What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements

Understanding seismic damages to non-structural elements and their effects on functionality of facilities are important in developing general recommendations for earthquake risk management. This paper presents a review of non-structural damage caused by recent earthquakes in Mt. Etna in Italy, Lisbo...

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Published in:Annals of Geophysics
Main Authors: Ferreira, Monica, Meroni, Fabrizio, Azzaro, Raffaele, Musacchio, Gemma, Rupakhety, Rajesh, Bessason, Bjarni, Thorvaldsdottir, Solveig, Lopes, Mário, Oliveira, Carlos Sousa, Solarino, Stefano
Other Authors: Instituto Superior Técnico, CERIS, University of Lisbon, Lisbon, Portugal, Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia, Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia, Earthquake Engineering Research Centre, Faculty of Civil and Environmental Engineering, University of Iceland, Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione ONT, Roma, Italia
Format: Article in Journal/Newspaper
Language:English
Published: Istituto Nazionale di Geofisica e Vulcanologia (INGV) 2021
Subjects:
non-structural elements
most frequent damage
Mt Etna
1969 and 1998 earthquakes Portugal
2000 earthquake Iceland
05.08. Risk
Etna
Iceland
Online Access:http://hdl.handle.net/2122/14966
https://doi.org/10.4401/ag-8412
id ftingv:oai:www.earth-prints.org:2122/14966
record_format openpolar
institution Open Polar
collection Earth-Prints (Istituto Nazionale di Geofisica e Vulcanologia)
op_collection_id ftingv
language English
topic non-structural elements
most frequent damage
Mt Etna
1969 and 1998 earthquakes Portugal
2000 earthquake Iceland
05.08. Risk
spellingShingle non-structural elements
most frequent damage
Mt Etna
1969 and 1998 earthquakes Portugal
2000 earthquake Iceland
05.08. Risk
Ferreira, Monica
Meroni, Fabrizio
Azzaro, Raffaele
Musacchio, Gemma
Rupakhety, Rajesh
Bessason, Bjarni
Thorvaldsdottir, Solveig
Lopes, Mário
Oliveira, Carlos Sousa
Solarino, Stefano
What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
topic_facet non-structural elements
most frequent damage
Mt Etna
1969 and 1998 earthquakes Portugal
2000 earthquake Iceland
05.08. Risk
description Understanding seismic damages to non-structural elements and their effects on functionality of facilities are important in developing general recommendations for earthquake risk management. This paper presents a review of non-structural damage caused by recent earthquakes in Mt. Etna in Italy, Lisbon and Azores islands in Portugal and southern Lowland in Iceland. The study was performed as a part of the KnowRISK EU project. The objective of this review is to identify the most commonly damaged non-structural elements in these different areas. This is a basic requirement for preparing prevention strategies communication campaigns that are tailored to the local needs. This study shows that the most commonly damaged elements are partition walls, ceiling systems, non-structural vaults, chimneys, building contents and storage racks. Analyses proved that substantive efforts are needed worldwide to improve techniques for reducing damage to non-structural elements. The observations on frequency, severity, and consequences of damage of different non-structural elements are important for (i) making mitigation plans and priorities (ii) designing mitigation measures, and (iii) communicating the mitigation measures to different stakeholders. These activities aim to raise stakeholders’ awareness of potential risk and viable mitigation measures. KnowRISK is co-financed by European Commission’s Humanitarian Aid and Civil Protection Grant agreement ECHO/SUB/2015/718655/PREV28. It is a project that involved four different European research centers and universities under the coordination of the Instituto Superior Técnico (Portugal). The partners are the Istituto Nazionale di Geofisica e Vulcanologia (Italy), the Laboratório Nacional de Engenharia Civil (Portugal) and the Earthquake Engineering Research Centre (University of Iceland). We acknowledge Antonio Torrisi, Department of Civil Protection of Sicily (DPCR) – Unit of Seismic and Volcanic Risk S.03, for having provided data from AeDES forms. Rajesh Rupakhety acknowledges ...
