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An inventory of buildings in the city of Tunis and an assessment of their vulnerability

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Abstract

Tunis is a densely populated city. Its building stock was constructed without any seismic design code and mostly over soft soils. These facts make a seismic risk assessment of the city necessary. To prepare a large-scale vulnerability assessment of the buildings of Tunis, the following methodology was employed: (1) a collection of data based on a rapid visual screening procedure was gathered using an inventory form. These data were composed of files and information placed at the disposal of the authors by the municipality of Tunis. The data also contained information gathered by surveys carried out by engineering departments and information gathered from building owners. (2) A classification of building typologies was carried out considering construction material, structural system, age, height, function and state of maintenance. A measure of seismic vulnerability was assigned to each typology considering the first two parameters. (3) A large-scale vulnerability assessment using two methods was conducted for buildings for which few data were available. Vulnerability methods inspired by the EMS98 concepts and the Italian GNDT concepts were modified and applied to pilot-scale buildings located in the downtown zone (Habib Bourguiba Avenue) and in the old zone (Medina). The data analysis, through the application of the two methods, suggests that the vulnerability of buildings surveyed in Tunis is significant and risk mitigation efforts are necessary.

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References

  • Ambraseys NN (1962) The seismicity of Tunis. Ann Geophys 15(2–3):233–244

    Google Scholar 

  • Anibi S, Romdhane NB (2007) Contribution à l’estimation du risque de liquéfaction du sous sol de Tunis. Colloque international “Sols et matériaux à problèmes”, Hammamet, Tunisie, Février 2007, pp 163–172

  • BAEL 91 révisées 99 (1992) Règle techniques de conception et de calcul des ouvrages et constructions suivant la méthode des états-limites. Editions Eyrolles

  • Balbi A, Giovinazzi S, Lagomarsino S (2004) A vulnerability method for historical centre buildings. In: Proceedings of the 11th Italian conference on earthquake engineering, Genoa, Italy

  • Benedetti D, Petrini V (1984) On seismic vulnerability of masonry buildings: proposal of an evaluation procedure. L’Industria delle Costruzioni 18:66–78

    Google Scholar 

  • Boukri M, Bensaïbi M (2007) Indice de vulnérabilité des bâtiments en maçonnerie de la ville d’Alger. Actes du congrès AFPS, France

  • CCBA 68 révisées 70 (1975) Règle techniques de conception et de calcul des ouvrages et constructions en béton armé. Editions Eyrolles

  • CEN (1993) Eurocode 3: Calcul des structures en acier. Comité européen de normalisation (CEN), Brussels

  • Cherubini A, Di Pasquale G, Dolce M, Martinelli A (1999) Vulnerability assessment from quick survey data in the historic centre of Catania. In: Faccioli F, Pessina V (eds) The Catania project: earthquake damage scenarios for high risk area in the Mediterranean. CNR-Gruppo Nazionale per la Difesa dai Terremoti, Roma, pp 213–225

  • CM66 et additif 80 (1998) Règles de calcul des constructions en acier. Editions Eyrolles

  • EMS98 (2001) L’Echelle Macrosismique Européenne 1998. Conseil de l’Europe, Cahiers du Centre Européen de Géodynamique et de Séismologie, vol 19

  • FEMA154 (1988) Rapid visual screening of buildings for potential seismic hazards: a handbook. Federal Emergency Management Agency and applied technology council (ATC-21), Washington DC

  • Giovinazzi S, Lagomarsino S (2004) A macroseismic model for the vulnerability assessment of buildings. In: Proceedings of the 13th world conference on earthquake engineering, Vancouver, Canada, paper 896 (CD-Rom)

  • GNDT (1993) Rischio sismico di edifici pubblici—Parte I: aspetti metodologici. Centro Servizi Quasco, Bologna

  • GSHAP (1999) Global Seismic Hazard Assessment Program (map source: GSHAP Project http://seismo.ethz.ch/GSHAP/)

  • Guéguen P, Clotaire M, 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

    Article  Google Scholar 

  • HAZUS (1999) Earthquake loss estimation methodology–technical and user manuals. Federal Emergency Management Agency (FEMA), National Institute of Building Sciences, Washington, DC

  • Jimenez MJ, Garcia-Fernandez M (1999) Seismic hazard assessment in the Ibero-Maghreb region. Annali di Geofisica 42:1057–1065

    Google Scholar 

  • Jimenez et al (2001) Seismic hazard in the Mediterranean region Boll. Geof Teor Appl 42:3–18

    Google Scholar 

  • Kacem J (2004) Etude sismotectonique et évaluation de l’aléa sismique régional du nord-est de la Tunisie: Apport de la sismique réflexion dans l’identification des sources sismogéniques, PhD thesis, University of Sciences of Tunis, 167 pp

  • Lagomarsino S, Giovinazzi S (2006) Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings. Bull Earthq Eng 4:415–443

    Article  Google Scholar 

  • Milutinovic ZV, Trendafiloski GS (2003) WP4-Vulnerability of current buildings handbook, RISK-UE project, 110 pp

  • RISK-UE (2003) An advanced approach to earthquake risk scenarios with applications to different European towns, Projet Européen, EVK4-CT-2000-00014

  • Sebag P (1998) Histoire d’une ville, Harmattan, 685 pp

  • Vogt J (1993) Further research on the historical seismicity of Tunisia, Terra motae, pp 475–476

  • VULNERALP (2004) Projet d’évaluation de la vulnérabilité sismique à Grenoble. http://wwwlgit.obs.ujfgrenoble.fr/~pgueg/VULNERALP

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Acknowledgments

The authors are grateful to Dr. Helen Cowley for critical reading of the manuscript, Mrs Sameh Anibi and Dr. Essaieb Hamdi for their valuable remarks and anonymous referees who, through their evaluation, have improved the quality of the paper.

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Authors and Affiliations

  1. Department of Civil Engineering, National Engineering School of Tunis, University of Tunis El Manar, Tunisia

    Afef Khalfet Mansour & Najla Bouden Romdhane

  2. Department of Geology, Faculty of Sciences of Tunis, University of Tunis El Manar, Tunisia

    Noureddine Boukadi

Authors
  1. Afef Khalfet Mansour
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  2. Najla Bouden Romdhane
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  3. Noureddine Boukadi
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Correspondence to Afef Khalfet Mansour.

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Mansour, A.K., Romdhane, N.B. & Boukadi, N. An inventory of buildings in the city of Tunis and an assessment of their vulnerability. Bull Earthquake Eng 11, 1563–1583 (2013). https://doi.org/10.1007/s10518-013-9450-7

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  • DOI: https://doi.org/10.1007/s10518-013-9450-7

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