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A Life Cycle Framework for the Identification of Optimal Building Renovation Strategies Considering Economic and Environmental Impacts

Author

Listed:
  • Martina Caruso

    (Department of Civil Engineering and Architecture, University School for Advanced Studies (IUSS), 27100 Pavia, Italy)

  • Rui Pinho

    (Department of Civil Engineering and Architecture, University of Pavia, 27100 Pavia, Italy)

  • Federica Bianchi

    (European Centre for Training and Research in Earthquake Engineering (EUCENTRE), 27100 Pavia, Italy)

  • Francesco Cavalieri

    (European Centre for Training and Research in Earthquake Engineering (EUCENTRE), 27100 Pavia, Italy)

  • Maria Teresa Lemmo

    (TEAM Srl, 27100 Pavia, Italy)

Abstract

It is well-known that the existing building stock is responsible for non-renewable resource depletion, energy and material consumption, and greenhouse gas (GHG) emissions. Life cycle analysis (LCA) procedures have thus been developed, in recent years, to assess the environmental impact of construction and operational phases through the entire building life cycle. Furthermore, the economic, environmental, and social consequences of recent natural disasters have encouraged the additional integration of hazard-induced impacts into common LCA procedures for buildings. Buildings are however expected to provide the population with safe living and working conditions, even when hit by different types of hazards during their service life, such as earthquakes. Hence, next-generation LCA procedures should include not only hazard-induced impacts, but also the contribution of potential retrofitting strategies that may alter the structural and energy performances of buildings throughout their remaining service life. This study presents a life cycle framework that accounts for the contributions of initial construction, operational energy consumption, earthquake-induced damage repair activities, potential retrofitting interventions, and demolition (considering also its associated potential material recycling), in terms of both monetary costs and environmental impacts. The proposed methodology can be used to undertake cost-benefit analyses aimed at identifying building renovation strategies that lead to an optimal balance, considering both economic and environmental impacts, between reduction of seismic vulnerability and increase of energy efficiency of a building, depending on the climatic conditions and the seismic hazard at the site of interest.

Suggested Citation

  • Martina Caruso & Rui Pinho & Federica Bianchi & Francesco Cavalieri & Maria Teresa Lemmo, 2020. "A Life Cycle Framework for the Identification of Optimal Building Renovation Strategies Considering Economic and Environmental Impacts," Sustainability, MDPI, vol. 12(23), pages 1-19, December.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:23:p:10221-:d:458242
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    References listed on IDEAS

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    1. Gerardo Maria Mauro & Costantino Menna & Umberto Vitiello & Domenico Asprone & Fabrizio Ascione & Nicola Bianco & Andrea Prota & Giuseppe Peter Vanoli, 2017. "A Multi-Step Approach to Assess the Lifecycle Economic Impact of Seismic Risk on Optimal Energy Retrofit," Sustainability, MDPI, vol. 9(6), pages 1-21, June.
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    Cited by:

    1. Alberto Bezama & Jakob Hildebrandt & Daniela Thrän, 2021. "Integrating Regionalized Socioeconomic Considerations onto Life Cycle Assessment for Evaluating Bioeconomy Value Chains: A Case Study on Hybrid Wood–Concrete Ceiling Elements," Sustainability, MDPI, vol. 13(8), pages 1-17, April.
    2. Michele La Noce & Alessandro Lo Faro & Gaetano Sciuto, 2021. "Clay-Based Products Sustainable Development: Some Applications," Sustainability, MDPI, vol. 13(3), pages 1-26, January.

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