9791221502893_112.pdf

9791221502893_112.pdf

In the field of Fire Safety Engineering (FSE), virtual reality has increasingly assumed an important role, especially for the simulation of fire and escape. The present work aims at comparing the potential of virtual simulations of the escape of occupants in case of emergency to simulations based on...

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Γλώσσα:English
Έκδοση: Firenze University Press 2024
Διαθέσιμο Online:https://books.fupress.com/doi/capitoli/979-12-215-0289-3_112
id oapen-20.500.12657-89132
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spelling oapen-20.500.12657-891322024-04-03T02:23:57Z Chapter Fire Safety Engineering: The Computational Simulation of the Escape in a Historic Building in Bologna Tagliatti, Stefano Bragadin, Marco Alvise FSE Virtual reality Emergency Escape ASET/RSET thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization In the field of Fire Safety Engineering (FSE), virtual reality has increasingly assumed an important role, especially for the simulation of fire and escape. The present work aims at comparing the potential of virtual simulations of the escape of occupants in case of emergency to simulations based on traditional calculations. Above all, the goal is to highlight the greater adherence to reality of the simulations that use behavioural models compared to those that use hydraulic models. Simulations are performed for the case study of a listed historic tower in Bologna city centre and calculate the Required Safe Escape Time (RSET) in various evacuation scenarios using the innovative Pathfinder® software which, in addition to using flow-based models, is "agent-based", as it manages the variables related to behavioural factors and can model complex escape scenarios faster than hand-made calculation. Case study results show that RSET times calculated with the behavioural steering mode in the virtual environment are 15-19% higher than the hydraulic mode (SFPE) and therefore demonstrate that the Steering mode is more realistic, as human behaviour significantly influences the evacuation process. Anyway, all the realistic simulations return safety margin times above 100% of the RSET as asked by national law, highlighting that it is possible to guarantee the safety of the occupants in a particular historical building using innovative Fire Safety Engineering (FSE) approaches, even if the prescriptive rules are not respected 2024-04-02T15:47:29Z 2024-04-02T15:47:29Z 2023 chapter ONIX_20240402_9791221502893_101 2704-5846 9791221502893 https://library.oapen.org/handle/20.500.12657/89132 eng Proceedings e report application/pdf n/a 9791221502893_112.pdf https://books.fupress.com/doi/capitoli/979-12-215-0289-3_112 Firenze University Press 10.36253/979-12-215-0289-3.112 10.36253/979-12-215-0289-3.112 bf65d21a-78e5-4ba2-983a-dbfa90962870 9791221502893 137 12 Florence open access
institution OAPEN
collection DSpace
language English
description In the field of Fire Safety Engineering (FSE), virtual reality has increasingly assumed an important role, especially for the simulation of fire and escape. The present work aims at comparing the potential of virtual simulations of the escape of occupants in case of emergency to simulations based on traditional calculations. Above all, the goal is to highlight the greater adherence to reality of the simulations that use behavioural models compared to those that use hydraulic models. Simulations are performed for the case study of a listed historic tower in Bologna city centre and calculate the Required Safe Escape Time (RSET) in various evacuation scenarios using the innovative Pathfinder® software which, in addition to using flow-based models, is "agent-based", as it manages the variables related to behavioural factors and can model complex escape scenarios faster than hand-made calculation. Case study results show that RSET times calculated with the behavioural steering mode in the virtual environment are 15-19% higher than the hydraulic mode (SFPE) and therefore demonstrate that the Steering mode is more realistic, as human behaviour significantly influences the evacuation process. Anyway, all the realistic simulations return safety margin times above 100% of the RSET as asked by national law, highlighting that it is possible to guarantee the safety of the occupants in a particular historical building using innovative Fire Safety Engineering (FSE) approaches, even if the prescriptive rules are not respected
title 9791221502893_112.pdf
spellingShingle 9791221502893_112.pdf
title_short 9791221502893_112.pdf
title_full 9791221502893_112.pdf
title_fullStr 9791221502893_112.pdf
title_full_unstemmed 9791221502893_112.pdf
title_sort 9791221502893_112.pdf
publisher Firenze University Press
publishDate 2024
url https://books.fupress.com/doi/capitoli/979-12-215-0289-3_112
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