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Zastosowanie osłony pasywnej do redukcji zysków od napromieniowania
Języki publikacji
Abstrakty
The paper presents the efficiency analysis of the passive shield which is opaque lightweight steel shell made of perforated panels arranged on the outer side of the building. The simplified calculation methodology is given. It is shown that the use of the shield lowers the outer temperature of the wall by several degrees which results in limiting heat gains in the summer, correspondingly.
Czasopismo
Rocznik
Tom
Strony
142--147
Opis fizyczny
Bibliogr. 13 poz., fot., rys., wykr., wzory
Twórcy
autor
- Kielce University of Technology
autor
- Kielce University of Technology
autor
- Kielce University of Technology
Bibliografia
- [1] Capeluto I.G.: Energy performance of the self-shading building envelope. Energy and Buildings 35 (2003), pp. 327-336.
- [2] Knowles R.L.: The solar envelope: its meaning for energy and buildings. Energy and Buildings 35 (2003), pp. 15-25.
- [3] Orzechowski T., Ziętala K.: Wpływ właściwości absorpcyjnych farb na komfort cieplny w pomieszczeniu (The influence of absorption properties of colored paints on thermal comfort in the room). Ciepłownictwo Ogrzewnictwo Wentylacja, 45/8 (2014), pp. 312-316.
- [4] Orzechowski T.: Wybrane zagadnienia magazynowania ciepła - modelowanie pracy akumulatora ciepła. Ciepłownictwo Ogrzewnictwo Wentylacja, 43/10 (2012), pp. 446-448.
- [5] Sadineni S.B., Madala S., Boehm R.F.: Passive building energy savings: A review of building envelope components. Renewable and Sustainable Energy Reviews 15 (2011), pp. 3617-3631.
- [6] Haggag M., Hassan A., Elmasry S.: Experimental study on reduced heat gain through green fac¸ ades in ahigh heat load climate. Energy and Buildings 82 (2014), pp. 668-674.
- [7] Qin J., Song J., Qu J., Xue X., Zhang W., Song Z., Shi Y., Jiang L., Li J., Zhang T.: The methods for creating building energy efficient cool black coatings. Energy and Buildings 84 (2014), pp. 308-315.
- [8] Kima J.T., Todorovica M.S.: Tuning control of buildings glazing’s transmittance dependence on the solar radiation wavelength to optimize day lighting and building’s energy efficiency. Energy and Buildings 63 (2013), pp. 108-118.
- [9] Mathieu-Potvin F., Gosselin L.: Thermal shielding of multilayer walls with phase change materials under different transient boundary conditions. International Journal of Thermal Sciences 48 (2009), pp. 1707-1717.
- [10] Marinosci C.: Experimental analysis of the summer thermal performances of a naturally ventilated rainscreen facade building. Energy and Buildings 72 (2014), pp. 280–287.
- [11] Mirsadeghi M., Cóstola D., Blocken B., Hensen J.L.M.: Review of external convective heat transfer coefficient models in building energy simulation programs: Implementation and uncertainty. Applied Thermal Engineering 56 (2013), pp. 134-151.
- [12] Orzechowski T., Stokowiec K.: Wybrane zagadnienia magazynowania ciepła - przegląd stosowanych materiałów. Ciepłownictwo Ogrzewnictwo Wentylacja, 44/1 (2013), pp. 3-7.
- [13] Praca zbiorowa: Budownictwo ogólne - fizyka budowli, tom 2, Arkady, Warszawa 2005.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1c86dfd2-8fc6-4e1f-8dd5-5bc9903c35e9