passive House Standard in a construction project. ==== Effect
- Adaptive versus Heat Balance Comfort Models @basics:building_physics_-_basics:thermal_comfort
- ls ====== \\ Author: Jürgen Schnieders, Passive House Institute.\\ ===== Why PHI is not using adaptive... ratures empirically. In the view of the Passive House Institute, there is a number of strong arguments ... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package:calculations_in_hot_and_humid_cl... in hot and humid climates]] \\ [[basics:passive_houses_in_different_climates:study_passive_houses_for_d
- Thermal comfort
- ====== Thermal comfort ====== Passive Houses are buildings that need very little energy to achieve a com... e_mit_logo.png|}}| |**Infrared image of a Passive House window from the inside.\\ All surfaces (window fr... basics:thermal_comfort:Thermal_comfort_in_Passive_House_Building|Thermal comfort in Passive House buildings 1 ]] [[basics:building_physics_-_basics:thermal_com
- Exterior wall on floor slab @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] calculation. In the exam... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] assume that floor slabs ... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]]. <WRAP centeralign> **C... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] the edge insulation ther
- Unheated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]]; for this, some rows in ... of the Research Group for Cost-effective Passive Houses and is demonstrated below. Only the conductances... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] $\Psi_{exterior wall}$
- Thermal Bridges Catalogue @basics:building_physics_-_basics:thermal_bridges
- s therefore excluded. |[[https://database.passivehouse.com/de/download/product_page/thermal-bridge-catal... he catalog for free.| |[[https://database.passivehouse.com/de/download/product_page/thermal-bridge-catal
- Basic principle for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- = −5 °C for outdoor air temperature The Passive House Institute uses the following boundary conditions ... ature in the context of **[[certification:passive_house_suitable_components|Component certification]]**:
- Software for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- of the research Group for Cost-effective Passive Houses, 1st edition, Passive House Institute, Darmstadt 1999 [[http://www.passiv.de/de/05_service/01_literatur
- Heated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]] it is sufficient to ente... :calculating_energy_efficiency:phpp_-_the_passive_house_planning_package |PHPP]], U-values for the baseme
- Heat transfer
- y (the building envelope in the case of a Passive House building) as a result of a temperature difference