====== Passive House Institute publications ====== ===== iPHA Passive House Fact Sheets ===== ^Year^Volume^Topic^Author| |**2015** |Volume 1|[[:phi_publications:2015_vol.1_is_it_problematic_if_the_window_is_better_than_the_wall|Is it problematic if the window is better than the wall]] (read also in {{:picprivate:2015_vol.1_inconvenientes_cuando_la_ventana_es_mejor_que_las_paredes.pdf|Spanish}} )|Dr. Benjamin Krick| | ::: |Volume 2|[[:phi_publications:2015_vol.2_phi_building_criteria:new_with_release_of_phpp9|PHI Building Criteria: New with release of PHPP9]] (read also in {{:picprivate:2015_vol.2_criterios_de_construccion_del_phi_-_nueva_version_del_phpp9.pdf|Spanish}} )|Dipl.-Ing. Zeno Bastian| | ::: |Volume 3|[[:phi_publications:2015_vol.3_embodied_energy_of_thermal_insulation_-_what_is_that_exactly|Embodied energy of thermal insulation - What is that exactly]] (read also in {{:picprivate:2015_vol.3_la_energia_embebida_en_el_aislamiento_termico_-_en_que_consiste_exactamente.pdf|Spanish}} )|Dr Benjamin Krick| | ::: |Volume 4.1|[[:phi_publications:2015_vol.4.1_renewable_primary_energy_-_the_future_evaluation_system|YRenewable Primary Energy - the future evaluation system]] (read also in {{:picprivate:2015_vol.4.1_energia_primaria_renovable_el_sistema_de_evaluacion_del_futuro.pdf|Spanish}} )|Dr Benjamin Krick| | ::: |Volume 4.2|[[:phi_publications:2015_vol.4.2_evaluation_of_energy_generated_on_or_near_a_building_using_the_per_system|Evaluation of energy generated on or near a building using the PER system]] (read also in {{:picprivate:2015_vol.4.2_evaluacion_de_la_energia_generada_en_la_cubierta_de_un_edificio_o_en_sus_inmediaciones_utilizando_el_sistema_per.pdf|Spanish}} )|Dr. Benjamin Krick| | ::: |Volume 4.3|[[:phi_publications:2015_vol._4.3_the_new_passive_house_classes_based_on_the_per_system_and_their_implications|The new Passive House Classes based on the PER system and their implications]] (read also in {{:picprivate:2015_vol.4.3_las_nuevas_categorias_passivhaus_segun_el_sistema_per_y_sus_implicaciones.pdf|Spanish}} )|Dr. Benjamin Krick| ^ ^^^| |**2016** |Volume 1|[[:phi_publications:2016_vol.1_per_is_electricity_still_a_bad_thing|PER, is electricity (still) a "bad" thing]] (read also in {{:picprivate:2016_vol.1_la_electricidad_aun_es_mala.pdf|Spanish}} )|Dr.-Ing. Benjamin Krick| | ::: |Volume 2|[[:phi_publications:2016_vol.2_what_is_a_thermal_bridge|What is a thermal bridge]] (read also in {{:picprivate:2016_vol.2_que_es_un_puente_termico.pdf|Spanish}} )|Dr. Benjamin Krick| | ::: |Volume 3|[[:phi_publications:2016_vol.3_step-by-step_retrofit_to_achieve_enerphit-standard_the_example_of_a_single-family_home|Step-by-step retrofit to achieve EnerPHit-Standard: the example of a single-family home]] (read also in {{:picprivate:2016_vol.3_rehabilitacion_paso_a_paso_para_alcanzar_el_estandar_enerphit_-_ejemplo_de_vivienda_unifamiliar.pdf|Spanish}} )|M.Eng. Dipl.-Ing. Susanne Theumer| | ::: |Volume 4|[[:phi_publications:2016_vol.4_windows_in_step-by-step_retrofits_-_windows_first_then_insulation|Windows in step-by-step retrofits - windows first, then insulation]] (read also in {{:picprivate:07_fachinfo_fenster_schritt_fuer_schritt_sanierung_es_revisado_jf.pdf|Spanish}} )|Author: Dr. Benjamin Krick| ^ ^^^| |**2017** |Volume 1|[[https://passipedia.org/phi_publications/2016_vol.4_windows_in_step-by-step_retrofits_-_windows_first_then_insulation|Title: Windows in step-by-step modernisations - First the thermal insulation, then the windows]] (read also in {{:picprivate:2017_vol.1_ventanas_en_rehabilitaciones_paso_a_paso_primero_el_aislamiento_termico_y_despues_las_ventanas.pdf|Spanish}} )|Dr.