On the thermal resilience of venetian open spaces
Journal article, 2021

Venice is known for its urban heritage fragility. The city is experiencing an increase in yearly average temperatures affecting outdoor–indoor comfort and average energy expenditure. Owing to existing literature demonstrating how local microclimate depends on urban density, form, and materials, this investigation studies the influence of the changing local climate on Venetian vernacular open spaces, known as Campi. Based on the comparison of contemporary weather and the Intergovernmental Panel on Climate Change’s (IPCC) future predictions for the 2050 scenario, this investigation highlights how Campi’s open spaces and the surrounding buildings, canals, and green public areas contribute to building climate resilience. By employing advanced modelling, the study analyses microclimate and outdoor comfort with respect to users’ perception of Physiological Equivalent Temperature (PET). The ENVI-met tool is used to simulate the thermal behaviour of two representative Campi: SS. Giovanni e Paolo and S. Polo. Despite significant temperature growths, Venetian urban fabric characteristics seem to play a crucial role in strengthening the climate resilience of open spaces, thus preserving outdoor comfort quality in a warmer future. The analysis shows how the historical matrix of open spaces and buildings cooperate. Thus, this study offers a contribution to how built heritage should be considered in light of climate change.

Urban form

Venice

Climate change

Outdoor comfort

Climate resilience

Author

Barbara Gherri

University of Parma

Daniela Maiullari

Delft University of Technology

Chalmers, Architecture and Civil Engineering, Architectural theory and methods

Chiara Finizza

University of Parma

Marco Maretto

University of Parma

Emanuele Naboni

The Royal Danish Academy of Fine Arts, School of Architecture

University of Parma

Heritage

25719408 (eISSN)

Vol. 4 4 4286-4303

Subject Categories

Architectural Engineering

Architecture

Building Technologies

DOI

10.3390/heritage4040236

More information

Latest update

12/2/2021