Transparent insulation efficiency determined by different methods

• Autorzy: Machniewicz, A. , Borowczyński, A. , Heim, D.

Warianty tytułu

PL

Obliczeniowa efektywność izolacji transparentnych wyznaczana różnymi metodami

• Języki publikacji: EN

Abstrakty

EN

The paper summarizes the methods of calculating heat gain by transparent insulation using two national standards. The energy balance of the partition was evaluated taking its orientation into account. A comparison was conducted into the methods of assessing the effectiveness of transparent insulation.

PL

W artykule przedstawiono metody wyznaczania zysków ciepła uzyskiwanych poprzez zastosowanie izolacji transparentnej z wykorzystaniem dwóch norm. Wyznaczono bilans energetyczny przegrody uwzględniający warunki klimatyczne charakterystyczne dla danej orientacji. Przeprowadzono porównanie metod ze względu na efektywność izolacji transparentnej.

Słowa kluczowe

PL

izolacja transparentna; zyski ciepła; bilans energetyczny

EN

transparent insulation; heat gains; energy balance

• Czasopismo: Czasopismo Techniczne. Budownictwo
• Rocznik: 2014
• Tom: R. 111, z. 3-B
• Strony: 291--298
• Opis fizyczny: Bibliogr. 18 poz., wz., tab., wykr.

Twórcy

autor

Machniewicz, A.

• Department of Environmental Engineering, Faculty of Process and Environmental Engineering, Lodz University of Technology

autor

Borowczyński, A.

• Department of Environmental Engineering, Faculty of Process and Environmental Engineering, Lodz University of Technology

autor

Heim, D.

• Department of Environmental Engineering, Faculty of Process and Environmental Engineering, Lodz University of Technology

Bibliografia

• [1] DIN 4108-6:2000-11: Wärmeschutz ud Energie-Einsparung in Gebäuden – Teil 6: Berechnung des Jahresheizwärme- und des Jahresheizenergiebedarfs.
• [2] Dudko K., Izolacje transparentne w systemach pasywnego ogrzewania słonecznego, Izolacje, 1/2004.
• [3] Kaushika N.D., Sumathy K., Solar transparent insulation materials: a review, Renewable&Sustainable Energy Reviews, Vol. 7, 2003, 317-351.
• [4] Kisilewicz T., Computer Simulation in Solar Architecture Design, Architectural Engineering and Design Management, Vol. 3/2007.
• [5] Kisilewicz T., Experimental field testing of transparent insulation, Archives of Civil Engineering, Vol. 54, 2008, 493-508.
• [6] Lewandowski W.M., Lewandowska-Iwaniak W., The external walls of a passive building: A classification and description of their thermal and optical properties, Energy and Buildings, Vol. 69, 2014, 93-102.
• [7] Platzer W.J., Total heat transport data for plastic honeycomb-type structures, Solar Energy, Vol. 49, 1992, 351-358.
• [8] PN-EN ISO 13790: Energy performance of buildings – Calculation of energy use for space heating and cooling.
• [9] Polish Ministry of Infrastructure and Development (http://www.mir.gov.pl).
• [10] Sick F., Kummer J.P., Simulation of transparently insulated buildings, Solar Energy, Vol. 49, 1992, 429-434.
• [11] Strachan P.A., Johnstone C.M., Solar Residences with transparent insulation: predictions from a calibrated model, Proc. North Sun ’94, Glasgow, 1994, 347-353.
• [12] Suehrcke H., Daldehog D., Harris J.A., Lowe R.W., Heat transfer across corrugated sheets and honeycomb transparent insulation, Solar Energy, Vol. 76, 2004, 351-358.
• [13] Verbeeck G., Hens H., Radiative and Conductive Heat Transfer through Transparent Insulation Material and the Effect on the λ-value, Building Physics ’96 – 4th Nordic Symposium.
• [14] Wallner G.M., Hausner R., Hegedys H., Schobermayr H., Lang R.W., Application demonstration and performance of a cellulose triacetate polymer film based transparent insulation wall heating system, Solar Energy, Vol. 80, 2006, 1410-1416.
• [15] Wittchen K.B., Simulation Solar Walls with tsbi3, Building Physics ’93 – 3th Nordic Symposium.
• [16] Wong I.L., Eames P.C., Perera R.S., A review of transparent insulation systems and the evaluation of payback period for building applications, Solar Energy, Vol. 81, 2007, 1058-1071.
• [17] Yang H., Zhu Z., Burnett J., Simulation of the behaviour of transparent insulation materials in buildings in northern China, Applied Energy, Vol. 67, 2000, 293-306.
• [18] Zanghirella F., Perino M., Serra V., A numerical model to evaluate the thermal behaviour of active transparent facades, Energy and Buildings, Vol. 43, 2011, 1123-1138.