[1]
M. Kraus and F. Konečný, The Evaluation of nearly Zero Energy Buildings in the Czech Republic, Advanced Materials Research. Volume 649 (2013) 15-18.
DOI: 10.4028/www.scientific.net/amr.649.15
Google Scholar
[2]
M. Kraus, K. Kubenková and D. Kubečková, The Energy Diagnostics of Current Trend in the Construction of the Single-Family Residential Buildings, in: 14th international multidisciplinary scientific geoconferences SGEM 2014: Nano, bio and green technologies for a sustainable future, STED92 Technology, Albena, 2014, pp.691-698.
DOI: 10.5593/sgem2014/b62/s27.089
Google Scholar
[3]
E. Nagy, Low-Energy and Energy Passive House (Nízkoenergetický a energeticky pasivní dům), JAGA Group, Bratislava, (2008).
Google Scholar
[4]
Information on http: /www. pasivnidomy. cz.
Google Scholar
[5]
Information on http: /passipedia. passiv. de.
Google Scholar
[6]
Information on http: /www. sanceprobudovy. cz.
Google Scholar
[7]
Criteria for the Passive House, EnerPHit and PHI Low Energy Building Standard (Draft Version – not yet effective), Passive House Institute, Germany, (2015).
Google Scholar
[8]
M. Kraus, The Determinative Factors of Airtightness of Energy Efficient Buildings (Determinační faktory vzduchotěsnosti energeticky efektivních budov), PhD Dissertation, VSB - Technical University of Ostrava, Faculty of Civil Engineering, Czech Republic, (2014).
DOI: 10.17973/mmsj.2022_10_2022070
Google Scholar
[9]
R. Schneiderová, Sustainability Procurement of Buildings: Economic Aspects (Udržitelné pořizování staveb: ekonomické aspekty), first ed., Wolters Kluwer, Prague, Czech Republic, (2011).
Google Scholar
[10]
Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the energy performance of building (recast), 2010, Official Journal of the EU, L153.
Google Scholar