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planning:non-residential_passive_house_buildings

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planning:non-residential_passive_house_buildings [2023/11/15 10:43] yaling.hsiao@passiv.deplanning:non-residential_passive_house_buildings [2023/12/21 11:34] – [Building automation] wolfgang.hasper@passiv.de
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 [{{:picopen:riedberg-schule_frankfurt_passivhaus.jpg?500|**Best Practice Example - Riedberg Passive House School** \\ [{{:picopen:riedberg-schule_frankfurt_passivhaus.jpg?500|**Best Practice Example - Riedberg Passive House School** \\
-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. [[:examples:non-residential_buildings:passive_house_schools:central_europe:riedberg_passive_house_school_frankfurt_germany|Read more]]}}] [{{ :picopen:secondary_school_in_baesweiler_-_fig_2.jpg?500|**Secondary school in Baesweiler - modernised and energy-optimised to the Passive House Standard – a unique exemplary model!** \\ +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. [[:examples:non-residential_buildings:passive_house_schools:central_europe:riedberg_passive_house_school_frankfurt_germany|Read more]]}}][{{:picopen:secondary_school_in_baesweiler_-_fig_2.jpg?500|**Secondary school in Baesweiler - modernised and energy-optimised to the Passive House Standard – a unique exemplary model!** \\ 
-Besides great environmental benefits like saving 90 % in heating costs and saving 530 tons of CO<sub>2</sub> per year, the decision-makers of the City of Baesweiler made it their objective to contribute to the elimination of a misconception which also many architects subscribe to, that “Passive Houses are thickly insulated, disproportionate, impersonal blocks that are impossible to realise in a good quality architectural style”. [[:examples:non-residential_buildings:passive_house_schools:central_europe:riedberg_passive_house_school_frankfurt_germany|Read more]] }}]+Besides great environmental benefits like saving 90 % in heating costs and saving 530 tons of CO<sub>2</sub> per year, the decision-makers of the City of Baesweiler made it their objective to contribute to the elimination of a misconception which also many architects subscribe to, that “Passive Houses are thickly insulated, disproportionate, impersonal blocks that are impossible to realise in a good quality architectural style”. [[:examples:non-residential_buildings:passive_house_schools:central_europe:riedberg_passive_house_school_frankfurt_germany|Read more]]}}]
  
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 ===== Building automation ===== ===== Building automation =====
  
-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. 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.+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. 
 + 
 +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]] [[.:non-residential_passive_house_buildings:building_automation|Read more here]]
  
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 ===== Retrofitting non-residential buildings to the Passive House / EnerPHit-standard ===== ===== Retrofitting non-residential buildings to the Passive House / EnerPHit-standard =====
planning/non-residential_passive_house_buildings.txt · Last modified: 2024/04/19 10:52 by jgrovesmith