A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Yksikerroksisen Teollisuushallin Rakenteiden Palonkestaevyyden Vaikutus Paloturvallisuuteen. Riskiana-Lyysi Ajasta Riippuvaa Tapahtumapuumallia Kaeyttaen. (Influence of Fire Resistance of Structures on Fire Safety in a Single-Story Industrial Building. Risk Analysis using a Time-Dependent Event-Tree Model.)
A model for quantitative analysis of fire risks has been developed. The model has been applied to a single-storey industrial building to assess quantitatively the influence of the fire resistance of the structures of the building to the risks associated with casualties and property damage. The influence of other factors affecting the fire safety besides the fire resistance, such as alarm system, manual extinguishers and smoke exhaust system, has also been addressed. The developed method represents a novel approach to analysis of fire risks in which the temporal evolution of the fire has been taken into account explicitly in the descriptions of the events and processes taking place during the fire incident. The model combines the different unit processes of the fire to an overall description of the evolution of the fire incident.
Yksikerroksisen Teollisuushallin Rakenteiden Palonkestaevyyden Vaikutus Paloturvallisuuteen. Riskiana-Lyysi Ajasta Riippuvaa Tapahtumapuumallia Kaeyttaen. (Influence of Fire Resistance of Structures on Fire Safety in a Single-Story Industrial Building. Risk Analysis using a Time-Dependent Event-Tree Model.)
A model for quantitative analysis of fire risks has been developed. The model has been applied to a single-storey industrial building to assess quantitatively the influence of the fire resistance of the structures of the building to the risks associated with casualties and property damage. The influence of other factors affecting the fire safety besides the fire resistance, such as alarm system, manual extinguishers and smoke exhaust system, has also been addressed. The developed method represents a novel approach to analysis of fire risks in which the temporal evolution of the fire has been taken into account explicitly in the descriptions of the events and processes taking place during the fire incident. The model combines the different unit processes of the fire to an overall description of the evolution of the fire incident.
Yksikerroksisen Teollisuushallin Rakenteiden Palonkestaevyyden Vaikutus Paloturvallisuuteen. Riskiana-Lyysi Ajasta Riippuvaa Tapahtumapuumallia Kaeyttaen. (Influence of Fire Resistance of Structures on Fire Safety in a Single-Story Industrial Building. Risk Analysis using a Time-Dependent Event-Tree Model.)
J. Hietaniemi (author) / D. Baroudi (author) / T. Korhonen (author) / J. Bjorkman (author) / M. Kokkala (author)
2002
149 pages
Report
No indication
English
Construction Materials, Components, & Equipment , Architectural Design & Environmental Engineering , Fire resistance , Models , Quantitative analysis , Risks , Fire protection , Structures , Risk analysis , Statistics , Markov , Monte Carlo , Alarm systems , Industrial buildings , Commercial buildings , Foreign technology , Fault tree analysis , Smoke exhaust systems
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