-Ing. Benjamin Krick| ^ ^^^| |**2018** |Volume 1|[[https://passipedia.org/2018_vol.1_passive_house_and_nzeb_-_how_do_they_relate|Passive House and nZEB - how do they relate?]] (read also in {{:picprivate:2018_vol.1_relacion_entre_edificios_passivhaus_y_eccn.pdf|Spanish}} )|Author: Wolfgang Hasper| | ::: |Volume 2|[[https://passipedia.org/2018_vol.2_losses_and_gains_-_what_matters_is_the_balance|Losses and gains - what matters is the balance!]] (read also in {{:picprivate:2018_vol.2_perdidas_y_ganancias_-_lo_importante_es_el_equilibrio.pdf|Spanish}}, {{:10_fachinfo_gewinnee_verluste_2_2018_ig_passivhaus_deutschland_ukr.pdf|Ukrainian}} )|Author: Dr.-Ing. Benjamin Krick| ^ ^^^| |**2019** |Volume 1|[[https://passipedia.org/2019_vol.1_comparison_of_heating_energy_demand_according_to_the_phpp_and_consumption|Comparison of heating energy demand according to the PHPP and consumption]] (read also in {{:picprivate:2019_vol.1_comparacion_entre_demanda_energetica_para_calefaccion_segun_el_phpp_y_consumo.pdf|Spanish}} )|Søren Peper| | ::: |Volume 2|[[https://passipedia.org/2019_vol.1_comparison_of_heating_energy_demand_according_to_the_phpp_and_consumption|Heating energy consumption - expectations confirmed by measurements in practice]] (read also in {{:picprivate:2019_vol.2_consumo_energetico_de_calefaccion_-_expectativas_confirmadas_mediante_mediciones_en_la_practica.pdf|Spanish}} )|Søren Peper| | ::: |Volume 3|[[https://passipedia.org/2019_vol.3_airtightness|Airtightness or walls do not "breathe"!]] (read also in {{:picprivate:2019_vol.3_hermeticidad_o_como_las_paredes_no_respiran.pdf|Spanish}} )|Søren Peper| | ::: |Volume 4|[[https://passipedia.org/2019_vol.4_practical_solutions|Airtightness: Practical Solutions]] (read also in {{:picprivate:2019_vol.4_hermeticidad-soluciones_practicas.pdf|Spanish}} )|Søren Peper| | ::: |Volume 5|[[https://passipedia.org/2019_vol.5_measuring_airtightness|Measuring airtightness: tips for protocol tests]] (read also in {{:picprivate:2019_vol.5_medicion_de_la_hermeticidad_-_consejos_para_protocolo_de_ensayo.pdf|Spanish}} )|Søren Peper| ^ ^^^| |**2020** |Volume 1|[[:phi_publications:2020_vol.1_ventilated_rainscreen_cladding|Ventilated rainscreen cladding: avoid thermal bridges]] (read also in {{:picprivate:2020_vol.1_revestimiento_impermeable_ventilado_prevencion_de_puentes_termicos.pdf|Spanish}} )|Prof. Dr.-Ing. Benjamin Krick, M.Eng Adrian Muskatewitz| | ::: |Volume 2|[[:phi_publications:2020_vol.2_straw_as_insulation_material|Straw as insulation material]]|Prof. Dr.-Ing. Benjamin Krick| | ::: |Volume 3|[[:phi_publications:2020_vol.3_per_factors_-_for_electricity_use|Title: PER Factors - for electricity use]]|Jessica Grove-Smith, MPhys(Hons)| | ::: |Volume 4|[[:phi_publications:2020_vol.19_per_factors_-_solar_thermal_systems|PER Factors - solar thermal systems]]|Prof. Dr.-Ing. Benjamin Krick| ^ ^^^| |**2021** |Volume 1|[[:phi_publications:2021_vol.1_airtightness_measurements_in_high-rise_buildings|Airtightness measurements in high-rise buildings]]|Dipl.-Ing. (FH) Søren Peper| | ::: |Volume 2|[[:phi_publications:2021_vol.2_indoor_air_quality:it_s_important|outPHit: Indoor air quality: It’s important!]]|Dr. Berthold Kaufmann| | ::: |Volume 3|[[:phi_publications:2021_vol.3_the_impact_of_warming_climate_conditions_on_buildings|outPHit: The impact of warming climate conditions on buildings!]]