Bioclimatic architecture of residential buildings

Titolo Rivista RIVISTA DI STUDI SULLA SOSTENIBILITA'
Autori/Curatori Calogera Chiara Bordenca, Laura Giammanco, Alessandro Albanese, Mirko Lo Faso, Domenico Rigoglioso
Anno di pubblicazione 2020 Fascicolo 2019/2 Suppl.
Lingua Inglese Numero pagine 16 P. 179-194 Dimensione file 505 KB
DOI 10.3280/RISS2019-002-S1012
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The environmental impacts deriving from pollution due to the high use of cooling and heating systems in buildings have made it necessary to study alternative methods of designing or upgrading existing buildings. In this work the concepts of bioclimatic architecture are discussed and possible technological solutions for energy saving in the construction sector are presented. The solutions proposed concern orientation, the shape of the building and the internal volumetric arrangement. Attention is paid to internal comfort and the problem of convective motions related to the cooling of homes. Other solutions referring to the use of bioclimatic diagrams to determine the maximum and minimum temperatures to be considered for bioclimatic design are also proposed.

Keywords:Bioclimatic architecture, energy saving, termic comfort, environmental sustainability, sustainable design, energy efficiency.

  1. Abdeen M. O. (2008). Energy, environment and sustainable development. Renewable and Sustainable Energy Reviews, 12: 2265-2300.
  2. Blagden C. (2009), Experiments and observations in a heated room. Philosophical Transactions of the Royal Society, 1775: 111-2365, 1775: 111-23.
  3. Givoni B. (1969). Man, Climate and Architecture. London: Applied Science Pubblisher.
  4. Heidari S. (2000). Thermal comfort in Iranian courtyard housing. PhD Thesis, The University of Sheffield.
  5. Kingma B. (2012). Human thermoregulation- a synergy between physiology and mathematical modelling. Maastricht: Maastricht University.
  6. Nicol J.F. (1993). Thermal comfort – a handbook for field studies toward an adaptive model. London: University of East London.
  7. Manzano-Agugliaro F., Montoya F.G., Sabio-Ortega A. and García-Cruz A. (2015). Review of bioclimatic architecture strategies for achieving thermal comfort. Renewable and Sustainable Energy Reviews, 49. 736-755.
  8. Olgyay V. (1963). Design with Climate. New Jersey: Princeton University Press.
  9. Peron F., Cappelletti F. (2009). Le relazioni clima-comfort: strumenti per l’analisi bioclimatica. Università IUAV di Venezia.
  10. Psikuta A, Fiala D., Laschewski G., Jendritzky G., Richards M., Błażejczyk K., Mekjavič I., Rintamäki H., de Dear R. and Havenith G. (1993). Validation of the Fiala multi-node thermophysiological model for UTCI application. International Journal of Biometeorology, 56(3): 443-60.
  11. Stolwijk J.A.J. (1971). A mathematical model of physiological temperature regulation in man. Washington DC: National Aeronautics and Space Administration.
  12. Schellen L., Loomans M.G.L.C., Kingma B.R.M., de Wit M.H. and Frijns A.J.H. (2012). The use of a thermophysiological model in the built environment to predict thermal sensation: coupling with the indoor environment and thermal sensation. Building and Environment.
  13. Taleghani M., Tenpierik M., Kurvers S. and Van den Dobbelsteen A. (2013). A review into thermal comfort in buildings. Renewable and Sustainable Energy Reviews, 26: 201-215. Unione Euroepa, Direttiva 2009/29/CE.
  14. Vivoli F.P. and Zinzi M. (2008). Energia efficiente per l’edificio Normativa e tecnologie. Canelli (AT): Fabiano Group Srl.

Calogera Chiara Bordenca, Laura Giammanco, Alessandro Albanese, Mirko Lo Faso, Domenico Rigoglioso, Bioclimatic architecture of residential buildings in "RIVISTA DI STUDI SULLA SOSTENIBILITA'" 2 Suppl./2019, pp 179-194, DOI: 10.3280/RISS2019-002-S1012