Ausgabe 4/2019
Special Issue: Probabilistic Methods in Fire Safety Engineering
Inhalt (11 Artikel)
Guest Editorial: Probabilistic Methods in Fire Safety Engineering
Ruben Van Coile, Danny Hopkin, David Lange
The Need for Hierarchies of Acceptance Criteria for Probabilistic Risk Assessments in Fire Engineering
Ruben Van Coile, Danny Hopkin, David Lange, Grunde Jomaas, Luke Bisby
Severity Measures and Stripe Analysis for Probabilistic Structural Fire Engineering
Mayank Shrivastava, Anthony K. Abu, Rajesh P. Dhakal, Peter J. Moss
Fire Fragility Functions for Steel Frame Buildings: Sensitivity Analysis and Reliability Framework
Thomas Gernay, Negar Elhami Khorasani, Maria Garlock
Development of an Integrated Risk Assessment Method to Quantify the Life Safety Risk in Buildings in Case of Fire
Bart Van Weyenberge, Xavier Deckers, Robby Caspeele, Bart Merci
A Critical Evaluation of BS PD 7974-7 Structural Fire Response Data Based on USA Fire Statistics
M. Manes, D. Rush
A Probabilistic Methodology for Assessing Post-Earthquake Fire Ignition Vulnerability in Residential Buildings
Pegah Farshadmanesh, Jamshid Mohammadi
A Monte Carlo-Based Probabilistic Barrier Failure Model for Arbitrary Fire Environment
Xiao Li, Xia Zhang, George Hadjisophocleous
Probabilistic Analysis of Building Fire Severity Based on Fire Load Density Models
Qinghai Xie, Jianzhuang Xiao, Paolo Gardoni, Kexu Hu
Probabilistic Study of the Resistance of a Simply-Supported Reinforced Concrete Slab According to Eurocode Parametric Fire
Mohammad Heidari, Fabienne Robert, David Lange, Guillermo Rein
Probabilistic Risk Assessment of Life Safety for a Six-Storey Commercial Building with an Open Stair Interconnecting Four Storeys: A Case Study
Prakash Sabapathy, Aidan Depetro, Khalid Moinuddin