Improvement of Façades' Sound Insulation of Schools near the Bergamo - Orio al Serio International Airport: Case Study

In recent years the acoustic qualification of buildings has gained more and more importance at international level. Building renovation is one of the most common ways to improve the acoustic quality of the existing buildings; in particular, schools buildings are the ones that need more attention. In this context, the sound insulation requirements, especially for buildings near airport zones, play a role of primary importance. This paper analyses the data of a campaign of inspections and on-site measurements of façade sound insulation, concerning five public school buildings, close to the international airport of Bergamo - Orio al Serio. The analysis consisted in checking the sound insulation of buildings, after selecting classrooms with common characteristics, based on an accurate preliminary investigation involving more than 395 different characteristics of frames and glass windows. After having determined the D2m,nT,w, the most appropriate technological solutions for a refurbishment project were determined. Finally, the improved façade sound insulation was verified. The refurbishment project took place in 15 classrooms, characterised by a pre-treatment D2m,nT,w lower than 38 dB. Experimental post-treatment results showed that all classrooms satisfied the required basic performance of D2m,nT,w, and 13 of them fulfilled the high performance requirement of 43 dB, established in the Italian acoustic classification.

[1]  Catherine Lavandier,et al.  Sound quality indicators for urban places in Paris cross-validated by Milan data. , 2015, The Journal of the Acoustical Society of America.

[2]  Cinzia Buratti,et al.  Thermal comfort in the Fraschini theatre (Pavia, Italy): Correlation between data from questionnaires, measurements, and mathematical model , 2015 .

[3]  Giovanni Zambon,et al.  Uncertainty of façade sound insulation in buildings by a Round Robin Test , 2015 .

[4]  Birgit Rasmussen Sound classification of dwellings: Quality class ranges and intervals in national schemes in Europe , 2012 .

[5]  Samantha Windflower Assessment and management of environmental noise , 2014 .

[6]  Staffan Hygge,et al.  The Munich airport noise study : Cognitive effects on children from before to after the change over of airports , 1996 .

[7]  Giovanni Zambon,et al.  Uncertainty of facade sound insulation measurements obtained by a round robin test: The influence of the low frequencies extension , 2015 .

[8]  Cinzia Buratti,et al.  Façade noise abatement prediction: New spectrum adaptation terms measured in field in different road and railway traffic conditions , 2014 .

[9]  Daniel Stokols,et al.  Aircraft Noise and Children: Longitudinal and Cross-Sectional Evidence on Adaptation to Noise and the Effectiveness of Noise Abatement , 1981 .

[10]  Simone Secchi,et al.  Urban noise and required facade acoustic insulation of buildings: the case of some agglomerations in Italy , 2015 .

[11]  Paola Ricciardi,et al.  A field study on thermal comfort in naturally-ventilated buildings located in the equatorial climatic region of Cameroon , 2014 .

[12]  Paola Ricciardi,et al.  Innovative panels with recycled materials: Thermal and acoustic performance and Life Cycle Assessment , 2014 .

[13]  F. J. Langdon,et al.  The effects of aircraft noise in schools around London airport , 1974 .

[14]  Ragnar Rylander,et al.  ANNOYANCE BY AIRCRAFT NOISE AROUND SMALL AIRPORTS , 1997 .

[15]  A Saarinen Reduction of external noise by building facades: tolerance of standard EN 12354-3 , 2002 .

[16]  Birgit Rasmussen,et al.  Sound insulation between dwellings – Requirements in building regulations in Europe , 2010 .

[17]  Chiara Scrosati,et al.  Managing Measurement Uncertainty in Building Acoustics , 2015 .