|Jessica Grove-Smith| | ::: |Volume 4|[[:phi_publications:2021_vol.4_the_impact_of_warming_climate_conditions_on_buildings|outPHit: Step-by-step to EnerPHit standard]]|Zeno Bastian| ^ ^^^| |**2022** |Volume 1|[[:phi_publications:2022_vol.1_interior_insulation_in_cold_and_moderate_climates|Interior insulation in cold and moderate climates]]|Zeno Bastian| |**2022** |Volume 2|[[:phi_publications:2022_vo2_ventilation_concepts_for_energy_retrofits|Good Indoor Air Quality! Ventilation concepts for energy retrofits]]|Berthold Kaufmann| |**2022** |Volume 3|[[:phi_publications:2022_vo4_outphit_passive_house_institute_s_new_eu_project|outPHit: Passive House Institute's new EU project]]|Jan Steiger| |**2022** |Volume 4|[[:phi_publications:2022_vo3_outphit_verified_performance|outPHit: Verified Performance – monitoring made easy]]|Wolfgang Hasper, Jan Steiger, Sven Huneke| ^ ^^^| |**2023** |Volume 1|[[:phi_publications:2023_vo1_diy_ckgedit_quot_do-it-yourself_ckgedit_quot_basis|DIY – Energy efficiency on a "Do-it-yourself" basis]]|Dr.-Ing. Benjamin Krick| |**2023** |Volume 2|[[:phi_publications:2023_vo2_passive_house_and_the_energy_crisis|outPHit: Passive House and EnerPHit in the energy crisis ]]|Dr Jürgen Schnieders| |**2023** |Volume 3|[[:phi_publications:2023_vo3_building_automation|]]|Wolfgang Hasper| |**2023** |Volume 4|[[:phi_publications:2023_vo4_robust_planning|]]|Jessica Grove-Smith| ^ ^^^| |**2024** |Volume 1|[[:phi_publications:2023_vo4_comfort_criteria_phpp|]]|Jürgen Schnieders| |**2024** |Volume 2|[[:phi_publications:2024_vo2_Extractor hoods EnerPHit homes|Extractor hoods in Passive House and EnerPHit homes]]|Kristin Bräunlich | ===== Research Group Proceedings ===== ^Nr.^Name| |Nr.2|Thermal insulation| |Nr.3|Outstanding windows| |Nr.4|Ventilation in Passive House| |Nr.5|Energy balance and temperature characteristics| |Nr.6|Building services in Passive Houses| |Nr.7|Electricity saving in Passive House| |Nr.8|Choice of materials, ecology and indoor air quality| |Nr.9|User behaviour| |Nr.10|Measurement technology and results| |Nr.11|Cost-effective Passive Houses| |Nr.12|Passive House - building standard of the future?| |Nr.13|[[#nr13_energy_balances_with_the_passive_house_planning_package|Energy balances with the Passive House Planning Package]]| |Nr.14|Passive House windows| |Nr.15|[[#nr15_passive_house_summer_comfort|Passive House Summer Comfort]]| |Nr.16|Thermal bridges free construction| |Nr.17|Dimensioning of ventilation systems in Passive Houses| |Nr.18|Quality control on construction of Passive Houses| |Nr.19|[[#nr19_urban_planning_instruments_for_the_implementation_of_passive_houses|Urban planning instruments for the implementation of Passive Houses]]| |Nr.20|Passive House Supply Technology| |Nr.21|Examples of architecture: residential buildings| |Nr.22|Ventilation strategies for the summer| |Nr.23|Influence of the ventilation strategy on the concentration and spread of pollutants in the room| |Nr.24|[[#nr24_use_of_passive_house_technologies_in_the_modernisation_of_old_buildings|Use of Passive House technologies in the modernisation of old buildings]]| |Nr.25|[[#nr25_temperature_differentiation_in_apartments|Temperature Differentiation in Apartments]]| |Nr.26|New Passive House building services design with heat pumps| |Nr.27|Heat losses through the ground| |Nr.28|Heat transfer and distribution losses in Passive House| |Nr.29|Highly insulated roof structures| |Nr.30|Ventilation aspect when renovating existing