Interaction of Building Thermal Technics with Building Aerodynamics in Problem Solving of Physical Cavities of Double-Skin Transparent Facades

Boris Bielek

doi:10.4028/www.scientific.net/AMM.820.313

Paper Titles

Condensation of Water Vapour in the Functional Gap of Window - Experimental Measurement of Exfiltration at 15 Pa
p.285

Condensation on the Exterior Surface of Glass System
p.293

Analysis and Evaluation of Moisture Factor, Reliability, Effectivity and Durability of Sanation Methods Used to Treat Damp Masonry
p.299

Quality of Vapour-Proof Layer Concept in Roof Envelope in Residential Attics
p.305

Interaction of Building Thermal Technics with Building Aerodynamics in Problem Solving of Physical Cavities of Double-Skin Transparent Facades
p.313

The Impact of Relative Position of the High-Rise Buildings on the Wind Flow
p.320

Impact Wind Turbines Implementation in Municipalities in the Context of Sustainable Urbanism with Focus on Dynamic Pedestrian Comfort
p.326

Experimental Pressure Measurement on Elliptic Cylinder
p.332

Atmospheric Boundary Layer
p.338

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 820Interaction of Building Thermal Technics with...

Interaction of Building Thermal Technics with Building Aerodynamics in Problem Solving of Physical Cavities of Double-Skin Transparent Facades

Abstract:

The new facade technology of ecological, low-energy, cybernetic buildings. The physical theory of cavity. Quantification of the physical regime of corridor-type cavity of double-skin transparent facade with open circuit, employing the highly ecological self-recovery alternative source of solar energy. Aerodynamic quantification of cavity under the convection regime. Total aerodynamic resistance. Aerodynamic quantification of building. Aerodynamic coefficient of external pressure. The air rate of flow through the cavity under the wind pressure regime.

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Periodical:

Applied Mechanics and Materials (Volume 820)

Pages:

313-319

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.820.313

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Online since:

January 2016

Authors:

Boris Bielek*

Keywords:

Aerorynamic Coefficient of External Pressure, Double-Skin Transparent Façade, Physical Cavity, Renewable Source of Solar Energy, Total Aerodynamic Resistance of the Cavity

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References

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