Identyfikatory
Warianty tytułu
Overview of elevations using ventilation space in the scope of thermal efficiency
Języki publikacji
Abstrakty
W artykule przeanalizowano współczesne systemy elewacji z zastosowaniem przestrzeni wentylacyjnej, tj. elewacje podwójne typu DSF i elewacje wentylowane. Skupiono się na analizie współczesnej wiedzy z zakresu efektywności termicznej tych elewacji oraz wykorzystania ich w klimacie umiarkowanym ze względu na oszczędności energii. Przeanalizowano również możliwość dalszego rozwoju elewacji z zastosowaniem przestrzeni wentylacyjnej.
The article analyzes contemporary facade systems with ventilation space i.e. double skin façades and opaque ventilated façades. The article analyzes contemporary knowledge of thermal efficiency of these façades and their use in a temperate climate due to energy savings. The possibility of further development of such elevations was analyzed.
Czasopismo
Rocznik
Tom
Strony
97--102
Opis fizyczny
Bibliogr. 49 poz., il.
Twórcy
autor
- Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
autor
- Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
Bibliografia
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- [6] Barnaś J., Double-skin façades – the shaping of modern elevations – technology and materiale, Architecture 7-A/2014
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- [8] Cakmanus I., Optimization of double skin facades for buildings: an office building example In Ankara-Turkey. In: Proceedings of Clima 2007 Well-Being Indoors, Helsinki, June 10–14, 2007
- [9] Cetiner I., Ozkan E., An approach for the evaluation of Energy and cost efficiency of glass facades, Energy Build, 37/2005
- [10] Choi W., Joe J., Kwak Y., Huh J. H., Operation and control strategies for multi-storey double skin facades during the heating season, Energy Build 49/2012
- [11] Chou S. K., Chua K. J., Ho J. C., A study on the effects of double skin facades on the energy management in buildings, Energy Convers Manag 50/2009
- [12] Cruz Astorqui J. S., Porras-Amores C., Ventilated Façades with double chamber and flow control device, Energy and Buildings 149/2017, str. 471–482
- [13] D'Alençon, R., Double Skin Façades, Technology and Innovation in Architecture Learning from 20 years of experience in Germany, Conference: EES 2015 – Multidisciplinary Symposium on Energy, Efficiency and Sustainability
- [14] Rozporządzenie Ministra Infrastruktury i Budownictwa z dnia 14 listopada 2017 r. zmieniające rozporządzenie w sprawie warunków technicznych, jakim powinny odpowiadać budynki i ich usytuowanie (Dz.U. 2017, poz. 2285)
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- [16] Faggembauu D., Costa M., Soria M., Oliva A., Numerical analysis of the thermal behaviour of glazed ventilated facades in Mediterranean climates. Part II: applications and analysis of resuults. SolEnergy, 75/2003, str. 39–229
- [17] Fallahi A., Haghighat F., Elsadi H., Energy performance assessment of double-skin facade with thermal mass, Energy Build 42/2010
- [18] Ghadamian H., Ghadimi M., Shakouri M., Moghadasi M., Moghadasi M., Analytical solution for Energy modeling of double skin façades building, Energy Build 50/2012, str. 651–58
- [19] Gratia E., De Herde A., Are Energy consumptions decreased with the addition of a double-skin? Energy Build 39/2007
- [20] Gratia E., De Herde A., Natural cooling strategies efficiency in an office building with a double-skin facade, Energy Build 36/2004
- [21] Gratia E., De Herde A., Optimal operation of a south double-skin facade, Energy Build 36/2004
- [22] Gratia E., De Herde A., The most efficient position of shading devices in a double-skin facade, Energy Build 39/2007
- [23] Hensen J., Bartak M., Drkal F., Modeling and simulation of double-skin facade system. ASHRAE Trans 108/2002, str. 9–1251
- [24] Ibañez-Puy M., Vidaurre-Arbizu M., Sacristán-Fernández J. A., Martín-Gómez C., Opaque Ventilated Façades: Thermal and energy performance review, Renewable and Sustainable Energy Reviews 79/2017, str. 180–191