author2 Instituto Superior Técnico, CERIS, University of Lisbon, Lisbon, Portugal
Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia
Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia
Earthquake Engineering Research Centre, Faculty of Civil and Environmental Engineering, University of Iceland
Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione ONT, Roma, Italia
format Article in Journal/Newspaper
author Ferreira, Monica
Meroni, Fabrizio
Azzaro, Raffaele
Musacchio, Gemma
Rupakhety, Rajesh
Bessason, Bjarni
Thorvaldsdottir, Solveig
Lopes, Mário
Oliveira, Carlos Sousa
Solarino, Stefano
author_facet Ferreira, Monica
Meroni, Fabrizio
Azzaro, Raffaele
Musacchio, Gemma
Rupakhety, Rajesh
Bessason, Bjarni
Thorvaldsdottir, Solveig
Lopes, Mário
Oliveira, Carlos Sousa
Solarino, Stefano
author_sort Ferreira, Monica
title What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
title_short What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
title_full What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
title_fullStr What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
title_full_unstemmed What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements
title_sort what scientific information on non-structural elements seismic risk people need to know? part 1: compiling an inventory on damage to non-structural elements
publisher Istituto Nazionale di Geofisica e Vulcanologia (INGV)
publishDate 2021
url http://hdl.handle.net/2122/14966
https://doi.org/10.4401/ag-8412
long_lat ENVELOPE(-19.191,-19.191,63.706,63.706)
geographic Etna
geographic_facet Etna
genre Iceland
genre_facet Iceland
op_relation Annals of Geophysics
3/64 (2021)
Azzaro R., S. D’Amico S., T. Tuvè, M. Cascone (2016). Etnean earthquakes, seismic risk from non-structural elements. KnowRISK Project, 35 pp., Catania. (in english and italian) Baggio C., Bernardini A., R. Colozza, L. Corazza, M. Della Bella, G. Di Pasquale, M. Dolce, A. Goretti, A. Martinelli, G. Orsini, F. Papa, G. Zuccaro (2002). Manuale per la compilazione della scheda di 1° livello di rilevamento danno, pronto intervento e agibilità per edifici ordinari nell’emergenza post-sismica (AeDES), Dipartimento della Protezione Civile, Roma, 111. Baggio C., A. Bernardini A., R. Colozza, L. Corazza., M. Della Bella, G. Di Pasquale, M. Dolce, A. Goretti, A. Martinelli, G. Orsini, F. Papa, G. Zuccaro (2007). Field Manual for post-earthquake damage and safety assessment and short term countermeasures (AeDES), Editors: Pinto A.V., Taucer F., European Commission - Joint Research Centre, Institute for the Protection and Security of the Citizen - Scientific and Technical Reports, 100. Bessason B., J.Ö. Bjarnason, A. Gudmundsson, J. Sólnes, S. Steedman (2012). Probabilistic Earthquake Damage Curves for Low-Rise Buildings Based on Field Data, Earthquake Spectra, 28, 4, 1353-1378. Bessason B., JÖ. Bjarnason, A. Guðmundsson, J. Sólnes, S. Steedman (2014). Analysis of damage data of low-rise building subjected to a shallow Mw6.3 earthquake, Soil Dyn. Earthq. Engin., 66, 89-101 Bessason B., J.Ö. Bjarnason (2016). Seismic vulnerability of low-rise residential buildings based on damage data from three earthquakes (Mw 6.5, 6.5 and 6.3), Engineering Structures, 111, 64-79. Bessason B, J.Ö. Bjarnason, R. Rupakhety (2020). Statistical modelling of seismic vulnerability of RC, timber and masonry buildings from complete empirical loss data, Engineering Structures, 209. Dolce M., E. Speranza, F. Giordano, B. Borzi, F. Bocchi, C. Conte, A. Di Meo, M. Faravelli, V. Pascale (2017a). La piattaforma web-GIS DA.D.O. per la consultazione e la comparazione del danno osservato in eventi sismici di rilevanza nazionale dal 1976, 37° convegno nazionale del GNGTS, Bologna, 19-21 novembre 2018. Dolce M., E. Speranza, F. Giordano, B. Borzi, F. Bocchi, C. Conte, A. Di Meo, M. Faravelli, V. Pascale (2017b). Da.D.O - Uno strumento per la consultazione e la comparazione del danno osservato relativo ai più significativi eventi sismici in Italia dal 1976, In: atti del XVII Convegno ANIDIS “L’ingegneria Sismica in Italia”. Pistoia, 17-21 Settembre 2017. Ferreira, M.A. (2008). Classificação dos danos no edificado com base na EMS-98. Sismo 1998 - Açores. Uma década depois, Edição