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- Planning criteria for Passive Houses in New Zealand @basics:passive_houses_in_different_climates
- Houses in typical climates of New Zealand. Three different climate zones were selected (chapter 2), in whic... ===== Read more ===== [[basics:passive_houses_in_different_climates:planning_criteria_for_passive_houses_in_... :Climate conditions]] [[basics:passive_houses_in_different_climates:planning_criteria_for_passive_houses_in_... on model and method]] [[basics:passive_houses_in_different_climates:planning_criteria_for_passive_houses_in_
- Economic analysis for the retrofit of a detached single family house to the EnerPHit standard @planning:refurbishment_with_passive_house_components
- Basic principle for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- List of Passive House Conference contributions since 1996 @phi_publications
- ife Cycle Assessment results of PH buildings with different construction methods |189 |Results and Analysis, ... ife Cycle Assessment results of PH buildings with different construction methods |179 | |2013 |17 |Results ... Poster |Tribus, Michael; Noguera Bertran, Daniel |Different approaches in basement isolation in a Passivhaus ... ble solutions for multistory apartment complexes |Different approaches in basement isolation in a Passivhaus
- Passive House buildings in different climates @basics
- ====== Passive House buildings in different climates ====== ==== Passive House buildings: a method rather th... d ventilation and just copy these to a completely different situation because * there is a specific buildi... der consideration. \\ [[basics:passive_houses_in_different_climates:introduction|Read more...]] [{{:picopen:map_ph_different_climates.png?1000| **The principle remains the sa
- PER-factors for electricity use: Location & application specific decarbonisation @certification:passive_house_categories
- rely on electricity from renewable sources. Three different sources are taken into account: Photovoltaics, wi... bines and hydropower. Biomass needs to be treated differently in the calculations as it can easily be stored ... mand at the building === At the receiving end we differentiate between five different load profiles for different types of energy consumption: household electricity, d
- The Passive House in summer @basics
- ly reduces the heat exchange between systems with different temperatures. Therefore, it also protects a cool... uring the hot summer of 1993;\\ measured on three different floors on the southern side of the\\ Darmstadt-Kr... cteristics of Passive Houses built according to **different construction methods** and having a **different orientation** – taking account of the type and level of shad
- Articles in the member area @start:become_a_member
- measurements_and_hygrothermal_simulations_of_four_different_interior_insulation systems:start]]| |[[basics:af... ential buildings]]| \\ ===== Passive Houses in different climates ===== |[[basics:passive_houses_in_different_climates:passive_houses_in_cold_climates|]]| |[[basics:passive_houses_in_different_climates:passive_houses_in_subtropical_climate|]]
- Comparison of in-situ measurements and hygrothermal simulations of four different interior insulation systems @planning:thermal_protection:thermal_protection_works:comparison_of_in_situ_measurements_and_hygrothermal_simulations_of_four_different_interior_insulation_systems
- measurements and hygrothermal simulations of four different interior insulation systems ====== ===== Intro... measurements_and_hygrothermal_simulations_of_four_different_interior_insulation systems:start#references|[Zam... cept of interior insulation was followed and four different insulation systems were applied in different rooms. In order to investigate the influence of the interior in
- List of articles from the Research Group for Cost-effective Passive Houses @phi_publications
- Group meets 3 to 4 times per year, focussing on a different issue each time, ranging from general Passive Hou... ic aspects and optimised cost-effectiveness; from different types of buildings, construction types and climat... Chlorine electrolysis for hot water generation in different construction projects in Frankfurt and Darmstadt|... |Energy-efficient hot water systems|Comparison of different systems for hot water generation | |2015 |49 |Ene
- Introduction - Passive House buildings in different climates @basics:passive_houses_in_different_climates
- ====== Introduction - Passive House buildings in different climates ====== |{{:picopen:map_ph_different_climates.png?800}}| |**The principle remains the same - the de... d ventilation and just copy these to a completely different situation because * there is a specific buildi... specific design of passive houses may look quite different in varying circumstances, the leading principle w
- Component Award 2016: Affordable ventilation solutions for retrofits @planning:refurbishment_with_passive_house_components
- Building Integrated Photovoltaics (BIPV) in Step by Step Retrofitting Projects @planning:refurbishment_with_passive_house_components
- PHI window certification: previous success and new climate zones @planning:thermal_protection:windows:window_certification
- Electric Energy Efficiency for Households – Doing the whole step towards energy efficiency @sinfonia
- Step-by-step deep retrofit and building integrated façade/roof on a 'million program' house @planning:refurbishment_with_passive_house_components
