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phi_publications [2020/02/11 10:55]
alang
phi_publications [2020/09/17 16:29] (current)
naman.sukhija@passiv.de
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 ===== iPHA Passive House Info-Sheets ===== ===== iPHA Passive House Info-Sheets =====
-{{:picopen:​microsoft_word_-_01_fact-sheet_en_window-better-wall_kk.pdf|2015_Vol.1 Is it problematic if the window is better than the wall? }}\\ +===2015 iPHA Fact Sheets=== 
-{{:picopen:​microsoft_word_-_02_fact-sheet_en-update_cert_criteria_building_zb.pdf|2015_Vol.2 PHI Building Criteria: New with release of PHPP9}}\\ +  *[[phi_publications:2015_Vol.1 Is it problematic if the window is better than the wall?|Year: 2015 Volume: 1 Title: Is it problematic if the window is better than the wall?]]\\ 
-{{:picopen:​microsoft_word_-_03_fact-sheet_embodied_energy_kk.pdf|2015_Vol.3 Embodied energy of thermal insulation - What is that exactly?}}\\ +  ​*[[phi_publications:2015_Vol.2 PHI Building Criteria: New with release of PHPP9|Year: 2015 Volume: 2 Title: PHI Building Criteria: New with release of PHPP9]]\\ 
-{{:picopen:microsoft_word_-_04_1_fact-sheet_per_kk.pdf|2015_Vol.4.1 Renewable Primary Energy - the future evaluation system}}\\ +  ​*[[phi_publications:2015_Vol.3 Embodied energy of thermal insulation - What is that exactly?|Year: 2015 Volume: 3 Title: Embodied energy of thermal insulation - What is that exactly?]]\\ 
-{{:picopen:microsoft_word_-_04_2_fact-sheet_ee_kk.pdf |2015_Vol.4.2 Evaluation of energy generated on or near a building using the PER system}}\\ +  ​*[[phi_publications:​2015_Vol.4.1 Renewable Primary Energy - the future evaluation system|Year: 2015 Volume: 4.1 Title: Renewable Primary Energy - the future evaluation system]]\\ 
-{{:picopen:​microsoft_word_-_04_3_fact-sheet_ph_classes_kk.pdf|2015_Vol. 4.3 The new Passive House Chlasses ​based on the PER system and their implications ​}}\\ +  ​*[[phi_publications:​2015_Vol.4.2 Evaluation of energy generated on or near a building using the PER system|Year: 2015 Volume: 4.2 Title: Evaluation of energy generated on or near a building using the PER system]]\\ 
-{{:picopen:​microsoft_word_-_04_4_fact-sheet_electricity_kk_sa_al_kk.pdf |2016_Vol.1 PER, is electricity (still) a "​bad"​ thing?}}\\ +  ​*[[phi_publications:2015_Vol. 4.3 The new Passive House Classes ​based on the PER system and their implications|Year: 2015 Volume: 4.3 Title: The new Passive House Classes based on the PER system and their implications]]\\ 
-{{:picopen:​microsoft_word_-_05_fact-sheet_thermal-bridges_kk.pdf |2016_Vol.2 What is a thermal bridge? ​}}\\ + 
-{{:picopen:​microsoft_word_-_06_fachinfo_schrittweise_modernisierung_sth.pdf |2016_Vol.3 Step-by-step retrofit to achieve EnerPHit-Standard,​ the example of a single-family home}}\\ +===2016 iPHA Fact Sheets=== 
-{{:picopen:​microsoft_word_-_07_window_step_by_step_retrofit_kk.pdf |2016_Vol.4 Windows in step-by-step retrofits - windows first, then insulation ​}}  ​(read also in {{ :​picopen:​07_fachinfo_fenster_schritt_fuer_schritt_sanierung_es_revisado_jf.pdf|Spanish}})\\ +  *[[phi_publications:2016_Vol.1 PER, is electricity (still) a "​bad"​ thing?|Year: 2016 Volume: 1 Title: PER, is electricity (still) a "​bad"​ thing?]]\\ 
-{{:​picopen:​microsoft_word_-_08_thermal_insulation_step_by_step_retrofit_kk.pdf |2017_Vol.1 Windows in step-by-step ​moderniasations ​- First the thermal insulation, then the windows}}\\ +  ​*[[phi_publications:2016_Vol.2 What is a thermal bridge?|Year: 2016 Volume: 2 Title: What is a thermal bridge?]]\\ 
-[[2018_Vol.1 Passive House and nZEB - how do they relate?]] {{:​picopen:​members_only.png?​nolink&​20|}}\\ +  ​*[[phi_publications:2016_Vol.3 Step-by-step retrofit to achieve EnerPHit-Standard,​ the example of a single-family home|Year: 2016 Volume: 3 Title: Step-by-step retrofit to achieve EnerPHit-Standard:​ the example of a single-family home]]\\ 
