Fulltext results:
- Heated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- rmal bridges. {{ :picopen:beheizter_keller_abb_1.png?400 |}} The procedure for determining the mentio... the Ψ-values. {{ :picopen:beheizter_keller_abb_2.png?400 |}} According to the figure above, the U-val... as follows: {{ :picopen:beheizter_keller_abb_3a.png?800 |}} {{ :picopen:beheizter_keller_abb_3b.png?800 |}} {{ :picopen:beheizter_keller_abb_3c.png?800
- Unheated basement @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- to account. {{ :picopen:unbeheizter_keller_abb_1.png?800 |}} This transfer resistance is assigned to ... ng detail: {{ :picopen:unbeheizter_keller_abb_2.png?400 |}} \\ {{ :picopen:unbeheizter_keller_abb_3a.png?800 |}} {{ :picopen:unbeheizter_keller_abb_3b.png?800 |}} {{ :picopen:unbeheizter_keller_abb_3c.png?80
- Passive House buildings in different climates
- more...]] [{{:picopen:map_ph_different_climates.png?1000| **The principle remains the same - the deta... he articles Passipedia {{:picopen:logo_passipedia.png?50}} provides to the corresponding climate zones:... climates|cold climates]] {{:picopen:members_only.png?25}}|Yekaterinburg \\ Sweden| ^[[basics:passive_h... ates|hot, dry climates]] {{:picopen:members_only.png?25}}| Las Vegas| ^[[basics:passive_houses_in_diff
- Economy and financing of efficiency: new buildings, renovation and step by step retrofit @basics:affordability:investing_in_energy_efficiency
- and step by step retrofit ====== {{:picopen:iee_.png?nolink}} [[http://europhit.eu|{{:picopen:europhit_logo.png?nolink}}]] \\ \\ Authors: Witta Ebel, Wolfgang F... n the long run. \\ |{{:picopen:18pht_ebel_fig_1.png}}|//**Figure 1:** Cash value (or present value) o... necessary to verify: |{{:picopen:18pht_ebel_fig2.png}}|{{:picopen:18pht_ebel_fig3.png}}|{{:picopen:18p
- Exterior wall on floor slab @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- w: {{ :picopen:aussenwand_auf_bodenplatte_abb_4.png? |}} {{ :picopen:aussenwand_auf_bodenplatte_abb_5.png?800 |}} **Note!** //Before preparing the calcul... ll: {{ :picopen:aussenwand_auf_bodenplatte_abb_6.png?800 |}} {{ :picopen:aussenwand_auf_bodenplatte_abb_7.png?800 |}} \\ ===== Calculation model ===== First,
- Economic feasibility of Passive House design @basics:affordability
- [[http://www.passreg.eu/|{{:picopen:logo_passreg.png?200}}]] \\ \\ \\ \\ Author: Berthold Kaufmann \... ycle_costs_for_renovation_of_single_family_home_1.png?700 |**Figure 1:**** Full life cycle costs for re... h_9_dwelling_units_as_ph_buildings_in_darmstadt_1.png?1000 | **Figure 2:** **Row house project with 9 d... [{{ :picopen:configuration_of_building_envelope_.png | **Table 1:** **Configuration of building envelo
- Are Passive Houses cost-effective? @basics:affordability:investing_in_energy_efficiency
- for heating.**//|\\ \\ |{{ :picopen:daemm_neh_ph.png?400 }}| |//**__Fig. 2:__ The most important step ... r.\\ \\ |{{ :picopen:groundfloor_sfh_passivehouse.png?400 }}| |//**__Fig. 3:__ Floor plan of the single... short.**//|\\ \\ |{{ :picopen:2f_efh_passivehouse.png?400 }}| |//**__Fig. 4:__ Floor plan of the upper ... ).\\ \\ |{{ :picopen:passivhaus_fenster_beispiele.png?400 }}| |//**__Fig. 5:__ Passive House suitable w
- What defines thermal bridge free design? @basics:building_physics_-_basics
- follows. \\ [{{ :picopen:envelope_passive_house.png?300|Due to thermal bridge free design, the heat l... n the picture.}}] [{{:picopen:wbfrei_fusspunkt.png?280|Example showing the thermal bridge free conne... {{:picopen:psi_waermebruecke_fusspunkt_aussenwand.png?400|Dependence of the linear thermal transmittanc... \\ [{{:picopen:thermo_ext_wall_passive_house_en.png?400|The thermographic image of the base point of
