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EVALUATION OF CONVENTIONAL SLOVAK HOUSE AND ITS GREEN ALTERNATIVE

Estokova1, Adriana, Culakova, Monika, Porhincak, Milan

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bf6/s26.010View metrics

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Publication details

Title
EVALUATION OF CONVENTIONAL SLOVAK HOUSE AND ITS GREEN ALTERNATIVE
Authors
Estokova1, Adriana, Culakova, Monika, Porhincak, Milan
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2013
Pages
419 - 426 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References26
  1. Khasreen M. M. , Banfill P. F. G. , Menzies G. F. Life-Cycle Assessment and the environmental impact of buildings: A review. Sustainability, vol. 1, pp 674-701, 2009.

  2. Balaras C. A., Droutsa K., Dascalaki E., Kontoyiannidi S.. Heating energy consumption and resulting environmental impact of European apartment buildings. Energy and Buildings, vol. 37, pp 429-442, 2005.

  3. Dutil Y., Rousse D., Quesada G. Sustainable buildings, An ever evolving target, Sustainability, vol. 3, pp 443–464, 2011.

  4. Desruelles G., (ed.) EeB PPP Project Review, Energy Efficient Building European Initiative (E2B EI), 2011.

  5. Airaksinen M., Matilainen P. Carbon efficient building solutions, Sustainability, vol. 3, pp 844–858, 2010.

  6. Nässén J., Holmberge J., Wadeskog A., Nyman M . Direct and indirect energy use and carbon emissions in the production phase of buildings: An input -output analysis. Energy , vol. 32, pp 1593-1602, 2007.

  7. Monteiro H., Freire F. Life-cycle assessment of a house with alternative exterior walls: Comparison of three impact assessment methods. Energy and Buildings, vol. 47 , pp 572–583 , 2012.

  8. Monahan J., Powell J. C. An embodied carbon and energy analysis of modern methods of construction in housing: a case study using a lifecycle assessment framework. Energy and Buildings, vol. 43, 2011, pp 179-188.

  9. Hacker J., De Saulles T. P., Minson A. J., Holmes M. J. Embodied and operational carbon dioxide emissions from housing: a case study on the effects of thermal mass and climate change. Energy and Buildings, vol. 40, 2008, pp 375-384.

  10. Sartori I., Hestness A. G. Energy use in the life cycle of conventional and lowenergy buildings: a review article. Energy and Buildings, vol. 40, pp 249-257, 2007.

  11. B. Rossi, A. F. Marique, M. Glaumann, S. Reiter. Life -cycle assessment of residential buildings in three different European locations, basic tool. Building and Environment vol. 51, pp 395-401, 2012.

  12. Waltjen T. IBO Passivhaus - Bauteilkatalog, Ökologisch bewertete Konstruktionen, Österreichisches Institut für Baubiologie und Bauökologie, Wien, Austria, 2009.

  13. Wihnan J. Humidity in straw bale walls and its effect. University of East London. Thesis, pp 1-271, 2007.

  14. Khasreen M. M. , Banfill P. F. G. , Menzies G. F. Life-Cycle Assessment and the environmental impact of buildings: A review. Sustainability, vol. 1, pp 674-701, 2009.

  15. Balaras C. A., Droutsa K., Dascalaki E., Kontoyiannidi S.. Heating energy consumption and resulting environmental impact of European apartment buildings. Energy and Buildings, vol. 37, pp 429-442, 2005.

  16. Dutil Y., Rousse D., Quesada G. Sustainable buildings, An ever evolving target, Sustainability, vol. 3, pp 443–464, 2011.

  17. Desruelles G., (ed.) EeB PPP Project Review, Energy Efficient Building European Initiative (E2B EI), 2011.

  18. Airaksinen M., Matilainen P. Carbon efficient building solutions, Sustainability, vol. 3, pp 844–858, 2010.

  19. Nässén J., Holmberge J., Wadeskog A., Nyman M . Direct and indirect energy use and carbon emissions in the production phase of buildings: An input -output analysis. Energy , vol. 32, pp 1593-1602, 2007.

  20. Monteiro H., Freire F. Life-cycle assessment of a house with alternative exterior walls: Comparison of three impact assessment methods. Energy and Buildings, vol. 47 , pp 572–583 , 2012.

  21. Monahan J., Powell J. C. An embodied carbon and energy analysis of modern methods of construction in housing: a case study using a lifecycle assessment framework. Energy and Buildings, vol. 43, 2011, pp 179-188.

  22. Hacker J., De Saulles T. P., Minson A. J., Holmes M. J. Embodied and operational carbon dioxide emissions from housing: a case study on the effects of thermal mass and climate change. Energy and Buildings, vol. 40, 2008, pp 375-384.

  23. Sartori I., Hestness A. G. Energy use in the life cycle of conventional and lowenergy buildings: a review article. Energy and Buildings, vol. 40, pp 249-257, 2007.

  24. B. Rossi, A. F. Marique, M. Glaumann, S. Reiter. Life -cycle assessment of residential buildings in three different European locations, basic tool. Building and Environment vol. 51, pp 395-401, 2012.

  25. Waltjen T. IBO Passivhaus - Bauteilkatalog, Ökologisch bewertete Konstruktionen, Österreichisches Institut für Baubiologie und Bauökologie, Wien, Austria, 2009.

  26. Wihnan J. Humidity in straw bale walls and its effect. University of East London. Thesis, pp 1-271, 2007.

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