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THERMAL BRIDGES HYGROTHERMAL PERFORMANCE IN BUILDING ENVELOPES SUBMITTED TO ENERGY REHABILITATION
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References30
European Commission. Directive 2010/31/EU of the European Parliament and of the council of 19th May 2010 on the energy performance of buildings, OJEU, L 153/13, 18/06/2010;
European Commission. Directive 2012/27/EU of the European Parliament and of the council of 25 October 2012 on energy efficiency, amending Directives 2009/125/EC and 2010/30/EU and repealing Directives 2004/8/EC and 2006/32/EC, OJEU, L 315, 14/11/2012;
Iacob A., Miron L., Miron C., Cherecheș M.L. Case studies on hygrothermal response assessment of internal insulated elements of building envelope, The sixth edition of the research conference on constructions, economy of constructions, architecture, urbanism and territorial development: „Challenges for Romania within 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future Horizon 2020 – The EU framework program for research and innovation 2014- 2020”, 18 October 2013, Abstract Proceedings, p. 85, ISSN 2343-7537, NIR&D URBAN- INCERC Press, Bucharest, 2013, http://www.incd.ro/evenimente;
Vares S., Pulakka S., Toratti T., Fülop L., Hradil P., Vesikari E., Laitinen A., Ruuska A., Häkkinen T., Tolman A., Holøs S., Svensson A., Wester Plesser T.S., King C., Uriarte A., Garay R., Rodriguez F., Tweed C., Gandhi K. Sustainable refurbishment of exterior walls and building façades; Final report, Part B – General refurbishment concepts; VTT Technology 33, pp. 186-205, ISBN 978-951-38 -7849-8, 2012, http://www.vtt.fi/publications/index.jsp;
Straube J.F., Ueno K., Schumacher C.J. Measure Guideline: Internal Insulation of Masonry Walls, Building Science Corporation, Somerville, USA, July 2012;
Künzel H.M. Effect of interior and exterior insulation on the hygrothermal behaviour of exposed walls, Materials and Structures/Materiaux et Constructions, Vol. 31, March 1998, pp. 99-103;
Brandt E., Bunch-Nielsen T., Christensen G. Interior insulation of solid brick walls in cold climates, Proceedings of the 5 th International Building Physics Conference (IBPC), Kyoto, Japan, 28-31 May 2012, pp. 299-302;
Pavlík Z., Černý R. Hygrothermal performance study of an innovative interior thermal insulation system, Applied Thermal Engineering, Vol. 29, 2009, pp. 1941-1946;
Maděra J., Jerman M., Černý R. Hygric Performance of a Sandstone Wall Retrofitted with Interior Thermal Insulation, World Academy of Science, Engineering and Technology, Vol.70, October 2012, pp. 826-830;
Kočí V., Maděra J., Černý R. Computer aided design of interior thermal insulation system suitable for autoclaved aerated concrete structures, Applied Thermal Engineering, Vol. 58, 2013, pp. 165-172;
Toman J., Vimmrová A., Černý R. Long-term on-site assessment of hygrothermal performance of interior thermal insulation system without water vapour barrier, Energy and Buildings, Vol. 41, 2009, pp. 51-55;
Kolaitis D.I., Malliotakis E., Kontogeorgos D.A., Mandilaras I., Katsourinis D.I., Founti M.A. Comparative assessment of internal and external thermal insulation systems for energy efficient retrofitting of residential buildings, Energy and Buildings, Vol. 64, 2013, pp. 123-131;
Morelli M., Rønby L., Mikkelsen S.E., Minzari M.G., Kildemoes T., Tommerup H.M. Energy retrofitting of a typical old Danish multi- family building to a „nearly - zero” energy building based on experiences from a test apartment, Energy and Buildings, Vol. 54, 2012, pp. 395-406 ;
Fraunhofer IBP, WUFI ® 2D, Software for calculating the coupled heat and moisture transfer in building components, http://www.wufi.de/index_e.html;
Erhan E. Clima și microclimatele din zona orașului Iași, Editura Junimea, Iași, 1979.