buildings| |Nr.31|Energy-efficient room cooling| |Nr.32|[[#nr32_factor_4_also_for_sensitive_old_buildingspassive_house_components_interior_insulation|Factor 4 Also for Sensitive Old Buildings: Passive House components + interior insulation]]| |Nr.33|Passive House Schools| |Nr.34|Soundproofing when using heat pumps and compact heat pump devices in Passive Houses| |Nr.35|Thermal bridges and structural engineering - the limits of design thermal bridges free design| |Nr.36|Heating with biofuels for passive houses| |Nr.37|Optimization strategies for window construction and solar aperture| |Nr.38|Heating systems in Passive Houses - statistical evaluation and system comparison| |Nr.39|Steb-by-step retrofit with Passive House components| |Nr.40|[[#nr40_passive_house_retail_establishments|Passive House retail establishments]]| |Nr.41|[[#nr41_cooling_in_non-residential_passive_house_buildings|Cooling in non-residential Passive House buildings]]| |Nr.42|Economic evaluation of energy efficiency measures| |Nr.43|Geothermal heat exchangers and geothermal probes in the Passive House| |Nr.44|[[#nr44_ventilation_in_passive_house_-_non-residential_buildings|Ventilation in Passive House - non-residential buildings]]| |Nr.45|[[#nr45_accurate_measurements_in_energy-efficient_buildings|Accurate measurements in energy-efficient buildings]]| |Nr.46|[[#nr46_passive_houseassuring_a_sustainable_energy_supply|Passive House: Assuring a sustainable energy supply]]| |Nr.47|[[#nr47_energy-efficient_cafeterias_and_commercial_kitchens|Energy-efficient canteens and commercial kitchens]]| |Nr.48|[[#nr48_using_passive_house_technology_for_retrofitting_non-residential_buildings|Using Passive House technology for retrofitting non-residential buildings]]| |Nr.49|[[#nr49_energy-efficient_hot_water_systems|Energy-Efficient Hot Water Systems]]| |Nr.50|[[#nr50_affordable_ventilation_solutions_for_residential_buildings_-_systems_with_heat_recovery|Affordable ventilation solutions for residential buildings - systems with heat recovery]]| |Nr.51|[[#nr_51_planning_and_implementation_aids_for_passive_house_-_non-residential_buildings|Planning and implementation aids for Passive House - non-residential buildings]]| |Nr.52|[[#nr52_commissioning_and_operational_optimization_as_success_factors_for_energy-efficient_buildings|Commissioning and operational optimization as success factors for energy-efficient buildings]]| |Nr.53|Summer comfort - affordable and energy-efficient| |Nr.54|New concepts of controlled ventilation: Façade-integrated ventilation| |Nr.55|[[#nr55_social_apartment_building| Multi-storey social housing: Cost-effective and energy efficient – (not) mutually exclusive?”]]| |Nr.56|[[#nr56_Energy efficiency and renewable energy|Energy efficiency and renewable energy]]| |Nr.57|Building concepts for hot summers| |Nr.58|Energy-efficiency and CO2 emissions over the life cycle - Part 1: building materials and constructions| |Nr.59|[[#nr 59 Energy-efficient non residential buildings - optimal utilisation of building automation potentials|Energy-efficient non residential buildings - optimal utilisation of building automation potentials]]| |Nr.60|Energy efficiency and CO2 emissions over the life cycle - Part 2| |Nr.61|Serial energy retrofits according to Passive House principles| === Nr.13 Energy balances with the Passive House Planning Package === * [[:phi_publications:pb_13:recommendations_for_dimensioning_the_heating_load_in_passive_houses|]] {{:picopen:members_only.png?25}} === Nr.15 