-[[2018_Vol.2 Losses and gains - what matters is the balance!]] {{:​picopen:​members_only.png?​nolink&​20|}} ​ (read also in {{ ::​10_fachinfo_gewinnee_verluste_2_2018_ig_passivhaus_deutschland_ukr.pdf |Ukrainian}})\\ +  ​*[[phi_publications:2016_Vol.4 Windows in step-by-step retrofits - windows first, then insulation|Year: 2016 Volume: 4 Title: Windows in step-by-step retrofits - windows first, then insulation]] ​(read also in {{ :​picopen:​07_fachinfo_fenster_schritt_fuer_schritt_sanierung_es_revisado_jf.pdf|Spanish}})\\ 
-[[2019_Vol.1 Comparison of heating energy demand according to the PHPP and consumption]] ​ {{:​picopen:​members_only.png?​nolink&​20|}} \\ +  
-[[2019_Vol.2 Heating energy consumption - expectations confirmed by measurements in practice]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ +===2017 iPHA Fact Sheets=== 
-[[2019_Vol.3 Airtightness| ​2019_Vol.Airtightness. Or: walls do not "​breathe"​!]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ +  *[[2017_Vol.1 Windows in step-by-step ​modernisations ​- First the thermal insulation, then the windows|Year: 2017 Volume: 1 Title: Windows in step-by-step modernisations - First the thermal insulation, then the windows]]\\ 
-[[2019_Vol.4 Practical Solutions|2019_Vol.4 Airtightness: ​practical solutions]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ + 
-[[2019_Vol.5 Measuring airtightness|2019_Vol.4 ​Measuring airtightness:​ tips for protocol tests]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ +===2018 iPHA Fact Sheets=== 
-[[2020_Vol.1 Ventilated rainscreen cladding|2020_Vol.1 Ventilated rainscreen cladding: avoid thermal bridges]] {{:​picopen:​members_only.png?​nolink&​20|}}+  *[[2018_Vol.1 ​Passive House and nZEB - how do they relate?​|Year:​ 2018 Volume: 1 Title: ​Passive House and nZEB - how do they relate?]] {{:​picopen:​members_only.png?​nolink&​20|}}\\ 
 +  *[[2018_Vol.2 ​Losses and gains - what matters is the balance!|Year:​ 2018 Volume: 2 Title:Losses and gains - what matters is the balance!]] {{:​picopen:​members_only.png?​nolink&​20|}} ​ (read also in {{ ::​10_fachinfo_gewinnee_verluste_2_2018_ig_passivhaus_deutschland_ukr.pdf |Ukrainian}})\\ 
 + 
 +===2019 iPHA Fact Sheets=== 
 +  *[[2019_Vol.1 ​Comparison of heating energy demand according to the PHPP and consumption|Year:​ 2019 Volume: 1 Title: ​Comparison of heating energy demand according to the PHPP and consumption]] ​ {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 +  *[[2019_Vol.2 ​Heating energy consumption - expectations confirmed by measurements in practice|Year:​ 2019 Volume: 2 Title: ​Heating energy consumption - expectations confirmed by measurements in practice]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 +  *[[2019_Vol.3 Airtightness|Year: 2019 Volume: ​TitleAirtightness or walls do not "​breathe"​!]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 +  *[[2019_Vol.4 Practical Solutions|Year: 2019 Volume: ​Title: ​Airtightness: ​Practical Solutions]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 +  *[[2019_Vol.5 Measuring airtightness|Year: 2019 Volume: 5 Title: ​Measuring airtightness:​ tips for protocol tests]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 + 
 +===2020 iPHA Fact Sheets=== 
 +  *[[phi_publications:​2020_Vol.1 Ventilated rainscreen cladding|Year: 2020 Volume: ​Title: ​Ventilated rainscreen cladding: avoid thermal bridges]] {{:​picopen:​members_only.png?​nolink&​20|}} ​\\ 
 +  *[[phi_publications:​2020_Vol.2 Straw as insulation material|Year:​ 2020 Volume: 2 Title: Straw as insulation material]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
 +  *[[phi_publications:​2020_Vol.3 PER Factors - for electricity use|Year: 2020 Volume: 3 Title: PER Factors - for electricity use]] {{:​picopen:​members_only.png?​nolink&​20|}} \\ 
  
  
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 \\  \\ 
 ===== Research Group Proceedings ===== ===== 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|[[#​Nr.13 Energy balances with the Passive House Planning Package|Energy balances with the Passive House Planning Package]]|
