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Earthquake risk scenarios of the Ciutat Vella District in Valencia, Spain

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Guardiola Villora, AP.; Basset-Salom, L. (2020). Earthquake risk scenarios of the Ciutat Vella District in Valencia, Spain. Bulletin of Earthquake Engineering. 18(4):1245-1284. https://doi.org/10.1007/s10518-019-00745-7

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/157308

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Title: Earthquake risk scenarios of the Ciutat Vella District in Valencia, Spain
Author: Guardiola Villora, Arianna Paola Basset-Salom, Luisa
UPV Unit: Universitat Politècnica de València. Departamento de Mecánica de los Medios Continuos y Teoría de Estructuras - Departament de Mecànica dels Medis Continus i Teoria d'Estructures
Issued date:
Abstract:
[EN] According to the United Nations Office for Disaster Risk Reduction cities must take measures to anticipate disasters and mitigate their impact, protecting homes and cultural heritage, minimizing losses due to ...[+]
Subjects: Vulnerability Index Method , Damage assessment , Seismic risk scenarios , Loss estimation , Urban areas , Ciutat Vella
Copyrigths: Reserva de todos los derechos
Source:
Bulletin of Earthquake Engineering. (issn: 1570-761X )
DOI: 10.1007/s10518-019-00745-7
Publisher:
Springer-Verlag
Publisher version: https://doi.org/10.1007/s10518-019-00745-7
Thanks:
The Authors wish to acknowledge the students Ana Perez Recatala, Beatriz Alborch Vidal and Blanca Salavert Pamblanco for their help in the building information retrieval under a collaboration grant program funded by the ...[+]
Type: Artículo

References

Athmani AE, Gouasmia A, Ferreira TM, Vicente R, Khemis A (2015) Seismic vulnerability assessment of historical masonry buildings located in Annaba city (Algeria) using non ad-hoc data survey. Bull Earthq Eng 13:2283–2307. https://doi.org/10.1007/s10518-014-9717-7

Ayuntamiento de Valencia (2017) Censo de población y viviendas. Oficina de Estadística http://www.valencia.es/ayuntamiento/estadistica.nsf/ . Accessed 12 Sept 2018

Ayuntamiento de Valencia (2018) Plan Especial de protección de Ciutat Vella (PEP Ciutat Vella). http://www.valencia.es/ayuntamiento/urbanismo2.nsf/ . Accessed 5 Dec 2018 [+]
Athmani AE, Gouasmia A, Ferreira TM, Vicente R, Khemis A (2015) Seismic vulnerability assessment of historical masonry buildings located in Annaba city (Algeria) using non ad-hoc data survey. Bull Earthq Eng 13:2283–2307. https://doi.org/10.1007/s10518-014-9717-7

Ayuntamiento de Valencia (2017) Censo de población y viviendas. Oficina de Estadística http://www.valencia.es/ayuntamiento/estadistica.nsf/ . Accessed 12 Sept 2018

Ayuntamiento de Valencia (2018) Plan Especial de protección de Ciutat Vella (PEP Ciutat Vella). http://www.valencia.es/ayuntamiento/urbanismo2.nsf/ . Accessed 5 Dec 2018

Barbat AH, Yépez Moya F, Canas JA (1996) Damage scenarios simulation for seismic risk assessment in urban zones. Earthq Spectra 12(3):371–394

Barbat AH, Pujades LG, Lantada N (2008) Seismic damage evaluation in urban areas using a capacity-spectrum based method: application to Barcelona. Soil Dyn Earthq Eng 28(10–11):851–865

Barbat AH, Carreño ML, Pujades LG, Lantada N, Cardona OD, Marulanda MC (2010) Seismic vulnerability and risk evaluation methods for urban areas. A review with application to a pilot area. Struct Infrastruct Eng 6:17–38

Basset-Salom L, Guardiola-Víllora A (2013) Influence of the maintenance in seismic response of Lorca historic centre masonry residential buildings after 11 May earthquake. Studies, repairs and maintenance of heritage architecture XIII. WIT Trans Built Environ 131:343–354

Basset-Salom L, Guardiola-Víllora A (2014) Seismic performance of masonry residential buildings in Lorca’s city centre, after the 11th May 2011 earthquake. Bull Earthq Eng 12:2027–2048. https://doi.org/10.1007/s10518-013-9559-8