Passive House Summer Comfort === * [[:phi_publications:pb_15:a_simplified_method_for_determining_thermal_comfort_in_summer_for_buildings_without_active_cooling|]] {{:picopen:members_only.png?25}} === Nr.19 Urban planning instruments for the implementation of Passive Houses === * [[:phi_publications:pb_19:passive_house_buildings_and_urban_planning|]] {{:picopen:members_only.png?25}} === Nr.24 Use of Passive House technologies in the modernisation of old buildings === * [[:phi_publications:pb_24:modernising_a_block_of_flats_jean-paul-place_4_nuremberg|]] {{:picopen:members_only.png?25}} * [[:phi_publications:pb_24:importance_of_energy_efficient_components_for_modernisation_of_existing_buildings|]] {{:picopen:members_only.png?25}} === Nr.25 Temperature Differentiation in Apartments === * [[:phi_publications:pb_25:thermal_comfort_in_passive_houses|Introduction: Thermal Comfort in Passive Houses]] * [[:phi_publications:pb_25:consequences_for_planning|Consequences for Planning]] * [[:phi_publications:pb_25:comfort_criteria_according_to_international_standards_especially_for_use_in_passive_houses|]] {{:picopen:members_only.png?25}} === Nr.29 Highly insulated roof construction === * [[:phi_publications:pb_29:consequences_for_highly_insulated_roofs|]] {{:picopen:members_only.png?25}} === Nr.32 Factor 4 Also for Sensitive Old Buildings: Passive House components + interior insulation === * [[:phi_publications:pb_32:introduction_passive_house_components_and_interior_insulation|]] {{:picopen:members_only.png?nolink&20}} === Nr.35 Thermal bridges and structural engineering - the limits of design thermal bridges free design === * [[:phi_publications:pb_35:appendix_a_punctiform_penetrations_of_thermally_insulated_exterior_walls|]] === Nr.40 Passive House retail establishments === * [[:phi_publications:pb_40:high-traffic_entrance_areas|High-traffic entrance areas]] {{:picopen:members_only.png?nolink&20}} * [[:phi_publications:pb_40:thermal_protection_and_ventilation_concept_for_large_halls|]] {{:picopen:members_only.png?nolink&20}} === Nr.41 Cooling in non-residential Passive House buildings === * [[:phi_publications:nr._41:solar_gains_sun_protection_daylight_use_internal_heat_sources_artificial_lighting_edp_equipment:experiences_with_the_lu-teco_office_building|Solar gains – sun protection – daylight use – internal heat sources – artificial lighting – EDP equipment: Experiences with the lu-teco office building]] {{:picopen:members_only.png?25}} * [[:phi_publications:night-time_ventilative_cooling|Night-time Ventilative Cooling]] {{:picopen:members_only.png?25}} * [[:phi_publications:pb_41:concrete_core_temperature_control_in_passive_houses|]] {{:picopen:members_only.png?25}} * [[:phi_publications:pb_41:planning_tools_for_the_summer_situation_in_non-residential_buildings|Planning tools for the summer situation in non-residential buildings]] {{:picopen:members_only.png?25}} === Nr.44 Ventilation in Passive House - non-residential buildings === * [[:phi_publications:pb44._benefits_of_comfort_ventilation_with_heat_recovery_in_non-residential_buildings|Benefits of comfort ventilation with heat recovery in non-residential buildings]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.44_ventilation_in_non-residential_passive_house_buildings_-_introduction|Ventilation in non-residential Passive House buildings - Introduction]] * [[:phi_publications:pb44_planning_aspects_of_ventilation_systems_in_non-residential_buildings|Planning aspects of ventilation