====== 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|]]|Kristin Bräunlich| ^ ^^^| |**2025** |Volume 1|[[:phi_publications:2025_vo1_Extending Wall Insulation Over Window Frame_|Extending Wall Insulation Over Window Frames – But What About Aluminium?]]|Edward Lowes| ===== Research Group for Cost-effective Passive Houses proceedings ===== Introduced by the Passive House Institute in 1996, the Research Group for Cost-effective Passive Houses is one of PHI’s key research tools in dealing with recurring and new Passive House related questions and challenges, thereby addressing both theoretical and practical aspects of the question at hand. The Research Group typically meets 2 to 4 times per year, focussing on a different issue each time, ranging from general Passive House principles and technologies to economic aspects and optimised cost-effectiveness; from different types of buildings, construction types and climates, to specific requirements for Passive House refurbishments. While these sessions are, thus far, held in German only and the proceedings are published in German (order [[https://shop.passivehouse.com/en/products/category/literature/protocols-6/?page=1|online]] ), iPHA is working on translating the most important findings gleaned through the sessions and published in the proceedings to make them available in the form of Passipedia articles. Below, your will find a list of all Research Group proceedings published so far. All those shown as hyperlinks will lead you English translations available on Passipedia. Here you can find a more detailed [[:phi_publications:research_group_for_cost-effective_passive_houses_proceedings|list of all released Research Group for Cost-effective Passive Houses proceedings]] includin all articles with the respective authors, as well as German and English titels. ^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|[[#nr58_energy-efficiency_and_co2_emissions_over_the_life_cycle_-_part_1building_materials_and_constructions|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|]] {{: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|]]]] {{: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}} * [[:basics:affordability:approaches_to_reducing_ancillary_costs_in_the_passivhaussozialplus_project|]] {{:picopen:members_only.png?25}} === Nr.56 Energy efficiency and renewable energy === * [[:phi_publications:nr.56_energy_efficiency_and_renewable_energy|]] {{:picopen:members_only.png?25}} * [[:phi_publications:nr.56_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|]] {{:picopen:members_only.png?25}} * [[:basics:energy_and_ecology:primary_energy_renewable_per:ak56_per_system|]] * [[:basics:energy_and_ecology:renewable_sources_of_energy:renewable_energy_generators|]] * [[:basics:energy_and_ecology:renewable_sources_of_energy:solarheating|]] * [[planning:building_services:heating_and_dhw:heatpumpsas_renewableenergy]] {{:picopen:members_only.png?25}} * [[basics:energy_and_ecology:passive_house_premium_and_efficiency_plus_house]] {{:picopen:members_only.png?25}} * [[:basics:energy_and_ecology:renewable_sources_of_energy:conclusion_ak56]] {{: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.58 Energy-efficiency and CO2 emissions over the life cycle - Part 1: building materials and constructions === * [[:basics:energy_and_ecology:energy_efficiency_and_greenhouse_gas_emissions_over_the_life_cycle|]] * [[:basics:energy_and_ecology:life_cycle_assessment_methods_criteria_and_data|]] {{: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}} | ===== 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]]