Benedetti D, Petrini V (1984) Sulla Vulnerabilità di Edifici in Muratura: Proposta di un Metodo di Valutazione. L’industria delle Costruzioni 149(1):66–74

Benedetti D, Benzoni G, Parisi MA (1988) Seismic vulnerability and risk evaluation for old urban nuclei. Earthq Eng Struct Dyn 16:183–201. https://doi.org/10.1002/eqe.4290160203

Bernardini A, Gori R, Modena C (1990) An application of coupled analytical models and experiential knowledge for seismic vulnerability analyses of masonry buildings. In: Koridze A (ed) engineering aspects of earthquake phenomena, vol 3. Omega Scientific, Oxon, pp 161–180

Blanca Giménez V, Castilla CabanesN, Cortés López JM, Martínez Antón A, Pastor Villa R (2010) Introducción al estudio de gestión de residuos de la construcción y demolición y estimación de cantidades generadas en obra. Universitat Politécnica de Valencia. http://hdl.handle.net/10251/7558

Calvi GM, Pinho R, Magenes G, Bommer JJ, Restrepo-Vélez LF, Crowley H (2006) Development of seismic vulnerability assessment methodologies over the past 30 years. ISET J Earthq Technol 43(3):75–104

Catastro. Base de datos del catastro. https://www1.sedecatastro.gob.es . Accessed 15 Sept 2017–27 Dec 2018

Chever L (2012) Use of seismic assessment methods for planning vulnerability reduction of existing building stock. In: 15th world conference on earthquake engineering, Lisbon, Portugal, September 24–28, 2012. http://www.mediterranee.cerema.fr/IMG/pdf/2012_seismic_vulnerability_assessment.pdf

Coburn A, Spence R (2002) Earthquake protection, 2nd edn. Wiley, Chichester. ISBN 0-470-84923-1

D’Ayala D (2013) Assessing the seismic vulnerability of masonry buildings. In: Tesfamariam S, Goda K (eds) Handbook of seismic risk analysis and management of civil infrastructure systems. Woodhead Publishing, Sawston, pp 334–365. https://doi.org/10.1533/9780857098986.3.334

D’Ayala D, Speranza E (2002) An integrated procedure for the assessment of seismic vulnerability of historic buildings. In: Proceedings of the 12th European conference on earthquake engineering, London, U.K., paper no. 561

D’Ayala D, Speranza E (2003) Definition of collapse mechanisms and seismic vulnerability of historic masonry buildings. Earthq Spectra 19(3):479–509

DOGV (2011) Plan Especial frente al Riesgo Sísmico en la Comunitat Valenciana. Decreto 44/2011 de 29 de abril. Diario Oficial de la Generalitat Valenciana nº 6512, 03/05/2011: 16979–17330

Dolce M, Masi A, Marino M, Vona M (2003) Earthquake damage scenarios of the building stock of Potenza (Southern Italy) including site effects. Bull Earthq Eng 1(1):115–140

FEMA–NIBS, Federal Emergency Management Agency, National Institute of Building Sciences (2000) HAZUS-1999 earthquake loss estimation methodology technical manual, Washington, D.C., USA

FEMA–NIBS, Federal Emergency Management Agency, National Institute of Building Sciences (2003) HAZUS-MH MR3 technical manual multi-hazard loss estimation methodology. Earthquake model. Washington, D.C., USA

Feriche M (2012) Elaboración de escenarios de daños sísmicos en la ciudad de Granada. Ph.D. tesis. Instituto andaluz de Geofísica y prevención de Desastres sísmicos. Universidad de Granada. http://digibug.ugr.es/handle/10481/29803#.WZy_LbZLe70

Feriche M, Vidal F, García R, Navarro M, Vidal MD, Montilla P, Piñero L (2009). Earthquake damage scenarios in Vélez-Málaga urban area (Southern Spain) applicable to local emergency planning. In: 8th international workshop on seismic microzoning and risk reduction, Almería, Spain, 15–18 March 2009

Feriche M, Vidal F, Alguacil G, Navarro M, Aranda C (2012) Vulnerabilidad y daño en el terremoto de Lorca de 2011, 7ª Asamblea Hispanoportuguesa de Geodesia y Geofísica, San Sebastián, España, 25-28 junio 2012

Ferreira TM, Maio R, Vicente R (2017) Seismic vulnerability assessment of the old city centre of Horta, Azores: calibration and application of a seismic vulnerability index method. Bull Earthq Eng 2017(15):2879–2899. https://doi.org/10.1007/s10518-016-0071-9