systems in non-residential buildings]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.44_use_of_ventilation_units_with_rotary_heat_exchangers|Use of ventilation units with rotary heat exchangers]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr._44_recommendations_for_dimensioning_ventilation_duct_networks|Recommendations for dimensioning ventilation duct networks]] * [[:phi_publications:nr.44._ventilation_systems_with_heat_recovery_in_non-residential_buildings_economic_efficiency_analysis_based_on_billed_costs|Ventilation systems with heat recovery in non-residential buildings, economic efficiency analysis based on billed costs]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.44._energy-relevant_assessment_of_ventilation_units_with_an_airflow_rate_greater_than_600_m_per_h_initial_results_of_certification|]] {{:picopen:members_only.png?25}} === Nr.45 Accurate measurements in energy-efficient buildings === * [[:phi_publications:nr.45_monitoring_consumption_ckgedit_quot_minimal_monitoring_ckgedit_quot|Monitoring consumption – "minimal monitoring"]] {{:picopen:members_only.png?25}} * [[:phi_publications:measurement_concept_disturbance_variables_and_suitable_solutions|]] {{:picopen:members_only.png?25}} === Nr.46 Passive House: Assuring a sustainable energy supply === * [[:phi_publications:nr.46_on_the_future_evaluation_of_the_energy_demand_of_passive_house_buildings|On the future evaluation of the energy demand of Passive House buildings]] * [[:phi_publications:nr._46_enhanced_optimisation_potentials_for_the_electricity_demand_envelope_and_building_services|Enhanced optimisation potentials for the electricity demand, envelope and building services]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr._46_introduction:sustainable_energy_supply_with_passive_houses|]] {{:picopen:members_only.png?25}} === Nr.47 Energy-efficient cafeterias and commercial kitchens === * [[:phi_publications:basic_principles|]] {{:picopen:members_only.png?25}} * [[:phi_publications:ventialtion_in_commercial_kitchens|]] {{:picopen:members_only.png?25}} * [[:phi_publications:optimisation_potencials|]] {{:picopen:members_only.png?25}} === Nr.48 Using Passive House technology for retrofitting non-residential buildings === * [[:phi_publications:enerphit_retrofit_of_non-residential_buildings_in_particular_the_effects_of_internal_heat_gains|]] {{:picopen:members_only.png?25}} * [[:phi_publications:ex-post_building_in_bolzano_experiences_with_modernisation_and_operation_part_1|Ex post building in Bolzano – Experiences with retrofit and operation (Part 1)]] {{:picopen:members_only.png?25}} * [[:phi_publications:ex-post_building_in_bolzano_experiences_with_modernisation_and_operation_part_2|Ex post building in Bolzano – Experiences with retrofit and operation (Part 2)]] {{:picopen:members_only.png?25}} * [[:phi_publications:summary_-_using_passive_house_technology_for_retrofitting_non-residential_buildings|Summary - Using Passive House technology for retrofitting non-residential buildings]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.48_retrofitting_ventilation_systems_in_non-residential_buildings|Retrofitting ventilation systems in non-residential buildings]] {{:picopen:members_only.png?25}} * [[:phi_publications:summer_situations_in_refurbished_non-residential_buildings|]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.48_heat_losses_towards_the_ground|Heat losses towards the