planning:non-residential_passive_house_buildings
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planning:non-residential_passive_house_buildings [2017/12/01 11:48] – kdreimane | planning:non-residential_passive_house_buildings [2023/11/15 10:43] – [Passive House schools] yaling.hsiao@passiv.de | ||
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- | ====== Non-residential Passive House buildings ====== | + | ====== 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. |
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+ | Browse the [[https:// | ||
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===== Passive House schools ===== | ===== Passive House schools ===== | ||
- | [{{ : | + | Passive House school buildings are particularly interesting. Several school buildings have been realised using this standard and experiences gained from their use are now available: The Passive House Standards allows for energy savings of around 75% in comparison with average new school buildings - and of course there is no need for an additional heating or cooling system. The additional investment costs are within reasonable limits.\\ |
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- | The Passive House Standard is a sensible alternative, | + | |
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- | Passive House school buildings are particularly interesting. Several school buildings have been realised using this standard and experiences gained from their use are now available: The Passive House Standards allows for energy savings of around 75% in comparison with average new school buildings - and of course there is no need for an additional heating or cooling system. The additional investment costs are within reasonable limits. \\ | + | |
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- | [[planning: | + | [[.: |
- | [[planning: | + | [[.: |
- | [[planning: | + | [[.: |
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+ | The Passive House primary school and day nursery in Riedberg Frankfurt a.M. was opened in November 2004 after a construction period of only 14 months. The extra costs for achieving the Passive House Standard were a moderate 5.3 % in comparison with the currently valid EnEV (German energy saving regulations) standard. [[: | ||
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+ | Besides great environmental benefits like saving 90 % in heating costs and saving 530 tons of CO< | ||
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===== Passive House office buildings ===== | ===== Passive House office buildings ===== | ||
- | **Certification of Passive House office buildings** - Passive House office | + | Office |
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+ | Passive House office building certification is based on a standard occupancy level and corresponding internal gains of 3.5 W/m² (the reference area being the “treated floor area” of the PHPP, not the office area). From the PHI’s experience this value represents a typical average, taking into account an improved efficiency of the equipment used. The reasons why the PHI uses standard values for certification are partly to be able to ensure consistency and also because the use of a building is often not permanent and not always prior known.\\ | ||
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+ | Lippe-Bad was built as a pilot projet to demonstrate the Passive House concept for indoor swimming pools.}}] | ||
===== Passive House swimming pools ===== | ===== Passive House swimming pools ===== | ||
- | [{{ : | + | Swimming pools are a very energy intensive building typology. The energy demand can be reduced significantly by consistently applying |
+ | The general concept and pracitcal design guidelines for energy efficiency strategies are published in the [[.: | ||
- | **Energy efficiency in public indoor swimming pools** \\ | + | Go to the [[.: |
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- | The Passive house concept can be applied as a guiding principle for swimming pool buildings as well; the objective is to achieve optimal thermal comfort with significantly reduced energy consumption. The following article is a combination of different publications that deal with the basic principles of applying the Passive House concept for public indoor swimming pools. \\ | + | |
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+ | ===== Passive House Hospital ===== | ||
+ | Conventional hospitals are among the buildings with very high energy consumption values and incur special demands for the comfort of patients which must be met in a reliable way. The application of the Passive House concept appears extremely interesting in this context. A common misunderstanding is the assumption that energy efficiency efforts are only concerned with the minimisation of the heating demand. The basic idea however is to achieve a significant reduction in the demand for all energy-relevant applications in a building while maintaining the same level of comfort. | ||
- | ===== Passive House concept in hospitals ===== | + | [[.: |
- | **Baseline study - implementing the Passive House concept in hospitals** \\ | + | ---- |
- | //This article is published in the [[http://www.passiv.de/ | + | [{{ :picopen: |
- | Evaluations of consumption statistics show that hospitals are among the buildings that consume the most energy. To evaluate | + | ===== Energy efficiency in cafeterias |
- | [[planning: | + | Commercial kitchens are one of the most energy-intensive areas of buildings. In addition to cooking, dishes are washed and food is kept cool, all of which require a lot of energy; in addition, each of these processes creates a lot of internal heat and moisture, which has to be drawn out of the kitchen with sufficiently dimensioned |
- | [[http:// | + | [[.:commercial_kitchens_and_cafeterias|]] |
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- | **Aspects of efficient ventilation in hospitals** \\ | + | ---- |
- | //This article is published in the [[http://www.passiv.de/literaturbestellung/ | + | [{{ :picopen: |
- | Certain areas of hospitals require great air flows, with especially high air exchange rates found in operation rooms, labs, and areas where utensils are sterilized. Ventilation systems therefore make up a significant share of total energy demand. In addition, a large number of individual components are needed to filter and purify the air in compliance with hygienic and functional requirements for individual hospital areas (especially operating rooms). The sum of these individual pressure losses has a great impact on ventilators' | + | ===== Passive House retail / supermarkets ===== |
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+ | There are several examples of retail buildings to the Passive House standard. The most popular retail typology are supermarkets, | ||
- | ---- | + | Watch the [[: |
+ | Additional relevant background information on selected topic relevant for retail buildings can also be found in the 40th edition of the " | ||
- | ===== Energy efficiency in cafeterias and commercial kitchens ===== | + | * [[.: |
+ | * [[: | ||
- | **Energy efficiency in cafeterias and commercial kitchens** | + | ---- |
- | //This article is published in the [[http:// | + | ===== Passive House Laboratories ===== |
- | Commercial kitchens | + | Passive House laboratories |
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- | **Ventilation in commercial kitchens** | + | |
- | //This article is published in the [[http:// | + | Read more about [[.: |
- | // | + | |
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- | A large part of the energy used in commercial kitchens is devoted to ventilation. Kitchen ventilation systems have to remove heat, moisture, and aerosols emitted during cooking and cleaning from the indoor air to ensure tolerable working conditions for staff. \\ [[planning: | + | |
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- | ===== Passive House retail | + | ===== Building automation |
- | // | + | The achievable level of energy efficiency of buildings is mainly determined by the building design |
- | [[planning: | + | [[.: |
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===== Retrofitting non-residential buildings to the Passive House / EnerPHit-standard ===== | ===== Retrofitting non-residential buildings to the Passive House / EnerPHit-standard ===== | ||
- | **Factors that influence the energy balance and affordability of non-residential EnerPHit-projects** | + | **Factors that influence the energy balance and affordability of non-residential EnerPHit-projects** |
- | Does it make sense to retrofit non-residential buildings with Passive House components if the buildings have a lot of internal heat sources? \\ | + | Does it make sense to retrofit non-residential buildings with Passive House components if the buildings have a lot of internal heat sources? \\ [[:basics: |
- | [[basics: | + | |
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- | [[phi_publications: | + | |
- | [[phi_publications: | + | === Nr.48 Using Passive House technology for retrofitting non-residential buildings === |
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+ | * [[:phi_publications: | ||
+ | * [[: | ||
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====== See also ====== | ====== See also ====== | ||
- | [[http://passiv.de/ | + | [[:phi_publications: |
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+ | [[: | ||
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+ | [[: | ||
- | [[certification: | ||
- | [[http:// |
planning/non-residential_passive_house_buildings.txt · Last modified: 2024/04/19 10:52 by jgrovesmith