Franklin R, Caselles JO, Canas JA, Clapes J, Pujades LG, Navarro MK (2006) Estimación de la respuesta del sitio mediante el método del cociente espectral aplicado a ruido ambiental. Aplicación a la Ciutat Vella de Valencia, Revista Internacional de Métodos Numéricos para Cálculo y Diseño en Ingeniería 22(2):169–191, http://hdl.handle.net/2099/4746 . Accessed 5 Dec 2012

Giner JJ, Molina S, Jáuregui PJ (2003) Sismicidad en la Comunidad Valenciana, Física de la Tierra 15:163-187. http://revistas.ucm.es/index.php/FITE/article/view/12668 . Accessed 27 Apr 2018

Giovinazzi S (2005) The vulnerability assessment and the damage scenario in seismic risk analysis. Ph.D. Thesis, Technical University Carolo-Wilhelmina, Braunschweig, Germany and University of Florence, Italy

Giovinazzi S, Lagomarsino S (2002) WP04: guidelines for the implementation of the 1 level methodology for the vulnerability assessment of current buildings: RISK-UE project. University of Genoa (Italy)

Giovinazzi S, Lagomarsino S (2004) A macroseismic method for the vulnerability assessment of buildings. In: Proceedings of the 13th world conference on earthquake engineering, Vancouver, Canada, 1–6 August, 2004, paper no. 896

Grünthal G (1998) European macroseismic scale 1998. In: Cahiers du Centre Européen de Géodynamique et de Séismologie, 15, Luxembourg

Guardiola-Víllora A, Basset-Salom L (2015) Escenarios de riesgo sísmico del distrito del Eixample de la ciudad de Valencia. Revista Internacional de Métodos Numéricos para el Cálculo y Diseño en Ingeniería 31(2):81–90. https://doi.org/10.1016/j.rimni.2014.01.002

Guardiola-Víllora A, Basset-Salom L, Pérez-García A (2018) Creating a residential building database: sources, contents and reliability. In: Reactive proactive architecture. Ed. Universitat Politècnica de València, chapter 7–14:458-463. ISBN 978-84-9048-713-6

Guéguen Ph, Michel C, LeCorre L (2007) A simplified approach for vulnerability assessment in moderate-to-low seismic hazard regions: application to Grenoble (France). Bull Earthq Eng 5:467–490. https://doi.org/10.1007/s10518-007-9036-3

gvSIG association (2009) gvSIG desktop, the open source geographic information system. http://www.gvsig.com/en/home . Accessed 26 Mar 2017

Irizarry J, Lantada N, Pujades LG, Barbat AH, Goula X, Susagna T, Roca A (2011) Ground-shaking scenarios and urban risk evaluation of Barcelona using the Risk-UE capacity spectrum based method. Bull Earthq Eng 9(2):441–466. https://doi.org/10.1007/s10518-010-9222-6

Irizarry J, Macau A, Figueras S, Goula X, Lantada N, Vendrell S, Pujades LG, Blázquez A (2012) Seismic risk assessment for the city of Girona, Spain. In: 15th world conference on earthquake engineering, Lisbon, Portugal, September 24–28, 2012

IVE, Instituto Valenciano de la Edificación (2018) Coste unitario de ejecución de edificación residencial. http://www.five.es/productos/herramientas-on-line/modulo-de-edificacion/ . Accessed Oct 2018

Kappos AJ, Stylianidis KC, Pitilakis K (1998) Development of seismic risk scenarios based on an hybrid method of vulnerability assessment. Nat Hazards 17(2):177–192

Kappos AJ, Panagopoulos G, Panagiotopoulos C, Penelis G (2006) A hybrid method for the vulnerability assessment of R/C and URM buildings. Bull Earthq Eng 4:391–413. https://doi.org/10.1007/s10518-006-9023-0

Lagomarsino S, Giovinazzi S (2006) Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings. Bull Earthq Eng 4(4):415–443. https://doi.org/10.1007/s10518-006-9024-z

Lamego P, Lourenço PB, Sousa ML, Rui Marques R (2017) Seismic vulnerability and risk analysis of the old building stock at urban scale: application to a neighbourhood in Lisbon. Bull Earthq Eng 15:2901–2937. https://doi.org/10.1007/s10518-016-0072-8

