Verification of the thermal insulation properties and determination the optimal position of the reflective thermal insulation layer in the wood based envelope

[1] Puškár, A. (2002). Obvodové pláště budov - fasády. Bratislava: Jaga. ISBN 80-889-0572-9.Search in Google Scholar

[2] Kolb, J. (2008). Dřevostavby: systémy nosných konstrukcí, obvodové pláště. Praha: Grada. ISBN 978-80-247-2275-7.Search in Google Scholar

[3] Janssens, A., Roels, S. & Vandaele, L. (2011). Full scale test facilities for evaluation of energy and hygrothermal performances. University Press. Zelzate.Search in Google Scholar

[4] Chmúrny, I.(2003). Tepelná ochrana budov. Bratislava: Jaga group. ISBN 80-889-0527-3,Search in Google Scholar

[5] Halahyja, M. et al (1985). Stavebná tepelná technika, akustika a osvetlenie. Alfa.Search in Google Scholar

[6] STN EN 730540 (2012). Tepelnotechnické vlastnosti stavebných konštrukcií a budov. Tepelná ochrana budov.Search in Google Scholar

[7] Kneer, R. (2005). Calculations of thermal transmission by radiation with the use of “Aluthermo Quattro” composite insulation mat: Expert Report commissioned by Aluthermo AG, Burg Reuland, Belgium. Aachen.Search in Google Scholar

[8] Baláž, R. & Bagoňa, M. (2014). Preparation Measurements and Assessment of Roof Systems, SSP - Journal of Civil Engineering, 9(2), 27-38. - ISSN 1336-9024.10.2478/sspjce-2014-0013Search in Google Scholar

[9] Kováč, M. (2015). Comparison of vertical light wooden constructions insulated by straw bales. 2015. SSP - Journal of civil engineering: selected scientific papers, 10(2), 155-162. ISSN 1336-9024.10.2478/sspjce-2015-0027Search in Google Scholar

[10] Zozulák, M. & Katunský, D. (2015). Numerical and experimental determination of in-structure temperature profiles. SSP - Journal of Civil Engineering, 10(1), 67-74. ISSN 1336-9024.10.1515/sspjce-2015-0007Search in Google Scholar