 +|Nr.14|Passive House windows|
 +|Nr.15|[[#​Nr.15 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|[[#​Nr.19 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|[[#​Nr.24 Use of Passive House technologies in the modernisation of old buildings|Use of Passive House technologies in the modernisation of old buildings]]|
 +|Nr.25|[[#​Nr.25 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|[[#​Nr.32 Factor 4 Also for Sensitive Old Buildings: Passive 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|[[#​Nr.40 Passive House retail establishments|Passive House retail establishments]]|
 +|Nr.41|[[#​Nr.41 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|[[#​Nr.44 Ventilation in Passive House - non-residential buildings|Ventilation in Passive House - non-residential buildings]]|
 +|Nr.45|[[#​Nr.45 Accurate measurements in energy-efficient buildings|Accurate measurements in energy-efficient buildings]]|
 +|Nr.46|[[#​Nr.46 Passive House: Assuring a sustainable energy supply|Passive House: Assuring a sustainable energy supply]]|
 +|Nr.47|[[#​Nr.47 Energy-efficient cafeterias and commercial kitchens|Energy-efficient canteens and commercial kitchens]]|
 +|Nr.48|[[#​Nr.48 Using Passive House technology for retrofitting non-residential buildings|Using Passive House technology for retrofitting non-residential buildings]]|
 +|Nr.49|[[#​Nr.49 Energy-Efficient Hot Water Systems|Energy-Efficient Hot Water Systems]]|
 +|Nr.50|Affordable ventilation solutions for residential buildings - systems with heat recovery|
 +|Nr.51|Planning and implementation aids for Passive House - non-residential buildings|
 +|Nr.52|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|Social apartment building|
 +|Nr.56|Energy efficiency and renewable energy|
 +|Nr.57|Building concepts for hot summers|
 +
 +
 +=== Nr.13 Energy balances with the Passive House Planning Package===
 +  * [[phi_publications:​PB 13: Recommendations_for_dimensioning_the_heating_load_in_Passive_Houses| 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| 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| Passive House Buildings and Urban Planning - A Preface]] ​ {{:​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| Modernising a Block of Flats “Jean-Paul-Place 4”, Nuremberg]] ​ {{:​picopen:​members_only.png?​25}}
 +
  
 === Nr.25 Temperature Differentiation in Apartments === === 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: 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: Consequences for Planning| Consequences for Planning]]
 +  * [[phi_publications:​PB 25: Comfort_Criteria_According_to_International_Standards_Especially_for_use_in_Passive_Houses| Comfort Criteria According to International Standards Especially for use in Passive Houses]] ​ {{:​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| Introduction:​ Passive House Components and Interior Insulation]] {{:​picopen:​members_only.png?​nolink&​20|}}
  
  
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-=== Nr.44 Planning aspects of ventilation systems ​===+=== 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:​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:​Nr.44 Ventilation in non-residential Passive House buildings - Introduction|Ventilation in non-residential Passive House buildings - Introduction]]
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-=== Nr.45 Accurate ​measurementes ​in energy-efficient buildings ===+=== Nr.45 Accurate ​measurements ​in energy-efficient buildings ===
   * [[phi_publications:​ Nr.45 Monitoring consumption – "​minimal monitoring"​| Monitoring consumption – "​minimal monitoring"​]] ​ {{:​picopen:​members_only.png?​25|}}   * [[phi_publications:​ Nr.45 Monitoring consumption – "​minimal monitoring"​| Monitoring consumption – "​minimal monitoring"​]] ​ {{:​picopen:​members_only.png?​25|}}
  
phi_publications.1581414941.txt.gz · Last modified: 2020/02/11 10:55 by alang