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Jämförande analys av säkerhetsnivå mellan förenklad och analytisk dimensionering enligt Boverkets byggregler 2012

Wibelius, Joel LU and Thuns, Sebastian LU (2012) In LUTVDG/TVBB VBR920 20121
Division of Fire Safety Engineering
Division of Risk Management and Societal Safety
Abstract
The aim of this master thesis is to use a risk analysis model to compare the resulting safety level in connection to evacuation of a certain type of building for two types of authority-approved design methods. The purpose of this is to identify if any diffrences in safety level between the two methods can be identified. This is of interest since the Swedish National Board of Housing, Building and Planning recently introduced more regulated guidelines for fire safety engineering methods, BBRAD. The results of the analysis indicates that BBRAD fulfills its purpose by in this case giving a safety level that is higher than the reference level given by pre-accepted solutions which is accepted by society. The results may also be of interest for... (More)
The aim of this master thesis is to use a risk analysis model to compare the resulting safety level in connection to evacuation of a certain type of building for two types of authority-approved design methods. The purpose of this is to identify if any diffrences in safety level between the two methods can be identified. This is of interest since the Swedish National Board of Housing, Building and Planning recently introduced more regulated guidelines for fire safety engineering methods, BBRAD. The results of the analysis indicates that BBRAD fulfills its purpose by in this case giving a safety level that is higher than the reference level given by pre-accepted solutions which is accepted by society. The results may also be of interest for other countries who are interested in introducing more regulated fire safety engineering methods. In the Nordic standardization cooperation, INSTA 950, there are such preconditions and thus the results of this report can serve as a source of inspiration in this context. (Less)
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author
Wibelius, Joel LU and Thuns, Sebastian LU
supervisor
organization
course
VBR920 20121
year
type
H2 - Master's Degree (Two Years)
subject
keywords
F/N-curves, FDS, event tree, risk, fire safety engineering methods, pre-accepted solutions, comparative analysis, safety level, BBRAD, BBR 19, Simulex, INSTA 950
publication/series
LUTVDG/TVBB
report number
5393
ISSN
1402-3504
language
Swedish
id
3734597
date added to LUP
2013-06-17 09:01:30
date last changed
2014-03-10 10:40:44
@misc{3734597,
  abstract     = {The aim of this master thesis is to use a risk analysis model to compare the resulting safety level in connection to evacuation of a certain type of building for two types of authority-approved design methods. The purpose of this is to identify if any diffrences in safety level between the two methods can be identified. This is of interest since the Swedish National Board of Housing, Building and Planning recently introduced more regulated guidelines for fire safety engineering methods, BBRAD. The results of the analysis indicates that BBRAD fulfills its purpose by in this case giving a safety level that is higher than the reference level given by pre-accepted solutions which is accepted by society. The results may also be of interest for other countries who are interested in introducing more regulated fire safety engineering methods. In the Nordic standardization cooperation, INSTA 950, there are such preconditions and thus the results of this report can serve as a source of inspiration in this context.},
  author       = {Wibelius, Joel and Thuns, Sebastian},
  issn         = {1402-3504},
  keyword      = {F/N-curves,FDS,event tree,risk,fire safety engineering methods,pre-accepted solutions,comparative analysis,safety level,BBRAD,BBR 19,Simulex,INSTA 950},
  language     = {swe},
  note         = {Student Paper},
  series       = {LUTVDG/TVBB},
  title        = {Jämförande analys av säkerhetsnivå mellan förenklad och analytisk dimensionering enligt Boverkets byggregler 2012},
  year         = {2012},
}