- Primary Energy Renewable PER @basics:energy_and_ecology
- future scenario. [{{:picopen:per_landing_fig_1.png?600 |**Fig 1: Primary Energy Rating: From PE to P... dress the demand. |[{{:picopen:per_landing_fig_2.png?250|**Fig 2: The net-zero Low energy building (LE... ally stored...**}}]|[{{:picopen:per_landing_fig_3.png?250|**Fig. 3: The same building as a Passive Hous... ergy building.**}}]|[{{:picopen:per_landing_fig_4.png?250|**Fig. 4: In the case of the Passive House, t
- Internal heat capacity
- race house.\\ \\ |{{ :picopen:sommer_temperaturen.png?500 }}| |//**Temperature course during a hot spel... ing demand ==== |{{ :picopen:einfluss_kapazitaet.png?400 }}| |//**Influence of the internal heat capac... \\ |{{ :picopen:interne_masse_sommertemperaturen.png?500 }}| |//**Influence of the internal heat capac... heat demand ==== |{{ :picopen:einfluss_daemmung.png?400 }}| |//**Influence of the thermal insulation
- Renewable primary energy demand in residential buildings with high energy intensity @basics:passive_house_-_assuring_a_sustainable_energy_supply
- rgy intensity ====== [{{ :picopen:per_tool_open1.png?nolink&600|Figure 1. The graph shows the final en... tion for ventilation: [{{ :picopen:per_too_open2.png?nolink&600 |Figure 2. Example of the calculation ... ng used in Figure 2. [{{ :picopen:per_tool_open3.png?nolink&600 |Figure 3. Example of the calculation ... ertification|here]]. [{{ :picopen:per_tool_open4.png?nolink&600|Figure 4. Adjustment of the limit for
- Passive House – the next decade | Determining application-specific PER factors @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
- en:en_18pht_139_plenum_sanm_feist_wolfgang_fig_06.png?600}}|\\ |//**Figure 6: \\ Primary renewable ener... en:en_18pht_139_plenum_sanm_feist_wolfgang_fig_07.png?600}}|\\ |//**Figure 7: \\ Size of the equivalent... en:en_18pht_139_plenum_sanm_feist_wolfgang_fig_08.png?600}}|\\ |**//Figure 8: Renewable primary energy ... en:en_18pht_139_plenum_sanm_feist_wolfgang_fig_09.png?600}}|\\ |**//Figure 9: \\ Renewable primary ener
- Special features and characteristics of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact
- Renewable primary energy demand in residential buildings with high energy intensity
- rgy intensity ====== [{{ :picopen:per_tool_open1.png?nolink&600|Figure 1. The graph shows the final en... tion for ventilation: [{{ :picopen:per_too_open2.png?nolink&600 |Figure 2. Example of the calculation ... ng used in Figure 2. [{{ :picopen:per_tool_open3.png?nolink&600 |Figure 3. Example of the calculation ... ertification|here]]. [{{ :picopen:per_tool_open4.png?nolink&600|Figure 4. Adjustment of the limit for
- Life Cycle energy balances, Embodied energy and the Passive House Standard @basics:energy_and_ecology
- Philips Experimental House Research 1974ff: Passive versus Active Measures in Europe & America @basics:the_passive_house_-_historical_review
- Efficiency of household appliances and their impact on the primary energy demand of residential buildings @basics:passive_house_-_assuring_a_sustainable_energy_supply
- Interior walls on floor slabs @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- Basic principle for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- Recommended procedure for calculating thermal bridges of components in contact with the ground @basics:building_physics_-_basics:thermal_bridges:tbcalculation:ground_contact