# | ID | Title |
1 | 2015_vol.1_is_it_problematic_if_the_window_is_better_than_the_wall | iPHA Passive House Fact Sheet |
2 | 2015_vol.2_phi_building_criteria:new_with_release_of_phpp9 | iPHA Passive House Fact Sheet |
3 | 2015_vol.3_embodied_energy_of_thermal_insulation_-_what_is_that_exactly | iPHA Passive House Fact Sheet |
4 | 2015_vol.4.1_renewable_primary_energy_-_the_future_evaluation_system | iPHA Passive House Fact Sheet |
5 | 2015_vol.4.2_evaluation_of_energy_generated_on_or_near_a_building_using_the_per_system | iPHA Passive House Fact Sheet |
6 | 2015_vol._4.3_the_new_passive_house_classes_based_on_the_per_system_and_their_implications | iPHA Passive House Fact Sheet |
7 | 2016_vol.1_per_is_electricity_still_a_bad_thing | iPHA Passive House Fact Sheet |
8 | 2016_vol.2_what_is_a_thermal_bridge | iPHA Passive House Fact Sheet |
9 | 2016_vol.3_step-by-step_retrofit_to_achieve_enerphit-standard_the_example_of_a_single-family_home | iPHA Passive House Fact Sheet |
10 | 2016_vol.4_windows_in_step-by-step_retrofits_-_windows_first_then_insulation | iPHA Passive House Fact Sheet |
11 | 2017_vol.1_windows_in_step-by-step_modernisations_-_first_the_thermal_insulation_then_the_windows | iPHA Passive House Fact Sheet |
12 | 2017_vol.1_windows_in_step-by-step_modernisations_first_the_thermal_insulation_then_the_windows | |
13 | 2018_vol.1_passive_house_and_nzeb_-_how_do_they_relate | iPHA Passive House Fact Sheet |
14 | 2018_vol.2_losses_and_gains_-_what_matters_is_the_balance | iPHA Passive House Fact Sheet |
15 | 2019_vol.1_comparison_of_heating_energy_demand_according_to_the_phpp_and_consumption | iPHA Passive House Fact Sheet |
16 | 2019_vol.2_heating_energy_consumption_-_expectations_confirmed_by_measurements_in_practice | iPHA Passive House Fact Sheet |
17 | 2019_vol.3_airtightness | iPHA Passive House Fact Sheet |
18 | 2019_vol.4_practical_solutions | iPHA Passive House Fact Sheet |
19 | 2019_vol.5_measuring_airtightness | iPHA Passive House Fact Sheet |
20 | 2020_vol.1_ventilated_rainscreen_cladding | iPHA Passive House Fact Sheet |
21 | 2020_vol.2_straw_as_insulation_material | iPHA Passive House Fact Sheet |
22 | 2020_vol.3_per_factors_-_for_electricity_use | iPHA Passive House Fact Sheet |
23 | articles_in_other_languages:spanish_articles:las_ventanas_en_las_rehabilitaciones_paso_a_paso_primero_las_ventanas_luego_el_aislamiento_termico | |
24 | basics:building_physics_-_basics:thermal_bridges:thermal_bridges_catalogue:thermal_bridges_catalogue_-_long_version | Thermal Bridges Catalogue (Full Version) |
25 | basics:passive_houses_in_different_climates:central_europe | Passive House in Central Europe |
26 | basics:passive_houses_in_different_climates:passive_house_in_tropical_climates:mumbai:simulation_results | |
27 | basics:passive_houses_in_different_climates:passive_house_in_tropical_climates:salvador:simulations_results | |
28 | basics:passive_houses_in_different_climates:passive_house_in_tropical_climates:singapore:simulation_results | Hygrothermal analysis of building components for the location Singapore |
29 | basics:passive_houses_in_different_climates:passive_house_in_tropical_climates:summary_hygrothermal_analysis | Hygrothermal analysis of building components for tropical climates |
30 | basics:passive_houses_in_different_climates:passive_houses_in_mediterranean_climate:introduction:best-practise_strategies | Passive House in warm climates - best-practice strategies |
31 | building_passive_houses_in_mexico:the_laif_component_of_the_ecocasa_program | Building Passive Houses in Mexico: the LAIF Component of the Ecocasa Program |
32 | cost-optimised_standard_for_social_housing_retrofit_in_mexico:enerphit | Cost-optimised Standard for Social Housing retrofit in Mexico: EnerPHit |
33 | education_training:university_programmes:danube_university_krems_-_future_building_solutions_msc | Danube University Krems, Austria - Postgraduate University Program “Future Building Solutions, MSc” |
