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Integration of Piezoelectric Energy Harvesting Systems into Building Envelopes for Structural Health Monitoring with Fiber Optic Sensing Technology

Author

Listed:
  • Alessandro Pracucci

    (Focchi S.p.A., 47824 Poggio Torriana, Italy
    Levery s.r.l. Società Benefit, 47814 Bellaria Igea Marina, Italy)

  • Laura Vandi

    (Focchi S.p.A., 47824 Poggio Torriana, Italy)

  • Francesco Belletti

    (Focchi S.p.A., 47824 Poggio Torriana, Italy)

  • Amanda Ramos Aragão Melo

    (CeNTI—Centro De Nanotecnologia E Materiais Tecnicos, Funcionais E Inteligentes, 4760-034 Vila Nova de Famalicão, Portugal)

  • Marios Vlachos

    (ICCS—Institute of Communication and Computer Systems, 15773 Athens, Greece)

  • Angelos Amditis

    (ICCS—Institute of Communication and Computer Systems, 15773 Athens, Greece)

  • Maria Teresa Calcagni

    (Department of Industrial Engineering and Mathematical Sciences, Università Politecnica delle Marche, 60126 Ancona, Italy)

  • David Seixas Esteves

    (CeNTI—Centro De Nanotecnologia E Materiais Tecnicos, Funcionais E Inteligentes, 4760-034 Vila Nova de Famalicão, Portugal)

Abstract

This paper presents a study about the integration of Piezoelectric Energy Harvesting Systems (PE-EHSs) into building envelopes for powering Fiber Bragg Grating (FBG) sensors, enabling efficient and low-consumption monitoring with the objective of leveraging structural health monitoring (SHM). The research includes preliminary tests conducted in a real environment to validate the PE-EHS when fully integrated into a ventilated façade, capturing mechanical vibrations generated mainly by wind loads. Based on these activities, the final configuration of PE-EHSs is defined to provide a complete system for façade monitoring. This integrated system includes the piezoelectric generator (PEG), supercapacitor (SC), Power Conditioner Circuit (PCC), Fiber Optic Sensing (FOS) interrogator, and the IoT gateway transmitting measurement data within an Internet of Things (IoT) monitoring platform. This configuration is tailored to address the challenges related to the structural integrity of building envelopes. Results demonstrate a potential for a stand-alone solution in the façade sector but raise issues for certain limitations, requiring further investigation. In particular, the study emphasizes constraints related to the energy production of PE-EHSs for façade integration. It highlights the necessity to carefully consider these limitations within the broader context of their applicability, providing insights for the informed deployment of piezoelectric energy harvesting technology in building envelope monitoring.

Suggested Citation

  • Alessandro Pracucci & Laura Vandi & Francesco Belletti & Amanda Ramos Aragão Melo & Marios Vlachos & Angelos Amditis & Maria Teresa Calcagni & David Seixas Esteves, 2024. "Integration of Piezoelectric Energy Harvesting Systems into Building Envelopes for Structural Health Monitoring with Fiber Optic Sensing Technology," Energies, MDPI, vol. 17(7), pages 1-31, April.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:7:p:1789-:d:1372107
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    References listed on IDEAS

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    1. Wei Wei & Li Ye & Yi Fang & Yingchun Wang & Xi Chen & Zhenhua Li, 2023. "Optimal Allocation of Energy Storage Capacity in Microgrids Considering the Uncertainty of Renewable Energy Generation," Sustainability, MDPI, vol. 15(12), pages 1-17, June.
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