- [25] Kilaire A., Stacey M., Design of a prefabricated passive and active double skin façade system for UK Office, Journal of Building Engineering 123/2017, str. 161–170
- [26] Kim G., Schaefer L. A., Kim J. T., Development of a double-skin facade for sustainable renovation of old residential buildings, Indoor Built Environ 22/2013, str. 90–180
- [27] Kim Y. M., Kim S. Y., Shin S. W., Sohn J. Y., Contribution of natural ventilation in a double skin envelope to heating load reduction in Winter, Build Environ 44/2009, str. 44–2236
- [28] Kim Y. M., Lee J. H., Kim S. M., Kim S., Effects of double skin envelopes on natural ventilation and heating loads in office buildings, Energy Build 43/2011
- [29] Kolokotroni M., Robinson-Gayle S., Tanno S., Cripps A., Environmental impact analysis for typical office facades, Build Res Inf 32/2004, str. 2–16
- [30] Kragh M., Monitoring of advanced facades and environmental systems. The whole-life performance of facades, University of Bath, CWCT, 18/19 April 2001
- [31] Kragh M., Facade engineering and building physics. Examples of current best practice and recent innovations. Integrated Facade Sympodium, San Francisco, 21 April 2010
- [32] Papadaki N., Papantoniou S., Kolokotsa D., A parametric study of the Energy performance of double-skin façades in climatic conditions of Crete, Greece. Int J Low-Carbon Technologies 2013
- [33] Pasquay T., Natural ventilation in high-rise buildings with double facades, saving or waste of energy Energy Build 36/2004, str. 9–381
- [34] Perez-Grande I., Meseguer J., Alonso G., Influence of glass properties on the performance of double-glazed facades, Appl Therm Eng 25/2005
- [35] Pomponi F., Piroozfar P. A. E., Southall R., Ashton P., Farr, E. R. P., Energy performance of Double-Skin Façades in temperate climates: A systematic review and meta-analysis, Renewable and Sustainable Energy Reviews, 2016
- [36] Saelens D., Carmeliet J., Hens H., Energy performance assessment of multiple-skin facades, HVACR Res 9/2003, str. 85–167
- [37] Saelens D., Roels S., Hens H., Strategies to improve the Energy performance of multiple-skin facades. Build Environ 43/2008
- [38] Sanchez M. N., Sanjuan C., Suarez M. J., Heras M.R., Experimental assessment of the performance of open joint ventilated facades with buoyancy-driven airflow. Solar Energy, 91/2013, str. 131–144
- [39] Stec W. J., van Paassen A. H. C., Maziarz A., Modelling the double skin facade with plants. Energy Build 37/2005
- [40] Stec W. J., van Paassen A. H. C., Symbiosis of the double skin facade with the HVAC system. Energy Build 37/2005
- [41] Suárez M. J., Sanjuan C., Gutiérrez A. J., Pistono J., Blanco E., Energy evaluation of an horizontal open joint ventilated façade, Applied Thermal Engineering 37/2012, str. 302-313
- [42] Vaglio J. C., Aerophysics of double-skin facades simulation-based determination of pressure coefficients for multi-story double-skin facades, 2015
- [43] Wigginton M., McCarthy B., The environmental second skin – research carried out for the UK Department of the Environment Transport and the Regions, 2000
- [44] Xu L., Ojima T., Field experiments on natural Energy utilization in a residential house with a double skin facade system, Build Environ 42/2007
- [45] Zerefos S.C., On the performance of double skin facades in different environmental conditions, Int J Sustain Energy 26/2007, str. 9–221
- [46] Høseggen R., Wachenfeldt B. J., Hanssen S. O., Building simulation as an assisting tool in decision making – case study: with or without a double-skin facade? Energy Build 40/2008
- [47] Yılmaz Z., Çetintaş F., Double skin façade's effects on heat losses of office buildings in Istanbul, Energy Build 37/2005, str. 7–691
- [48] Tanaka H., Okumiya M., Tanaka H., Yoon G. Y., Watanabe K., Thermal characteristics of a double-glazed external wall system with roll screen in cooling season, Build Environ 44/2009
- [49] https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Energy_statistics_-_an_overview#Final_energy_consumption
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a4776150-4018-4000-a857-bd49b71c82ca