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certification:certified_passive_houses:example_documents [2019/10/28 08:54] cblagojeviccertification:certified_passive_houses:example_documents [2024/01/19 13:27] (current) gergina.radeva@passiv.de
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-==== Building Certification Guide - example documents ==== +==== Sample Documents for Building Certification ====
- \\+
  
-The following are examples of the most important documents that must be submitted for the building certification. // // +The following are examples of the most important documents that must be submitted for the building certification.
  
-They serve as an illustrative supplement to the documentation requirements described in the [[certification:building_certificaton_guide|Building Certification Guide]]. +=== Sample documents ===
-  +
-  \\  +
-   +
-{{ :picopen:phpp_v9.6b_passive_house_end_of_terrace.pdf |Completed Passive House Planning Package (PHPP) for a residential building}}+
  
-{{ :picopen:blowerdoortest_report.pdf |Airtightness test}}+{{:picopen:phpp_en_v10.3_end-of-terrace_passive_house.pdf|Completed Passive House Planning Package (PHPP)}}  for a residential building as PDF
  
-{{ :picopen:final_protocol_worksheets_ventilation_example.pdf |Final Protocol Worksheet for Ventilation Systems | Commissioning}}+Sample {{:picopen:architectural_drawings.pdf|plans and detail construction drawings}}
  
 +Single family home {{:picopen:singlefamilyhouse_tfa-vn50_calculation.pdf|detailed TFA and Vn50 calculation}}  using the SFH Aid tool
  
-{{ :picopen:thermal_bridges_to_ambiant_air.pdf |Thermal bridges to ambient air - calculation documentation}}+Sample {{:picopen:sample_window_schedule.pdf|window schedule}}
  
 +Sample {{:picopen:glazing_characteristics.pdf|glazing data sheet}}
  
 +Sample {{:picopen:uf_value_calculation.pdf|window frame U value calculation}}  in accordance with EN ISO 10077-2
  
-{{ :picopen:glazing_characteristics.pdf |Glazing characteristics}}+Sample {{:picopen:glazing_edge_thermal_bridge_calculation.pdf|glazing edge thermal bridge calculation}}  in accordance with EN ISO 10077-2
  
-{{ :picopen:uf_value_calculation.pdf |Window frame U value (Uf) calculation according to EN ISO 10077-2}}+Completed {{:picopen:final_protocol_worksheets_ventilation_example.pdf|documentation of flow rate adjustment}}  (commissioning of the ventilation system) based on the “ventilation specification sheet”
  
-{{ :picopen:glazing_edge_thermal_bridge_calculation.pdf |Glazing edge thermal bridge calculation according to EN ISO 10077-2}}+Record of an {{ :picopen:blowerdoortest_report.pdf |airtightness test}} according to EN 13829, Method A
  
-{{ :picopen:window_installation_thermal_bridge_calculation.pdf |Window profiles and window installation situations - calculation documentation}}+Record of an {{ :picopen:blowerdoortest_report_according_iso9972.pdf |airtightness test}}  according to ISO9972:2018-12
  
-{{ :picopen:construction_manager_certificate.doc |Construction Manager Certificate}}+Completed {{:picopen:enerphit_retrofit_plan_mfh.pdf|EnerPHit Retrofit Plan}}  for a staged renovation to the EnerPHit Standard
  
 +{{:picopen:confirmation_form_re_plants_offsite.pdf|Completed sheet}}  for renewable energy generation systems that are not installed on the building site
  
-{{ :picopen:confirmation_form_re_plants_offsite.pdf |Confirmation form for renewable energy plants which are not located on the building plot of the certification project}}+=== Guidance, checklists and templates ===
  
 +Guidance on documenting a {{:picopen:thermal_bridges_to_ambient_air.pdf|thermal bridge calculation}}  for a connection detail adjacent to ambient air
  
 +Guidance on documenting the calculation of a window profile and a {{:picopen:window_installation_thermal_bridge_calculation.pdf|window installation thermal bridge}}
  
-\\+Guidance on the calculation of thermal bridges for building assemblies in contact with the ground:
  
-=== Thermal bridges in building components in contact with the ground ===+  * [[:basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:ewfs|]] 
 +  * [[:basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:iwfs|]] 
 +  * [[:basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:heatedb|]] 
 +  * [[:basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:unheatedb|]]
  
 +Checklist for the report of the [[:planning:airtight_construction:general_principles:checklist_test_reports_of_airtightness_measurements|airtightness test]]
  
 +Template for the {{:picopen:construction_manager_declaration.pdf|Construction manager declaration}}
  
-  * [[basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:ewfs|Exterior wall on floor slab]] +Checklist {{:picopen:building_site_pictures_list_passive_house_building_certification.pdf|Building site photographs}}
- +
- +
-  * [[basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:iwfs|Interior walls on floor slabs]] +
- +
-  * [[basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:heatedb|Heated basement]] +
- +
- +
-  * [[basics:building_physics_-_basics:thermal_bridges:tbcalculation:examples:unheatedb|Unheated basement]] +
- +
  
 +----
  
 +=== See also ===
  
 +  * [[:planning:tools|Overview of Passive House design tools]]
 +  * [[:planning:guides_and_aids|Overview Guides and aids]]
  
  
certification/certified_passive_houses/example_documents.1572249279.txt.gz · Last modified: 2019/10/28 08:54 by cblagojevic