- Passive House schools – How to go about it @planning:non-residential_passive_house_buildings:passive_house_schools
- Efficiency of household appliances and their impact on the primary energy demand of residential buildings @basics:passive_house_-_assuring_a_sustainable_energy_supply
- Checklist for Design: Ventilation System in a residential Passive House Building @planning:building_services:ventilation
- Examples of thermal bridge calculations @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- Exterior wall on floor slab @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- Interior walls on floor slabs @basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples
- Riedberg Passive House School, Frankfurt, Germany @examples:non-residential_buildings:passive_house_schools
- Energy efficiency of the Passive House Standard: Expectations confirmed by measurements in practice @operation:operation_and_experience:measurement_results
- Calculation guide for temperature reduction factors to temperature zone "X" in the PHPP "Areas" worksheet @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Floor Replacement: Svartbäcksvägen @planning:refurbishment_with_passive_house_components:thermal_envelope
- Economy and financing of efficiency: new buildings, renovation and step by step retrofit @basics:affordability:investing_in_energy_efficiency
- Comparison of energy performance of ventilation systems using passive vs. active heat recovery @planning:building_services:ventilation
- Overall retrofit plan for step-by-step retrofits to EnerPHit Standard @planning:refurbishment_with_passive_house_components
- Passive House – the next decade | Determining application-specific PER factors @basics:passive_house_-_assuring_a_sustainable_energy_supply:passive_house_the_next_decade
- PHPP - validated and proven in practice @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Variant calculations and economic assessment with PHPP 9 @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Airtightness and airtightness measurement @planning:refurbishment_with_passive_house_components:thermal_envelope
- Philips Experimental House Research 1974ff: Passive versus Active Measures in Europe & America @basics:the_passive_house_-_historical_review
- Internal heat gains in relation to living area @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Passive House Schools - Boundary Conditions @planning:non-residential_passive_house_buildings:passive_house_schools
- Evaluation of server and server room efficiency for non-residential buildings that exceed the primary energy criterion @certification
- Renewable primary energy demand in residential buildings with high energy intensity @basics:passive_house_-_assuring_a_sustainable_energy_supply
- Classic, Plus, Premium: The Passive House classes and how they can be reached @certification:passive_house_categories
- Step-by-step Retrofits towards EnerPHit Standard in social housing in Spain @planning:refurbishment_with_passive_house_components
- Aspects of efficient ventilation in hospitals @planning:non-residential_passive_house_buildings:ph_hospitals
- Baseline study - implementing the Passive House concept in hospitals @planning:non-residential_passive_house_buildings:ph_hospitals
- Factors that influence the energy balance and affordability of non-residential EnerPHit projects @basics:affordability:investing_in_energy_efficiency:economic_feasibility_of_passive_house_retrofits
- 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
- Passive House and the Sustainable Development Goals (SDGs): Connecting an international building standard with global aims @basics
- Certification of buildings in which the ground floor is used for commercial purposes (for PHPP 9, revised 5-Sep-2016) @certification
- Certification of terraced houses and semi-detached/duplex houses according to Passive House Institute criteria @certification
- Life Cycle energy balances, Embodied energy and the Passive House Standard @basics:energy_and_ecology
- The promotion of low energy construction and the Passive House Standard: Successful strategies for forming a Passive House Association @experiences:connecting_the_passive_house_community
- Refurbishment with Passive House components - introduction @planning:refurbishment_with_passive_house_components
- Checklist: Test reports of airtightness measurements @planning:airtight_construction:general_principles
- Passive House - 6 reasons why you still need opening windows @planning:building_services:ventilation
- PHPP calculations in hot and humid climates @planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package
- Ventilation in commercial kitchens @planning:non-residential_passive_house_buildings:cafeterias_and_commercial_kitchens
- Influence of retrofitting on daylighting @planning:refurbishment_with_passive_house_components:mechanical_systems
- Insulation measures for the external envelope @planning:refurbishment_with_passive_house_components:thermal_envelope
- Insulation works – Evidence no.1 "Measurements at a highly insulated wall" @planning:thermal_protection:thermal_protection_works
- Software for calculating thermal bridges @basics:building_physics_-_basics:thermal_bridges:tbcalculation
- The Nestwerk Residential Project in Dresden @examples:residential_buildings:multi-family_buildings:central_europe
- The world’s first Passive House, Darmstadt-Kranichstein, Germany @examples:residential_buildings:multi-family_buildings:central_europe