C.S. Oliveira, Aníbal Costa, João C. Nunes, Governo dos Açores/SPRHI, S.A., 501-512. (in portuguese). Filiatrault A., J.T. Sullivan (2014). Performance-based seismic design of non-structural building components: The next frontier of earthquake engineering, J. Earth. Engin. Engin. Vibration. Special Issue on the State-of-the art and Future Challenges of Earthquake Engineering, 13, 1, 17–46, DOI:10.1007/s11803-014-0238-9. Grünthal G. (Ed.) (1998). European Macroseismic Scale 1998 (EMS-98). European Seismological Commission, sub commission on Engineering Seismology, Working Group Macroseismic Scales. Conseil del’Europe, Cahiers du Conseil de l’Europe, Cahiers du Centre Européen de Géodynamique et de Séismologie, 15, Luxembourg. Hemeroteca Digital. O Sismo de 1969 na imprensa portuguesa [Online], Available: http://hemerotecadigital.cm lisboa.pt/EFEMERIDES/Sismo1969/Sismo1969.htm [Consulted in April 2019], Hemeroteca Municipal de Lisboa. ITERATE – Improved Tools for Disaster Risk Mitigation in Algeria, ECHO/SUB/2016/740181/PREV23, http://www.iterate-eu.org/wp-content/uploads/2018/12/DE3-NonStructural-Elements.pdf. Neves, F., A. Costa, R. Vicente, C. S. Oliveira, H. Varum (2012). Seismic vulnerability assessment and characterisation of the buildings on Faial Island, Azores, Bull. Earthq. Engin., 10, 1, 27–44, DOI 10.1007/s10518-011-9276-0. Neves, F., C.S. Oliveira, A. Costa (2008). Base de dados relativa ao parque habitacional da ilha do Faial e Pico, danos sofridos no sismo de 1998 e processo da reconstrução. “Sismo 1998 - Açores. Uma década depois”, C. Sousa Oliveira, Aníbal Costa, João C. Nunes (eds.), ISBN 978-989-20-1223-0. (41) 515-520. O Século Ilustrado (1969). Retrieved from http://hemerotecadigital.cm-lisboa.pt/EFEMERIDES/Sismo1969/Sismo1969.htm Oliveira C.S. (1982). The role of historical seismicity in the evaluation of seismic risk of Lisbon, Proceedings 7th European Conference on Earthquake Engineering, Athens. Oliveira, C.S., M. A. Ferreira (2008). Impacto do sismo de 1998 no território dos Açores. Principais consequências e indicadores. Sismo 1998 - Açores. Uma década depois. Edição C. S. Oliveira, Aníbal Costa, João C. Nunes, Governo dos Açores/SPRHI, S.A., 717-726. Solarino, S., M.A. Ferreira, G. Musacchio, R. Rupakhety, H. O’Neill, S. Falsaperla, M. Vicente, M. Lopes, C.S. Oliveira (2021). What scientific information on non-structural elements seismic risk do people need to know? Part 2 - tools for risk communication, Ann. Geophys., 64, (this issue). Thorvaldsdóttir, S., B. Bessason (2018). Identification of the most vulnerable non-structural components in the pilot study area (Iceland case). KnowRISK project deliverable C2, available at https://knowriskproject.com/project reports/ Thorvaldsdóttir S, Bessason B, Rupakhety R (2021) Towards DRM for residential buildings, Ann. Geophys., 64, (this issue). Torrisi, A. (2018). Esiti di Agibilità e Danno nell’Emergenza Sismica (schede AeDES) in occasione dei terremoti etnei del 2002 e 2008, Regione Siciliana, Dipartimento della Protezione Civile, Servizio Rischio Sismico e Vulcanico S.03, Nicolosi (Italy). 50 anos do sismo de 28 de Fevereiro de 1969 online, c2019-2020. http://sismo1969.ipma.pt/ [accessed in January 2020]
2037-416X
http://hdl.handle.net/2122/14966
doi:10.4401/ag-8412
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container_title Annals of Geophysics
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spelling ftingv:oai:www.earth-prints.org:2122/14966 2023-05-15T16:47:45+02:00 What scientific information on non-structural elements seismic risk people need to know? Part 1: Compiling an inventory on damage to non-structural elements Ferreira, Monica Meroni, Fabrizio Azzaro, Raffaele Musacchio, Gemma Rupakhety, Rajesh Bessason, Bjarni Thorvaldsdottir, Solveig Lopes, Mário Oliveira, Carlos Sousa Solarino, Stefano Instituto Superior Técnico, CERIS, University of Lisbon, Lisbon, Portugal Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione OE, Catania, Italia Earthquake Engineering Research Centre, Faculty of Civil and Environmental Engineering, University of Iceland Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione ONT, Roma, Italia 2021-07-23 http://hdl.handle.net/2122/14966 https://doi.org/10.4401/ag-8412 