Pont, U., Schober, K. P., Wölzl, M., Schuß, M. W., & Haberl, J. (2023). Vacuum-glazed windows. In W. Bustamante, M. Andrade, & P. Ortiz E (Eds.), PLEASTGO 2022 Will Cities survive? The future of sustainable buildings and urbanism in the age of emergency - Book of Proceedings Vol 2 Onsite Sessions (pp. 1079–1084). Eigenverlag - Pontificia Universidad Católica de Chile.
E259-03 - Forschungsbereich Bauphysik und Bauökologie
-
Published in:
PLEASTGO 2022 Will Cities survive? The future of sustainable buildings and urbanism in the age of emergency - Book of Proceedings Vol 2 Onsite Sessions
-
ISBN:
978-956-14-3069-3
-
Date (published):
15-Mar-2023
-
Event name:
PLEA STGO2022: Will Cities Survive?
en
Event date:
22-Nov-2022 - 25-Nov-2022
-
Event place:
Santiago de Chile, Chile
-
Number of Pages:
6
-
Publisher:
Eigenverlag - Pontificia Universidad Católica de Chile, Chile
-
Keywords:
Vacuum glazing windows; Existing windows; Developement of new Windows; Numeric Thermal Bridge Simulation; Hygrothermal Performance
en
Abstract:
Windows are relevant for the design and performance of buildings for several reasons, such as daylight and natural ventilation provision. However, window constructions are considered as weak spots in the thermal envelope compared to opaque elements. This is due to increased heat transfer in comparison with fullfledge insulated opaque elements. Moreover, thermal bridges, mold growth, water penetration and draught are phenomena that occur often in window constructions. To tackle these, windows have been undergoing different improvements (e.g. multi-layer glass panes, rubber seals, foil add-ons on glass pane, etc.) majorly addressing their hygrothermal and acoustical performance. Vacuum glass products (VGs) are highly insulating glass products that are offered on the market with reasonable degrees of vacuum-upkeep today. While the development of such glass products has been widely published, little R&D efforts have been observed targeting the integration of such VGs into contemporary and existing window constructions. The present contribution reports on recent projects focusing on the integration of highly insulating VGs into historic and new window constructions. In existing windows, significant improvement of the thermal performance can be reached. New windows, tailored to the requirements of VGs provide extraordinary performances, if properly designed and integrated in the building envelopes.
en
Project title:
Fensterprototypen mit integriertem Vakuumglas: 867352 (FFG - Österr. Forschungsförderungs- gesellschaft mbH) Sondierung von Fenstersystemen mit innovativen Gläsern, speziell Vakuum-Isoliergläsern, zur Gebäudesanierung: 845225 (FFG - Österr. Forschungsförderungs- gesellschaft mbH) Modellierung, Optimierung, und technische Integration von Vakuumglas-Elementen: Sondierung über die Detaillierung von Vakuumgläsern in neuen Holz(Alu)Fenster-Konstruktionen: Detaillierung, Bau und Simulation: 854690 (FFG - Österr. Forschungsförderungs- gesellschaft mbH) Vakuumglas-Kastenfenster: Performance-Monitoring in Sanierungsprojekten: 878272 (FFG - Österr. Forschungsförderungs- gesellschaft mbH)
Windows are relevant for the design and performance of buildings for several reasons, such as
daylight and natural ventilation provision. However, window constructions are considered as weak spots in the
thermal envelope compared to opaque elements. This is due to increased heat transfer in comparison with fullfledge
insulated opaque elements. Moreover, thermal bridges, mold growth, water penetration and draught are
phenomena that occur often in window constructions. To tackle these, windows have been undergoing different
improvements (e.g. multi-layer glass panes, rubber seals, foil add-ons on glass pane, etc.) majorly addressing
their hygrothermal and acoustical performance. Vacuum glass products (VGs) are highly insulating glass
products that are offered on the market with reasonable degrees of vacuum-upkeep today. While the
development of such glass products has been widely published, little R&D efforts have been observed targeting
the integration of such VGs into contemporary and existing window constructions. The present contribution
reports on recent projects focusing on the integration of highly insulating VGs into historic and new window
constructions. In existing windows, significant improvement of the thermal performance can be reached. New
windows, tailored to the requirements of VGs provide extraordinary performances, if properly designed and
integrated in the building envelopes.
-
Research Areas:
Development and Advancement of the Architectural Arts: 25% Energy Active Buildings, Settlements and Spatial Infrastructures: 50% Modeling and Simulation: 25%
