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--- planning:non-residential_passive_house_buildings [2025/10/22 16:25] – [Summer comfort in non-residential buildings] yaling.hsiao@passiv.de
+++ planning:non-residential_passive_house_buildings [2025/10/22 16:44] (current) – [See also] yaling.hsiao@passiv.de
@@ Line 1: / Line 1: @@
 ====== Non-residential Passive House buildings ======
-The Passive House Standard allows for extremely high levels of comfort as well as enormous energy savings - not only for residential buildings. The Passive House Standard has been successfully realised in many different types of buildings including offices, hostels, factories, administrative buildings, sports halls, schools and kindergartens.
+The Passive House Standard allows for extremely high levels of comfort as well as enormous energy savings - not only for residential buildings. The Passive House Standard has been successfully realised in many different types of buildings including offices, hostels, factories, administrative buildings, sports halls, schools and kindergartens. Browse the [[https://passivehouse-database.org/index.php?lang=en|project database]] to learn about various types of projects built in different parts of the world. You can filter by typology in the advanced search.
-Browse the [[https://passivehouse-database.org/index.php?lang=en|project database]] to learn about various types of projects built in different parts of the world. You can filter by typology in the advanced search.
 ===== Passive House schools =====
@@ Line 85: / Line 83: @@
 ===== Passive House fire stations =====
-Examples of Passive House fire stations:
   * Heidelberg, Germany: [[https://passivehouse-database.org/index.php?lang=en#d_1118|Passive House Database ID 1118]]
@@ Line 98: / Line 94: @@
 The achievable level of energy efficiency of buildings is mainly determined by the building design and selection of the quality of building components during the planning and execution phases. Consumption later on is also influenced by actual building use. In non-residential buildings, control parameters have an influence to a relevant degree (e.g. operating times, supply temperatures, air flow/balancing of ventilation systems). Building automation offers an opportunity to optimise operation in terms of energy. However, appropriate control variables and strategies for typical non-residential Passive House buildings may differ from conventional approaches.
-Identifying malfunctions as well as unsuitable operating parameters based on observations is the task of technical monitoring, which is recommended for systematic commissioning and optimising operations.
+Identifying malfunctions as well as unsuitable operating parameters based on observations is the task of technical monitoring, which is recommended for systematic commissioning and optimising operations. Last but not least, the perspective of the users should always be considered right from the planning stage, which explicitly includes the technical operations personnel.
-Last but not least, the perspective of the users should always be considered right from the planning stage, which explicitly includes the technical operations personnel.
 [[.:non-residential_passive_house_buildings:building_automation|Read more here]]
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 Does it make sense to retrofit non-residential buildings with Passive House components if the buildings have a lot of internal heat sources? [[:basics:affordability:investing_in_energy_efficiency:economic_feasibility_of_passive_house_retrofits:factors_that_influence_the_energy_balance_and_affordability_of_non-residential_enerphit_projects|Read more]]
-=== Nr.48 Using Passive House technology for retrofitting non-residential buildings {{: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|]]
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 ----
-====== See also ======
+===== Research Group for Cost-effective Passive Houses =====
 Non-residential Passive House building  has been a central topic for several volumes of the Research Group for Cost-effective Passive Houses. Below is the translated articles:
-[[:phi_publications#nr41_cooling_in_non-residential_passive_house_buildings|Protocol: Nr.41 Cooling in non-residential Passive House buildings]]
+  * [[:phi_publications#nr41_cooling_in_non-residential_passive_house_buildings|Protocol: Nr.41 Cooling in non-residential Passive House buildings]] \\
+  * [[:phi_publications#nr44_ventilation_in_passive_house_-_non-residential_buildings|Protocol: Nr.44 Ventilation in Passive House - non-residential buildings]]\\
+  * [[:phi_publications#nr48_using_passive_house_technology_for_retrofitting_non-residential_buildings|Protocol: Nr.48 Using Passive House technology for retrofitting non-residential buildings]]\\
+  * [[:phi_publications#nr_51_planning_and_implementation_aids_for_passive_house_-_non-residential_buildings|Protocol: Nr.51 Planning and implementation aids for Passive House - non-residential buildings]]
+The original articles of Research Group for Cost-effective Passive Houses please refers  [[https://passipedia.de/medien/medien/veroeffentlichungen/uebersicht_protokollbaende| here]]
+----
+====== See also ======
+[[https://passipedia.org/planning/summer_comfort#summer_comfort_in_non-residential_buildings|Summer comfort in non-residential buildings]]
-[[:phi_publications#nr44_ventilation_in_passive_house_-_non-residential_buildings|Protocol: Nr.44 Ventilation in Passive House - non-residential buildings]]
-[[:phi_publications#nr48_using_passive_house_technology_for_retrofitting_non-residential_buildings|Protocol: Nr.48 Using Passive House technology for retrofitting non-residential buildings]]
-[[:phi_publications#nr_51_planning_and_implementation_aids_for_passive_house_-_non-residential_buildings|Protocol: Nr.51 Planning and implementation aids for Passive House - non-residential buildings]]