Assessment of the dynamic thermal performance of massive buildings

•The work points out the dynamic thermal behavior of massive building.•Experimental measurements have been carried out to evaluate thermal inertia factor.•Assessment of cooling effect of nocturnal ventilation. The aim of this paper is the evaluation of the thermal behavior of a massive building unde...

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Published inEnergy and buildings Vol. 72; pp. 361 - 370
Main Authors Gagliano, A., Patania, F., Nocera, F., Signorello, C.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier B.V 01.04.2014
Elsevier
Subjects
Applied sciences
Assessments
Attenuation
Building technical equipments
Buildings
Buildings. Public works
Constraining
Dynamic tests
Dynamics
Energy management and energy conservation in building
Environmental engineering
Exact sciences and technology
External envelopes
Gain
Historical massive building
Inertia
Natural ventilation
Strength of materials (elasticity, plasticity, buckling, etc.)
Structural analysis. Stresses
Thermal inertia
Time lag
Ventilation
Wall. Partition
Sicily
Italy
Europe
Attenuation
Historical massive building
Natural ventilation
Thermal inertia
Time lag
Performance evaluation
Old building
Heat flow
Experimental study
Case study
Measurement in situ
External envelope
Building wall
Building stock
Thermal analysis
Mathematical model
Thermophysical properties
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Abstract •The work points out the dynamic thermal behavior of massive building.•Experimental measurements have been carried out to evaluate thermal inertia factor.•Assessment of cooling effect of nocturnal ventilation. The aim of this paper is the evaluation of the thermal behavior of a massive building under the synergic combination of natural ventilation and thermal inertia. In particular, an experimental study has been carried out on Villa San Saverio, which is a massive historical building located in Catania (Italy), in order to characterize its thermal performance under dynamic conditions, and to evaluate the potential decrease of the indoor overheating by exploiting natural ventilation and limiting both internal and solar gains. The analysis of the transient behavior of this building permits to highlight the possibility of diversifying the time lag in relation to the wall orientation. A time lag of 12.00–14.00h can be suggested for the walls due East. On the other hand, a time lag of around 8.00h can be suggested to achieve the same result for the walls due West. Time lags higher than the values suggested above could be not fully functional, since delaying further the heat transfer from the wall to its inner surface, reduces the useful time for exploiting the cooling effect of the nocturnal ventilation. The results of both measurements and simulations indicate that high thermal inertia mass combined with natural ventilation prevents phenomena of overheating and ensures good comfort levels in occupied buildings, reducing the needs of cooling systems during summer period.
AbstractList The aim of this paper is the evaluation of the thermal behavior of a massive building under the synergic combination of natural ventilation and thermal inertia. In particular, an experimental study has been carried out on Villa San Saverio, which is a massive historical building located in Catania (Italy), in order to characterize its thermal performance under dynamic conditions, and to evaluate the potential decrease of the indoor overheating by exploiting natural ventilation and limiting both internal and solar gains.
•The work points out the dynamic thermal behavior of massive building.•Experimental measurements have been carried out to evaluate thermal inertia factor.•Assessment of cooling effect of nocturnal ventilation. The aim of this paper is the evaluation of the thermal behavior of a massive building under the synergic combination of natural ventilation and thermal inertia. In particular, an experimental study has been carried out on Villa San Saverio, which is a massive historical building located in Catania (Italy), in order to characterize its thermal performance under dynamic conditions, and to evaluate the potential decrease of the indoor overheating by exploiting natural ventilation and limiting both internal and solar gains. The analysis of the transient behavior of this building permits to highlight the possibility of diversifying the time lag in relation to the wall orientation. A time lag of 12.00–14.00h can be suggested for the walls due East. On the other hand, a time lag of around 8.00h can be suggested to achieve the same result for the walls due West. Time lags higher than the values suggested above could be not fully functional, since delaying further the heat transfer from the wall to its inner surface, reduces the useful time for exploiting the cooling effect of the nocturnal ventilation. The results of both measurements and simulations indicate that high thermal inertia mass combined with natural ventilation prevents phenomena of overheating and ensures good comfort levels in occupied buildings, reducing the needs of cooling systems during summer period.
Author Signorello, C.
Patania, F.
Nocera, F.
Gagliano, A.
Author_xml – sequence: 1
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  surname: Gagliano
  fullname: Gagliano, A.
  email: agagliano@dii.unict.it
– sequence: 2
  givenname: F.
  surname: Patania
  fullname: Patania, F.
– sequence: 3
  givenname: F.
  surname: Nocera
  fullname: Nocera, F.
– sequence: 4
  givenname: C.
  surname: Signorello
  fullname: Signorello, C.
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Keywords Attenuation
Historical massive building
Natural ventilation
Thermal inertia
Time lag
Performance evaluation
Old building
Heat flow
Experimental study
Case study
Measurement in situ
External envelope
Building wall
Building stock
Thermal analysis
Mathematical model
Thermophysical properties
Language English
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Snippet •The work points out the dynamic thermal behavior of massive building.•Experimental measurements have been carried out to evaluate thermal inertia...
The aim of this paper is the evaluation of the thermal behavior of a massive building under the synergic combination of natural ventilation and thermal...
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crossref
elsevier
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StartPage 361
SubjectTerms Applied sciences
Assessments
Attenuation
Building technical equipments
Buildings
Buildings. Public works
Constraining
Dynamic tests
Dynamics
Energy management and energy conservation in building
Environmental engineering
Exact sciences and technology
External envelopes
Gain
Historical massive building
Inertia
Natural ventilation
Strength of materials (elasticity, plasticity, buckling, etc.)
Structural analysis. Stresses
Thermal inertia
Time lag
Ventilation
Wall. Partition
Title Assessment of the dynamic thermal performance of massive buildings
URI https://dx.doi.org/10.1016/j.enbuild.2013.12.060
https://www.proquest.com/docview/1530983451
Volume 72
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