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construction:quality_assurance:nuremberg_case_study [2019/02/21 11:23] cblagojevicconstruction:quality_assurance:nuremberg_case_study [2020/08/12 18:46] (current) – [Introduction] wfeist
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 ===== Introduction ===== ===== Introduction =====
  
-=== Demonstration project Nuremberg, Jean-Paul-Platz 4": Modernisation using Passive House Components ===+=== Demonstration project "Modernising a block of flats in Nuremberg" ===
  
  
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 The heating demand of this building was reduced from 200kWh/(m²a) (previous state) to less than 26kWh/(m²a) as shown in Fig. 1. Typical commonly available Passive House components were used for this. The heating demand of this building was reduced from 200kWh/(m²a) (previous state) to less than 26kWh/(m²a) as shown in Fig. 1. Typical commonly available Passive House components were used for this.
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-[{{ :picopen:figure1_protokollband24_quality_assurance_nuernmberg.png?direct&400|Figure 1: \\ The demonstration project "Nuremberg, Jean-Paul-Platz 4" belonging to the wbg Nuremberg, planning for the modernisation by the architect Burkhard Schulze-Darup}}]+[{{ :picopen:figure1_protokollband24_quality_assurance_nuernmberg.png?direct&400|Figure 1: \\ The demonstration project "Nuremberg, Jean-Paul-Platz 4" belonging to the wbg Nuremberg, planning for the modernisation by the architect Burkhard Schulze-Darup, for a detailled description see also [[phi_publications:pb_24:modernising_a_block_of_flats_jean-paul-place_4_nuremberg|modernising a block of flats in Nuremberg]] }}]
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 [[construction:quality_assurance:nuremberg_case_study:Examination of the external envelope using thermographic imaging]]\\ [[construction:quality_assurance:nuremberg_case_study:Examination of the external envelope using thermographic imaging]]\\
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   * The lowest temperatures are found at the glass edge seal and at the base board of the lower corners of the building. The temperatures at the base are almost one degree less than the calculated temperature. This is due to drying processes taking place in the external wall that is damp from previous years.   * The lowest temperatures are found at the glass edge seal and at the base board of the lower corners of the building. The temperatures at the base are almost one degree less than the calculated temperature. This is due to drying processes taking place in the external wall that is damp from previous years.
  
-There were surprisingly good results of the airtightness tests. Inspection with a building pressure test in the completed state gave a value of n50 = 0.35 h-1. No serious leaks were detected. The care taken in the case of wooden beam ceilings proved to be very essential.+There were surprisingly good results of the airtightness tests. Inspection with a building pressure test in the completed state gave a value of n<sub>50</sub> = 0.35 h<sup>-1</sup>. No serious leaks were detected. The care taken in the case of wooden beam ceilings proved to be very essential.
 Adjustment of the ventilation system still was not optimal. Simplifications and relevant support on the part of manufacturers are necessary. Adjustment of the ventilation system still was not optimal. Simplifications and relevant support on the part of manufacturers are necessary.
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 [[construction:quality_assurance:thermal_bridges|]]  {{:picopen:members_only.png?25|}} [[construction:quality_assurance:thermal_bridges|]]  {{:picopen:members_only.png?25|}}
  
-[[http://www.passivhausprojekte.de/index.php?lang=en | Passive House Building Database]] \\+[[https://passivehouse-database.org/index.php?lang=en| Passive House Building Database search for "EnerPHit"]] \\
  
 +[[https://europhit.eu/| Europea Union project on step by step refurbishment of esxisting buildings with many examples ]]
 ===== Literature ===== ===== Literature =====
  
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 **[Raisch 1928]** Raisch, E.: Die Luftdurchlässigkeit von Baustoffen und Baukonstruktionen, gi 30 (1928). (Air permeability of building materials and structures) **[Raisch 1928]** Raisch, E.: Die Luftdurchlässigkeit von Baustoffen und Baukonstruktionen, gi 30 (1928). (Air permeability of building materials and structures)
  
-**[Schnieders 2003]** Schnieders, J.: Lüftungsstrategien und Planungs¬hinweise, in: Protokollband Nr. 23 des Arbeitskreis kostengünstige Passiv¬häuser; Passivhaus Institut Darmstadt; Darmstadt, 2003. (Ventilation strategies and planning notes, in: Protocol Volume No. 23 of the Research Group for Cost-effective Passive Houses)+**[Schnieders 2003]** Schnieders, J.: Lüftungsstrategien und Planungs¬hinweise, in: Protokollband Nr. 23 des Arbeitskreis kostengünstige Passivhäuser; Passivhaus Institut Darmstadt; Darmstadt, 2003. (Ventilation strategies and planning notes, in: Protocol Volume No. 23 of the Research Group for Cost-effective Passive Houses)
  
  
construction/quality_assurance/nuremberg_case_study.1550744583.txt.gz · Last modified: 2019/02/21 11:23 by cblagojevic