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InspirationsmødeKim Anker Nielsen / Schüco Danmark
Århus, d. 19. september 2019
04.10.2019 Århus 2019
Seamless Integration
2
04.10.2019 Inspiration 2019 -
ADS PD ASS PD FWS 35 PD FWS 60 CV AWS 75 PD
Panorama DesignUdgangssituation, mål og motivation
3
Inspiration 2019 -4
Facadesystem FWS 60 CV
04.10.2019
Kundeseminar 2019 - 02 Trends 5
System ASE (skydedør)
04.10.2019
04.10.2019 Kundeseminar 2019 - 02 Trends 6
Integration af opluk
System FWS 35 PD Seamless (skydedør)
04.10.2019Inspiration 2019 -
7
System FWS 35 PD Seamless (skydedør)
04.10.2019 Kundeseminar 2019 - 02 Trends 8
04.10.2019Inspiration 2019 -
9
System FWS 35 PD Seamless (skydedør)
ACT FacadeActive Cavity Transition Facade
ACT FacadeActive Cavity Transition Facade
Info / funktion
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT Facade
ACT FacadeActive Cavity Transition Facade
Video
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Kølelast reduktion
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
25% Kølelast reduktion
Målte resultater ved VERU bygningen, Fraunhofer IBP
ACT FacadeActive Cavity Transition Facade
Info / function
Solvarme transmissionskoefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing) ACT Facademed udluftning af hulrums luftSolvarmetransmissionskoefficienterg-værdi = 0,19
Normal Facadeuden udluftning af hulrums luftSolvarmetransmissionskoefficienterg-værdi = 0,31
Mindre kølebelastning Calculated based on DIN EN 673 and DIN EN 410
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System varianter
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
Dobbelt Facade Closed Cavity Facade Box Vindue ACT Facade
+
- Intet krav til mekanisk til hulrumsventilation
- Klar udsigt og gennemsigtigt udseende på grund af jernfattig glas
- Lav U-værdi
- Intet krav til mekanisk til hulrumsventilation
- Lille facadedybde- Maximal udnyttelse af
etageareal- Få glasflader- Kompatibel med
standard facade systemer
-
- Høj vedligeholdelse / rengøring nødvendigt (støv)
- Stor facadedybde tilvedligeholdelse
- Oplukkeligt vindue ikke er mulig på grund af høj temperatur i hulrummet
- Kræver et mekanisk system til at affugte og trykke i hulrummet
- Lukket hulrum under tryk, gør det vanskeligt at servicere solafskærmningen
- Kræver specialiseret solafskærmning, der tåler høj temperatur
- Høj vedligeholdelse / rengøring nødvendigt (støv)
- Der er behov for åbning til hulrummet til rengøring
- Kræver mekanisk system til at ventilere hulrummet
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Sammenligning af facadesystemer
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Sammenligning af facadesystem
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
Dobbelt Facade ACT Facade
650mm
Box Vindue
485mm
Closed Cavity Facade
400mm
Brugbar gulvareal
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Sammenligning af facadesystem
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
Facade Mockups ved Priedemann Facade-Lab, Berlin
Yderligere forskning og udviklingTekstil optimering, forbedring dagslys egenskaber, imødekommende af luft gennemtrængelighedVejledende manual til forskellige facadedesignSystem integration til både Stick-system og Unitized systemTransparence gennem textil
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Yderligere forskning og udvikling
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
Festo Automation CenterEsslingen, DE
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
© Festo AG
ACT FacadeActive Cavity Transition Facade
▪ FESTO Campus (2015)
© Festo AG
ACT FacadeActive Cavity Transition Facade
▪ FESTO Campus (2015)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)ACT Facade : cloudy day
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)ACT Facade : Sunny day
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)Testing by Fraunhofer IBP
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)Testing by Fraunhofer IBP
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
Pos. 5 Pos. 6 Pos. 7 Pos. 8
Pos. 1 Pos. 2 Pos. 3 Pos. 4
80 cm
80 cm
80 cm
flow velocity
Air temperature of gap centre
Air temperature gap at bottom
Air temperature upper gap
1/3 1/3 1/3
Pos. 1 Pos. 2
Pos. 3 Pos. 4
Pos. 5 Pos. 6
Pos. 1 Pos. 2
Pressuredifference
At the top
on the bottom
ABL
Room air temperature and flow velocity room-side in front of screen
DGNBPlatin
10-20% Køling belastning
reduction
44% Lys
transmittans
< 24%Samlet energitransmittans
0,90 Ucw i W/m²
90Farvegengivelse
indeks
13,5%Lysreflektionpå ydersiden
75 mm
Facade dybde
8500m²
Rengøringydeevne
i m² pr. dag
6000Kr/m²
Facade omkostningi Kr/m²
© Festo AG
ACT FacadeActive Cavity Transition Facade
▪ FESTO Campus (2015)
Continental HQHannover, DE
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
© HENN
ACT FacadeActive Cavity Transition Facade
▪ Continential HQ (ongoing)
© HENN
ACT FacadeActive Cavity Transition Facade
▪ Continential HQ (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)
▪ ARDEX (ongoing)
ACT FacadeActive Cavity Transition Facade
Info / function
Solar heat transmission coefficient
Cooling load reduction
System variations
Facade system comparison
Further research & development
Example project
▪ FESTO Campus (2015)
▪ Continential HQ (ongoing)Testing by Fraunhofer IBP
▪ ARDEX (ongoing)
© HENN
ACT FacadeActive Cavity Transition Facade
▪ Continential HQ (ongoing)
© Gerhard Spangenberg
ACT FacadeActive Cavity Transition Facade
▪ ARDEX (ongoing)
