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Venanzi 

 CONTATTI:

Dipartimento di Ingegneria Civile ed Ambientale
Università degli Studi di Perugia
via G. Duranti, 93
06125, Perugia
Telefono +39 075 585 3908 | Fax +39 075 585 3897

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Ilaria VENANZI

Curriculum

Didattica

TEMI DI RICERCA:

  1. Analisi della risposta aerodinamica e aeroelastica di strutture flessibili soggette all'azione del vento
  2. Controllo strutturale (passivo, attivo e ibrido) delle vibrazioni di edifici soggetti a vento e/o sisma
  3. Progettazione ottimale di sistemi strutturali, anche tenendo conto delle incertezze
  4. Progettazione strutturale sulla base dell’analisi dei costi nel ciclo di vita utile (Life-Cycle Cost Analysis)
  5. Utilizzo di metodi di monitoraggio dinamico per la valutazione dell’integrità strutturale
  6. Valutazione sperimentale e numerica della resistenza al fuoco di strutture in cemento armato

WEB PROFILE:

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PRINCIPALI PUBBLICAZIONI:

  1. L. Ierimonti, I. Venanzi, L. Caracoglia, A.L. Materazzi, 2019. Cost-Based Design of Nonstructural Elements for Tall Buildings under Extreme Wind Environments. Journal of Aerospace Engineering (ASCE), ISSN: 08931321, 32(3),04019020.
  2. I. Venanzi, R. Castellani, L. Ierimonti, F. Ubertini, 2019. An Automated Procedure for Assessing Local Reliability Index and Life-Cycle Cost of Alternative Girder Bridge Design Solutions. Advances in Civil Engineering, ISSN: 16878086, Article ID 5152031.
  3. L. Ierimonti, I. Venanzi, L. Caracoglia, 2018. Life-cycle damage-based cost analysis of tall buildings equipped with tuned mass dampers. Journal of Wind Engineering and Industrial Aerodynamics, ISSN: 01676105, 176, 54-64.
  4. I. Venanzi, L. Ierimonti, A. L. Materazzi, 2018. Active Base Isolation of Museum Artifacts under Seismic Excitation. Journal of Earthquake Engineering, ISSN: 13632469, (in press, published online 9 Aprile 2018).
  5. I. Venanzi, O. Lavan, L. Ierimonti, S. Fabrizi, 2018. Multi-hazard loss analysis of tall buildings under wind and seismic loads. Structure and Infrastructure Engineering, ISSN: 15732479, 4(10), pp. 1295-1311.
  6. L. Ierimonti, L. Caracoglia, I. Venanzi, A. L. Materazzi, 2017. Investigation on life-cycle damage cost of wind-excited tall buildings considering directionality effects. Journal of Wind Engineering and Industrial Aerodynamics, ISSN: 01676105, 171, 207-218.
  7. I. Venanzi, M.L. Fravolini, L. Ierimonti, 2017. Multi-model robust adaptive control of tall buildings, Meccanica, ISSN: 00256455, 52(13), 3237-3253.
  8. I. Venanzi, L. Ierimonti, F. Ubertini, 2017. Effects of control-structure interaction in active mass driver systems with electric torsional servomotor for seismic applications, Bulletin of Earthquake Engineering, ISSN: 1570761X, 15 (4), 1543-1557.
  9. I. Venanzi, 2016. A review on adaptive methods for structural control, Open Civil Engineering Journal, ISSN: 18741495, 10, 653-667.
  10. I. Venanzi, A.L. Materazzi, L. Ierimonti, 2015. Robust and reliable optimization of wind-excited cable-stayed masts, Journal of Wind Engineering and Industrial Aerodynamics, ISSN: 01676105, 147, 368-379.
  11. I. Venanzi, L. Ierimonti, F. Ubertini, 2015. An enhanced nonlinear damping approach accounting for system constraints in active mass dampers, Journal of Sound and Vibration, ISSN: 0022460X, 357, 2-15.
  12. F. Ubertini, I. Venanzi, G. Comanducci, 2015. Considerations on the implementation and modeling of an active mass driver with electric torsional servomotor, Mechanical Systems and Signal Processing, ISSN: 08883270, 58, 53-69.
  13. I. Venanzi, 2015. Robust optimal design of tuned mass dampers for tall buildings with uncertain parameters. Structural and Multidisciplinary Optimization, ISSN: 1615147X, 51(1), 239-250.
  14. I. Venanzi, D. Salciarini, C. Tamagnini, 2014. The effect of soil-foundation-structure interaction on the wind-induced response of tall buildings. Engineering Structures, ISSN: 01410296, 79, 117-130.
  15. I. Venanzi, M. Breccolotti, A. D’Alessandro, A.L. Materazzi, 2014. Fire performance assessment of HPLWC hollow core slabs through full-scale furnace testing, Fire Safety Journal, ISSN: 03797112, 69, 12-22.
  16. I. Venanzi, F. Ubertini, 2014. Free Vibration Response of a Frame Structural Model Controlled by a Nonlinear Active Mass Driver System, Advances in Civil Engineering; ISSN: 16878086, Article ID 745814.
  17. I. Venanzi, A.L. Materazzi, 2013. Robust optimization of a hybrid control system for wind-exposed tall buildings with uncertain mass distribution. Smart Structures and Systems, ISSN: 17381584, 12(6), 641-659.
  18. I. Venanzi, F. Ubertini, A.L. Materazzi, 2013. Optimal design of an array of active tuned mass dampers for wind-exposed high-rise buildings. Structural Control and Health Monitoring, ISSN: 15452255, 20(6), 903-917.
  19. I. Venanzi, A.L. Materazzi, 2012. Acrosswind aeroelastic response of square tall buildings: a semi-analytical approach based of wind tunnel tests on rigid models. Wind & Structures, An International Journal, ISSN: 12266116, 15(6), 495-508.
  20. M. Breccolotti, A.L. Materazzi, I. Venanzi, 2008. Identification of the nonlinear behaviour of a cracked RC beam through the statistical analysis of the dynamic response, Structural Control and Health Monitoring, ISSN: 15452255, 15, 416-435.
  21. A.L. Materazzi, I. Venanzi, 2007. A simplified approach for the wind response analysis of cable-stayed masts, Journal of Wind Engineering and Industrial Aerodynamics, ISSN: 01676105, 95(9-11), 1272-1288.
  22. I. Venanzi, A.L. Materazzi, 2007. Multi-objective optimization of wind-excited structures, Engineering Structures, ISSN: 01410296, 99(6), 983-990.
  23. M. Gioffrè, V. Gusella, A.L. Materazzi, I. Venanzi, 2004. Removable guyed mast for mobile phone networks: wind load modeling and structural response, Journal of Wind Engineering and Industrial Aerodynamics, ISSN: 01676105, 92(6), 463-475.

 

 

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