ground]] {{:picopen:members_only.png?25}} * [[:phi_publications:possibilities_for_optimised_use_of_daylight_and_artificial_lighting_systems_in_modernisations_of_non-residential_buildings|Possibilities for optimised use of daylight and artificial lighting systems in modernisations of non-residential buildings]] {{:picopen:members_only.png?25}} === Nr.49 Energy-Efficient Hot Water Systems === * [[:phi_publications:nr.49_hear_recovery_from_wastewater|]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.49_summary_of_protocol_volume_49|Summary of Protocol Volume 49]] {{:picopen:members_only.png?25}} === Nr.50 Affordable ventilation solutions for residential buildings - systems with heat recovery === * [[:phi_publications:nr.50_ventilation_concepts_for_residential_buildings|]] {{:picopen:members_only.png?25}} === Nr. 51 Planning and implementation aids for Passive House - non-residential buildings === * [[:phi_publications:nr.51_air_quantities_and_operating_methods_in_non-residential_buildings|]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.51_overview_of_realised_non-residential_passive_house_buildings|]] {{:picopen:members_only.png?25}} === Nr.52 Commissioning and operational optimization as success factors for energy-efficient buildings === * [[:phi_publications:reasons_for_discrepancies_between_predicted_and_actual_heating_energy_consumption|]] {{:picopen:members_only.png?25}} === Nr.55 Multi-storey social housing: Cost-effective and energy efficient – (not) mutually exclusive?” === * [[:phi_publications:nr.55_potential_contribution_of_residential_buildings|]]{{:picopen:members_only.png?25}} * [[[[basics:affordability:Overall cost analysis|Overall cost analysis with full finance plan and comparison of life cycle costs]]]] {{:picopen:members_only.png?25}} * [[basics:affordability:investing_in_energy_efficiency:costs_for_energy_efficient_housing_construction|Costs for energy efficient housing construction – a question of good planning?]] * [[basics:affordability:model_project_for_low-cost_housing]] {{:picopen:members_only.png?25}} * [[basics:affordability:nht_passive_house_buildings]] {{:picopen:members_only.png?25}} * [[planning:thermal_protection:solutions_for_the_building_envelope]] {{:picopen:members_only.png?25}} * [[planning:building_services:ventilation:solutions_for_cost-effective_residential_buildings]] {{:picopen:members_only.png?25}} * [[planning:building_services:ventilation_comparison_of_supply_air_extract_air_system_with_hr_and_exhaust_air_system]] {{:picopen:members_only.png?25}} === Nr.56 Energy efficiency and renewable energy === * [[:phi_publications:nr.56 Energy efficiency and renewable energy |Energy efficiency and renewable energy]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.56 Energy efficiency and renewable energy – past and present |Energy efficiency and renewable energy – past and present]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.56 Efficiency standards for a climate neutral building stock |Efficiency standards for a climate neutral building stock]] {{:picopen:members_only.png?25}} === Nr.57 Building concepts for hot summers - Focus on non-residential buildings === * [[:phi_publications:nr.57_ventilation_strategies|]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.57_reducing_heat_gains|]] {{:picopen:members_only.png?25}} === Nr. 59 Energy-efficient non residential buildings - optimal utilisation of building automation potentials === * [[:phi_publications:nr.59_building_automation_for_energy-efficient_buildings|]]{{:picopen:members_only.png?25}} * [[:phi_publications:nr.59_potential_energy_savings_through_building_automation|]]{{:picopen:members_only.png?25}} * [[:phi_publications:nr.59_concepts_for_automation|]]{{:picopen:members_only.png?25}} * [[:phi_publications:nr.59_control_concepts_for_ventilation_systems_-_bypass_frost_protection_etc|]]{{:picopen:members_only.png?25}} ===== ===== ===== International Passive House Conference proceedings ===== [[:phi_publications:international_passive_house_conference_contributions_7|]] \\ [[:phi_publications:international_passive_house_conference_contributions_6|]] \\ [[:phi_publications:international_passive_house_conference_contributions_5|]] \\ [[:phi_publications:international_passive_house_conference_contributions_4|]] \\ [[:phi_publications:international_passive_house_conference_contributions_3|]] \\ {{:picopen:tagungsband_12._internationale_passsivhaustagung_2008.png?150}}|{{:picopen:tagungsband_13._internationale_passivhaustagung_2009.png?150}}|{{:picopen:tagungsband_14._internationale_passsivhaustagung_2010.png?150}}|{{:picopen:tagungsband_15._internationale_passivhaustagung_2011.png?150}}|{{:picopen:tagungsband_16._internationale_passivhaustagung_2012.png?150}}|{{:picopen:tagungsband_17_internationale_passivhaustagung_2013.png?150}}|{{:picopen:tagungsband_18_internationale_passivhaustagung_2014.png?150}}| {{:picopen:tagungsband_19_internationale_passivhaustagung_2015.jpg?150|tagungsband_19_internationale_passivhaustagung_2015.jpg}}|{{:picopen:tagungsband_20_internationale_passivhaustagung_2016.jpg?150|tagungsband_20_internationale_passivhaustagung_2016.jpg}}|{{:picopen:tagungsband_21_internationale_passivhaustagung_2017.jpg?150|tagungsband_21_internationale_passivhaustagung_2017.jpg}}|{{:picopen:tagungsband_22_internationale_passivhaustagung_2018.jpg?150|tagungsband_22_internationale_passivhaustagung_2018.jpg}}|{{:picopen:tagungsband_23_internationale_passivhaustagung_2019.jpg?150|tagungsband_23_internationale_passivhaustagung_2019.jpg}}|{{:picopen:tagungsband_24_internationale_passivhaustagung_2020.jpg?150|tagungsband_24_internationale_passivhaustagung_2020.jpg}}| {{:picopen:tagungsband_25_internationale_passivhaustagung_2021.jpg?150|tagungsband_25_internationale_passivhaustagung_2021.jpg}}| {{:picopen:2023cover.jpg?150x211|2023cover.jpg}} {{:picopen:27_ipc.png?150}} | ===== Research Group for Cost-effective Passive Houses proceedings ===== |{{:picopen:protokollband_ak_phasev_cover_layout_verkaufsstaetten_nr40_skali.jpg|protokollband_ak_phasev_cover_layout_verkaufsstaetten_nr40_skali.jpg}}|{{:picopen:41_protokollband_ak_phasev_cover_layout_sommerverhalten.jpg|41_protokollband_ak_phasev_cover_layout_sommerverhalten.jpg}}| [[:phi_publications:research_group_for_cost-effective_passive_houses_proceedings|List of all released Research Group for Cost-effective Passive Houses proceedings]] ===== Handbook: Modernisation of old buildings using Passive House Components ===== {{:picopen:cover_planerhandbuch.jpg?150|cover_planerhandbuch.jpg}} [[:phi_publications:handbook_index|]] ===== EuroPHit Brochure: Implementing deep energy step-by-step retrofits ===== {{:picopen:europhit_brochure.jpg?150|europhit_brochure.jpg}} [[:phi_publications:europhit_brochure|EuroPHit Brochure]] ===== PassREg Brochure: Defining the Nearly Zero Energy Building ===== [[http://www.passreg.eu/upload/PassREg_International_EN/Flipbook_Pro.html|{{:picopen:passreg_brochure.jpg?nolink&150|passreg_brochure.jpg}}]] \\ [[:phi_publications:passreg_brochure|PassREg Brochure]]