en eng Istituto Nazionale di Geofisica e Vulcanologia (INGV) Annals of Geophysics 3/64 (2021) Azzaro R., S. D’Amico S., T. Tuvè, M. Cascone (2016). Etnean earthquakes, seismic risk from non-structural elements. KnowRISK Project, 35 pp., Catania. (in english and italian) Baggio C., Bernardini A., R. Colozza, L. Corazza, M. Della Bella, G. Di Pasquale, M. Dolce, A. Goretti, A. Martinelli, G. Orsini, F. Papa, G. Zuccaro (2002). Manuale per la compilazione della scheda di 1° livello di rilevamento danno, pronto intervento e agibilità per edifici ordinari nell’emergenza post-sismica (AeDES), Dipartimento della Protezione Civile, Roma, 111. Baggio C., A. Bernardini A., R. Colozza, L. Corazza., M. Della Bella, G. Di Pasquale, M. Dolce, A. Goretti, A. Martinelli, G. Orsini, F. Papa, G. Zuccaro (2007). Field Manual for post-earthquake damage and safety assessment and short term countermeasures (AeDES), Editors: Pinto A.V., Taucer F., European Commission - Joint Research Centre, Institute for the Protection and Security of the Citizen - Scientific and Technical Reports, 100. Bessason B., J.Ö. Bjarnason, A. Gudmundsson, J. Sólnes, S. Steedman (2012). Probabilistic Earthquake Damage Curves for Low-Rise Buildings Based on Field Data, Earthquake Spectra, 28, 4, 1353-1378. Bessason B., JÖ. Bjarnason, A. Guðmundsson, J. Sólnes, S. Steedman (2014). Analysis of damage data of low-rise building subjected to a shallow Mw6.3 earthquake, Soil Dyn. Earthq. Engin., 66, 89-101 Bessason B., J.Ö. Bjarnason (2016). Seismic vulnerability of low-rise residential buildings based on damage data from three earthquakes (Mw 6.5, 6.5 and 6.3), Engineering Structures, 111, 64-79. Bessason B, J.Ö. Bjarnason, R. Rupakhety (2020). Statistical modelling of seismic vulnerability of RC, timber and masonry buildings from complete empirical loss data, Engineering Structures, 209. Dolce M., E. Speranza, F. Giordano, B. Borzi, F. Bocchi, C. Conte, A. Di Meo, M. Faravelli, V. Pascale (2017a). La piattaforma web-GIS DA.D.O. per la consultazione e la comparazione del danno osservato in eventi sismici di rilevanza nazionale dal 1976, 37° convegno nazionale del GNGTS, Bologna, 19-21 novembre 2018. Dolce M., E. Speranza, F. Giordano, B. Borzi, F. Bocchi, C. Conte, A. Di Meo, M. Faravelli, V. Pascale (2017b). Da.D.O - Uno strumento per la consultazione e la comparazione del danno osservato relativo ai più significativi eventi sismici in Italia dal 1976, In: atti del XVII Convegno ANIDIS “L’ingegneria Sismica in Italia”. Pistoia, 17-21 Settembre 2017. Ferreira, M.A. (2008). Classificação dos danos no edificado com base na EMS-98. Sismo 1998 - Açores. Uma década depois, Edição C.S. Oliveira, Aníbal Costa, João C. Nunes, Governo dos Açores/SPRHI, S.A., 501-512. (in portuguese). Filiatrault A., J.T. Sullivan (2014). Performance-based seismic design of non-structural building components: The next frontier of earthquake engineering, J. Earth. Engin. Engin. Vibration. Special Issue on the State-of-the art and Future Challenges of Earthquake Engineering, 13, 1, 17–46, DOI:10.1007/s11803-014-0238-9. Grünthal G. (Ed.) (1998). European Macroseismic Scale 1998 (EMS-98). European Seismological Commission, sub commission on Engineering Seismology, Working Group Macroseismic Scales. Conseil del’Europe, Cahiers du Conseil de l’Europe, Cahiers du Centre Européen de Géodynamique et de Séismologie, 15, Luxembourg. Hemeroteca Digital. O Sismo de 1969 na imprensa portuguesa [Online], Available: http://hemerotecadigital.cm lisboa.pt/EFEMERIDES/Sismo1969/Sismo1969.htm [Consulted in April 2019], Hemeroteca Municipal de Lisboa. ITERATE – Improved Tools for Disaster Risk Mitigation in Algeria, ECHO/SUB/2016/740181/PREV23, http://www.iterate-eu.org/wp-content/uploads/2018/12/DE3-NonStructural-Elements.pdf. Neves, F., A. Costa, R. Vicente, C. S. Oliveira, H. Varum (2012). Seismic vulnerability assessment and characterisation of the buildings on Faial Island, Azores, Bull. Earthq. Engin., 10, 1, 27–44, DOI 10.1007/s10518-011-9276-0. Neves, F., C.S. Oliveira, A. Costa (2008). Base de dados relativa ao parque habitacional da ilha do Faial e Pico, danos sofridos no sismo de 1998 e processo da reconstrução. “Sismo 1998 - Açores. Uma década