Lantada N (2007) Evaluación del riesgo sísmico mediante métodos avanzados y técnicas GIS. Aplicación a la ciudad de Barcelona. PhD Thesis. U.P. Cataluña, Barcelona. http://hdl.handle.net/10803/6259 . Accessed Jan 2013

Lantada N, Irizarry J, Barbat A, Goula X, Roca A, Susagna T, Pujades LG (2010) Seismic hazard and risk scenarios for Barcelona, Spain, using the Risk-UE vulnerability index method. Bull Earthq Eng 8(2):201–229. https://doi.org/10.1007/s10518-009-9148-z

Lantada N, Pujades LG, Barbat AH (2018) Earthquake risk scenarios in urban areas: a review with applications to the Ciutat Vella District in Barcelona, Spain. Int J Arch Herit 12(7–8):1112–1130. https://doi.org/10.1080/15583058.2018.1503367

Llopis A, Perdigón L, Taberner F (2004) Cartografía Histórica de la ciudad de Valencia, volumen 1, (1608–1929). Facsimil editions Digitals

Maio R, Ferreira TM, Vicente R, Estêvão J (2016) Seismic vulnerability assessment of historical urban centres: case study of the old city centre of Faro, Portugal. J Risk Res 19(5):551–580. https://doi.org/10.1080/13669877.2014.988285

Martínez-Cuevas S, Gaspar-Escribano JM (2016) Reassessment of intensity estimates from vulnerability and damage distributions: the 2011 Lorca earthquake. Bull Earthq Eng 14:2679–2703

Martínez-Cuevas S, Benito MB, Cervera J, Morillo MC, Luna M (2017) Urban modifiers of seismic vulnerability aimed at Urban Zoning Regulations. Bull Earthq Eng 15:4719–4750. https://doi.org/10.1007/s10518-017-0162-2

Mileto C, Vegas F (2005) Centro histórico de Valencia. Ocho siglos de arquitectura residencial. ISBN: 978-84-943475-5-9. Ed. General de ediciones de Arquitectura, S.L.

Milutinovic ZV, Trendafiloski GS (2003) WP04. Vulnerability of current buildings. RISK-UE project: an advanced approach to earthquake risk scenarios with applications to different European towns. Institute of Earthquake Engineering and Engineering Seismology (IZIIS), Skopje

Mouroux P, Bertrand E, Bour M, Le Brun B, Depinois S, Masure P (2004) The European RISK-UE project: an advanced approach to earthquake risk scenarios. In: Proceeding of the 13th world conference on earthquake engineering (13 WCEE), Vancouver, BC, Canada, 1–6 August, paper 3329

Müge ün E (2011) An integrated seismic loss estimation methodology: a case study in north-western Turkey. PhD Thesis. School of Natural and Applied Sciences, Middle East Technical University, Turkey

MV-101 (1962) Norma M.V.101-1962 Acciones en la edificación. Ministerio de la Vivienda. Decreto 195/1963 de 17 de enero. BOE 35, 9/02/1963:2207–2225

MV-103 (1972) Norma Básica M.V.103-1972. Cálculo de las estructuras de acero laminado en edificación. Ministerio de la Vivienda. Decreto 1353/1973, de 12 de abril. BOE 154, 28/06/1973:13126–13169

MV-201 (1972) Norma M.V.201-1972 Muros resistentes de fábrica de ladrillo. Ministerio de la Vivienda. Decreto 1324/1972, de 20 de abril. BOE 130, 31/05/1972:9594–9624

NCSE-02 (2002) Norma de Construcción Sismorresistente. Parte General y de Edificación. Comisión Permanente de Normas Sismorresistentes, Ministerio de Fomento. Real Decreto 997/2002 de 27 de septiembre. BOE 244, 11/10/2002:35898–35967

NCSE-94 (1994) Norma de Construcción Sismorresistente, Parte General y de Edificación. Comisión Permanente de Normas Sismorresistentes, Ministerio de Fomento. Real Decreto 2543/1994 de 29 de diciembre. BOE 33, 08/02/1995:3935–3980

Novelli VI (2017) Hybrid method for the seismic vulnerability assessment of historic masonry city centres. Ph.D. Thesis. University College London. http://discovery.ucl.ac.uk/1553222/1/Novelli_ID_PHD_thesis.pdf . Accessed 27 Apr 2018