34 | education_training:university_programmes:erfurt_university_of_applied_sciences_faculty_of_architecture | Erfurt University of Applied Sciences – Faculty of Architecture |
35 | energy_physics_industry_application_efficiency | Energy Physics Industry Application Efficiency |
36 | examples:non-residential_buildings:passive_house_swimming_pools | Passive House indoor pools - case studies |
37 | examples:residential_buildings:multi-family_buildings:central_europe:the_world_s_first_passive_house_darmstadt-kranichstein_germany:kranichstein_blog | |
38 | examples:residential_buildings:multi-family_buildings:central_europe:the_world_s_first_passive_house_darmstadt-kranichstein_germany:kranichstein_blog:start_december_16_2023 | Blog of Passive House in Darmstadt - Kranichstein |
39 | grundlagen:bauphysikalische_grundlagen:waermeuebertragung | |
40 | how_to_set_up_a_passive_house_association | The promotion of low energy construction and the Passive House Standard: Successful strategies for forming a Passive House Association |
41 | legislation_funding | Passive House Legislation & Funding |
42 | phi_publications:2015_vol.3_embodied_energy_of_thermal_insulation_what_is_that_exactly | |
43 | phi_publications:2015_vol._4.1_renewable_primary_energy_the_future_evaluation_system | |
44 | phi_publications:2015_vol._4.2_evaluation_of_energy_generated_on_or_near_a_building_using_the_per_system | |
45 | phi_publications:2016_vol.4_windows_in_step-by-step_retrofits_windows_first_then_insulation | |
46 | phi_publications:2017_vol.1_windows_in_step-by-step_modernisations_first_the_thermal_insulation_then_the_windows | |
47 | phi_publications:2018_vol.1_passive_house_and_nzeb_how_do_they_relate | |
48 | phi_publications:2022_vol.2_deep_retrofit_and_ventilation | iPHA Passive House Fact Sheet |
49 | phi_publications:2022_vol.3_outphit_-_passive_house_institute_s_new_eu_project | iPHA Passive House Fact Sheet |
50 | phi_publications:2022_vol.4_outphit_verified_performance_monitoring_made_easy | iPHA Passive House Fact Sheet |
51 | phi_publications:costs_for_energy_efficient_housing_construction_a_question_of_good_planning | Costs for energy efficient housing construction – a question of good planning? |
52 | phi_publications:nr.40:food_refrigeration_in_supermarkets | Nr.40: Food refrigeration in supermarkets |
53 | phi_publications:nr._46:enhanced_optimisation_potentials_for_the_electricity_demand_envelope_and_building_services | Nr. 46: Enhanced optimisation potentials for the electricity demand, envelope and building services |
54 | phi_publications:pb_25:start | Proceedings of Protokollband 25 |
55 | picopen:picopen | |
56 | picprivate:picprivate | |
57 | planning:airtight_construction:general_principles:checklist_airtightness_protocol | Checklist: Test reports of airtightness measurements |
58 | planning:building_services:ventilation:cascade_ventilation:conclusion_planning_tips | Conclusions / planning tips |
59 | planning:calculating_energy_efficiency:phpp_-_the_passive_house_planning_package:phpp_for_the_southern_hemisphere | PHPP calculations for the Southern Hemisphere |
60 | planning:non-residential_passive_house_buildings:passive_house_retail:the_passive_house_concept | |
61 | planning:thermal_protection:external_walls | Passive House suitable wall systems |
62 | planning:tools:manufacturing_energy | Manufacturing energy |
63 | policy:start | Policy |
64 | topbar | |
65 | webinars:energy_modeling:simplified_methods_versus_dynamic_simulation | Energy modeling: simplified methods versus dynamic simulation |
66 | webinars:intro_to_phpp_10:new_features_and_developments | Intro to PHPP 10: New features and developments |
67 | webinars:ipha:the_state_of_passive_house_in_latin_america | The State of Passive House in Latin America |