European Commission. Directive 2010/31/EU of the European Parliament and of the council of 19th May 2010 on the energy performance of buildings, OJEU, L 153/13, 18/06/2010;
European Commission. Directive 2012/27/EU of the European Parliament and of the council of 25 October 2012 on energy efficiency, amending Directives 2009/125/EC and 2010/30/EU and repealing Directives 2004/8/EC and 2006/32/EC, OJEU, L 315, 14/11/2012;
Iacob A., Miron L., Miron C., Cherecheș M.L. Case studies on hygrothermal response assessment of internal insulated elements of building envelope, The sixth edition of the research conference on constructions, economy of constructions, architecture, urbanism and territorial development: „Challenges for Romania within 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future Horizon 2020 – The EU framework program for research and innovation 2014- 2020”, 18 October 2013, Abstract Proceedings, p. 85, ISSN 2343-7537, NIR&D URBAN- INCERC Press, Bucharest, 2013, http://www.incd.ro/evenimente;
Vares S., Pulakka S., Toratti T., Fülop L., Hradil P., Vesikari E., Laitinen A., Ruuska A., Häkkinen T., Tolman A., Holøs S., Svensson A., Wester Plesser T.S., King C., Uriarte A., Garay R., Rodriguez F., Tweed C., Gandhi K. Sustainable refurbishment of exterior walls and building façades; Final report, Part B – General refurbishment concepts; VTT Technology 33, pp. 186-205, ISBN 978-951-38 -7849-8, 2012, http://www.vtt.fi/publications/index.jsp;
Straube J.F., Ueno K., Schumacher C.J. Measure Guideline: Internal Insulation of Masonry Walls, Building Science Corporation, Somerville, USA, July 2012;
Künzel H.M. Effect of interior and exterior insulation on the hygrothermal behaviour of exposed walls, Materials and Structures/Materiaux et Constructions, Vol. 31, March 1998, pp. 99-103;
Brandt E., Bunch-Nielsen T., Christensen G. Interior insulation of solid brick walls in cold climates, Proceedings of the 5 th International Building Physics Conference (IBPC), Kyoto, Japan, 28-31 May 2012, pp. 299-302;
Pavlík Z., Černý R. Hygrothermal performance study of an innovative interior thermal insulation system, Applied Thermal Engineering, Vol. 29, 2009, pp. 1941-1946;
Maděra J., Jerman M., Černý R. Hygric Performance of a Sandstone Wall Retrofitted with Interior Thermal Insulation, World Academy of Science, Engineering and Technology, Vol.70, October 2012, pp. 826-830;
Kočí V., Maděra J., Černý R. Computer aided design of interior thermal insulation system suitable for autoclaved aerated concrete structures, Applied Thermal Engineering, Vol. 58, 2013, pp. 165-172;
Toman J., Vimmrová A., Černý R. Long-term on-site assessment of hygrothermal performance of interior thermal insulation system without water vapour barrier, Energy and Buildings, Vol. 41, 2009, pp. 51-55;
Kolaitis D.I., Malliotakis E., Kontogeorgos D.A., Mandilaras I., Katsourinis D.I., Founti M.A. Comparative assessment of internal and external thermal insulation systems for energy efficient retrofitting of residential buildings, Energy and Buildings, Vol. 64, 2013, pp. 123-131;
Morelli M., Rønby L., Mikkelsen S.E., Minzari M.G., Kildemoes T., Tommerup H.M. Energy retrofitting of a typical old Danish multi- family building to a „nearly - zero” energy building based on experiences from a test apartment, Energy and Buildings, Vol. 54, 2012, pp. 395-406 ;
Fraunhofer IBP, WUFI ® 2D, Software for calculating the coupled heat and moisture transfer in building components, http://www.wufi.de/index_e.html;
Erhan E. Clima și microclimatele din zona orașului Iași, Editura Junimea, Iași, 1979.
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