Ortiz Herrada M (2002) El-centro-historico-de-valencia-un-modelo-de-intervencion-patrimonial. Actas del I Congreso del GEIIC. Conservación del Patrimonio: evolución y nuevas perspectivas. https://www.ge-iic.com/2006/06/30/actas-del-i-congreso-del-geiic-conservacion-del-patrimonio-evolucion-y-nuevas-perspectivas/ . Accessed 27 Apr 2018

PDS-1 (1974) Norma Sismorresistente PDS-1 (1974), parte A. Comisión Interministerial. Ministerio de Planificación del Desarrollo. Decreto 3209/1974 de 30 de agosto, BOE 279, 21/11/1974:23585–23601

PGS-1 (1968) Norma Sismorresistente PGS-1 (1968), parte A. Comisión Interministerial de la Presidencia del Gobierno. Decreto 106/1969 de 16 de enero. BOE 30, 04/02/1969:1658–1675

Reglamento sobre las restricciones del hierro en la edificación (1941) Gobierno de la Nación. Presidencia de Gobierno. Decreto de 22 de Julio de 1941.BOE 214, 02/08/1941:5848–5853

Roca A, Irizarry J, Lantada N, Barbat A, Goula X, Pujades LI, Susagna T (2006) Método Avanzado para la Evaluación de la Vulnerabilidad y el Riesgo Sísmico. Aplicación a la Ciudad de Barcelona. Física de la Tierra 18:183–203

Ródenas JL, Tomás A, García-Ayllón S (2018) Advances in seismic vulnerability assessment of reinforced concrete buildings applied to the experience of Lorca (Spain) 2011 earthquake. Int J Comput Methods Exp Meas 6(5):887–898. https://doi.org/10.2495/cmem-v6-n5-887-898

Ros A, Casar JI, Romero B, Gomez A, Soler P, Alcalde C, Pecourt J, Matamoros C, Esparza R (1999) 5 años de intervenciones en Ciutat Vella: 1992–1997. ISBN: 9788486828240. Ed. CTAV, Valencia. http://www.arquitectosdevalencia.es/publicaciones/ctav/5-anos-de-intervenciones-en-ciutat-vella-valencia-1992-1997

SEC (2018) Sede Electrónica del Catastro. Ministerio de Hacienda. Gobierno de España. https://www.sedecatastro.gob.es . Accessed 12 Sept 2018

Sousa ML, Campos Costa A (2016) Evolution of earthquake losses in Portuguese residential building stock. Bull Earthq Eng 14:2009–2029. https://doi.org/10.1007/s10518-015-9809-z

Spence RJS, So EKM (2011) Human casualties in earthquakes: modelling and mitigation. In: Proceedings of the 9th Pacific Conference on Earthquake Engineering Building an Earthquake-Resilient Society 14-16 April, Auckland, New Zealand

Tomás A, Ródenas JL, García-Ayllón S (2017) Proposal for new values of behaviour modifiers for seismic vulnerability evaluation of reinforced concrete buildings applied to Lorca (Spain) using damage data from the 2011 earthquake. Bull Earthq Eng 15:3943–3962. https://doi.org/10.1007/s10518-017-0100-3

Tyagunov S, Stempniewski L, Grünthal G, Wahlström R, Zschau J (2004) Vulnerability and risk assessment for earthquake prone cities. In: 13th world conference on earthquake engineering, Vancouver, B.C., Canada, August 1–6, 2004, paper no. 868

URSUA. Unidad de Registro Sísmico Universidad de Alicante (2010) Mapas de Intensidad sísmica esperada en la Comunidad Valenciana incluyendo efecto del sitio para 500 años y 1000 años. http://web.ua.es/ursua . Accessed 5 Oct 2017

Vacareanu R, Lungu D, Aldea A, Arion C (2004) WP07. Report seismic risk scenarios handbook, Risk-UE Project, Bucarest

Vicente R, Parodi S, Lagomarsino S, Varum H, Mendes Silva JAR (2011) Seismic vulnerability and risk assessment: case study of the historic city centre of Coimbra, Portugal. Bull Earthq Eng 9(4):1067–1096. https://doi.org/10.1007/s10518-010-9233-3

Whitman RV, Reed JW, Hong ST (1973) Earthquake damage probability matrices. In: Proceedings of the 5th world conference on earthquake engineering, Rome, Italy, vol 2, pp 2531–2540

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