depois”, C. Sousa Oliveira, Aníbal Costa, João C. Nunes (eds.), ISBN 978-989-20-1223-0. (41) 515-520. O Século Ilustrado (1969). Retrieved from http://hemerotecadigital.cm-lisboa.pt/EFEMERIDES/Sismo1969/Sismo1969.htm Oliveira C.S. (1982). The role of historical seismicity in the evaluation of seismic risk of Lisbon, Proceedings 7th European Conference on Earthquake Engineering, Athens. Oliveira, C.S., M. A. Ferreira (2008). Impacto do sismo de 1998 no território dos Açores. Principais consequências e indicadores. Sismo 1998 - Açores. Uma década depois. Edição C. S. Oliveira, Aníbal Costa, João C. Nunes, Governo dos Açores/SPRHI, S.A., 717-726. Solarino, S., M.A. Ferreira, G. Musacchio, R. Rupakhety, H. O’Neill, S. Falsaperla, M. Vicente, M. Lopes, C.S. Oliveira (2021). What scientific information on non-structural elements seismic risk do people need to know? Part 2 - tools for risk communication, Ann. Geophys., 64, (this issue). Thorvaldsdóttir, S., B. Bessason (2018). Identification of the most vulnerable non-structural components in the pilot study area (Iceland case). KnowRISK project deliverable C2, available at https://knowriskproject.com/project reports/ Thorvaldsdóttir S, Bessason B, Rupakhety R (2021) Towards DRM for residential buildings, Ann. Geophys., 64, (this issue). Torrisi, A. (2018). Esiti di Agibilità e Danno nell’Emergenza Sismica (schede AeDES) in occasione dei terremoti etnei del 2002 e 2008, Regione Siciliana, Dipartimento della Protezione Civile, Servizio Rischio Sismico e Vulcanico S.03, Nicolosi (Italy). 50 anos do sismo de 28 de Fevereiro de 1969 online, c2019-2020. http://sismo1969.ipma.pt/ [accessed in January 2020] 2037-416X http://hdl.handle.net/2122/14966 doi:10.4401/ag-8412 open non-structural elements most frequent damage Mt Etna 1969 and 1998 earthquakes Portugal 2000 earthquake Iceland 05.08. Risk article 2021 ftingv https://doi.org/10.4401/ag-8412 https://doi.org/10.1007/s11803-014-0238-9 2022-07-29T06:08:35Z Understanding seismic damages to non-structural elements and their effects on functionality of facilities are important in developing general recommendations for earthquake risk management. This paper presents a review of non-structural damage caused by recent earthquakes in Mt. Etna in Italy, Lisbon and Azores islands in Portugal and southern Lowland in Iceland. The study was performed as a part of the KnowRISK EU project. The objective of this review is to identify the most commonly damaged non-structural elements in these different areas. This is a basic requirement for preparing prevention strategies communication campaigns that are tailored to the local needs. This study shows that the most commonly damaged elements are partition walls, ceiling systems, non-structural vaults, chimneys, building contents and storage racks. Analyses proved that substantive efforts are needed worldwide to improve techniques for reducing damage to non-structural elements. The observations on frequency, severity, and consequences of damage of different non-structural elements are important for (i) making mitigation plans and priorities (ii) designing mitigation measures, and (iii) communicating the mitigation measures to different stakeholders. These activities aim to raise stakeholders’ awareness of potential risk and viable mitigation measures. KnowRISK is co-financed by European Commission’s Humanitarian Aid and Civil Protection Grant agreement ECHO/SUB/2015/718655/PREV28. It is a project that involved four different European research centers and universities under the coordination of the Instituto Superior Técnico (Portugal). The partners are the Istituto Nazionale di Geofisica e Vulcanologia (Italy), the Laboratório Nacional de Engenharia Civil (Portugal) and the Earthquake Engineering Research Centre (University of Iceland). We acknowledge Antonio Torrisi, Department of Civil Protection of Sicily (DPCR) – Unit of Seismic and Volcanic Risk S.03, for having provided data from AeDES forms. Rajesh Rupakhety acknowledges ... Article in Journal/Newspaper Iceland Earth-Prints (Istituto Nazionale di Geofisica e Vulcanologia) Etna ENVELOPE(-19.191,-19.191,63.706,63.706) Annals of Geophysics 63 Vol 63 (2020)

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