Holistic Performance-Based Fire Design of Steel Structures—Case Study: Sports Hall

This paper presents the performance-based fire safety analysis of steel structures of padel-center built in Nokia, Finland. The analyses are conducted using advanced calculation models (fire simulations using Fire Dynamics Simulator, FDS, and finite element method, FEM, based analyses of the steel f...

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Veröffentlicht in:	Fire technology 2024-07, Vol.60 (4), p.2785-2814
Hauptverfasser:	Jokinen, Timo, Ranua, Risto, Salminen, Mikko
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Sprache:	eng
Schlagworte:	Characterization and Evaluation of Materials Civil Engineering Classical Mechanics Design Dynamic structural analysis Engineering Finite element method Fire load Fire prevention Fire protection Fire safety Flammability Furniture High temperature Mathematical models Physics Scissor lifts Sporting goods Steel construction Steel frames Steel structures Trusses
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creator	Jokinen, Timo Ranua, Risto Salminen, Mikko
description	This paper presents the performance-based fire safety analysis of steel structures of padel-center built in Nokia, Finland. The analyses are conducted using advanced calculation models (fire simulations using Fire Dynamics Simulator, FDS, and finite element method, FEM, based analyses of the steel frames in elevated temperatures using SAFIR software, including joint analysis) in support with less sophisticated models (critical temperatures of steel members). The following localized fire scenarios are studied: lounge area furniture fire (4 sofas), sporting equipment fire (10 sporting bags filled with flammable clothing), fire during maintenance (scissor lift fire with miscellaneous temporary fire load) and a fire on HVAC balcony near the trusses. The aim of the paper is showcase recent developments in design processes and methods that are in practical use today in performance-based fire design (PBD), to demonstrate that relatively extensive performance-based studies can be (commercially) viable also in relatively small and mundane steel buildings, and to present a fairly robust framework for PBD of similar steel structures. As a result of the performance-based design, most of the steel structures in the case building could be constructed without fire protection, but some critical structures were identified and protected to class R30. The proposed design was approved by the local municipal authorities. Graphical Abstract
doi_str_mv	10.1007/s10694-023-01519-z
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subjects	Characterization and Evaluation of Materials Civil Engineering Classical Mechanics Design Dynamic structural analysis Engineering Finite element method Fire load Fire prevention Fire protection Fire safety Flammability Furniture High temperature Mathematical models Physics Scissor lifts Sporting goods Steel construction Steel frames Steel structures Trusses
title	Holistic Performance-Based Fire Design of Steel Structures—Case Study: Sports Hall
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