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FIR
E D
TU
BY
G
DTU
Performance
-Based Design
Fully-Developed Fires
FIR
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BY
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DTU
Purpose
“To save lives and property”
Society: That the building can be accepted
- Mainly Lives, but also
- Major Losses
- Cultural Heritage
- Prestige.
Client: Also Property and market share.
FIR
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BY
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DTU
Parametric fire
Philip Thomas and Kunio Kawagoe at
Mount Athos
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DTU
tot
A hO
A
Parametric fire Opening Factor
h’
h’’
h
ρ1
ρ0 > ρ1
V(x) x
FIR
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BY
G
DTU
tot
A hO
A
Parametric fire Opening Factor
h’
h’’
h
ρ1
ρ0 > ρ1
V(x) x
2
0 0 1
Bernoulli :
1(v(x)) g x ( )
2
FIR
E D
TU
BY
G
DTU
tot
A hO
A
Parametric fire Opening Factor
h’
h’’
h
ρ1
ρ0 > ρ1
V(x) x
2
0 0 1
Bernoulli :
1(v(x)) g x ( )
2
h ' h '0 1
M0 0
0
3/ 20 1
0
1 1Av e ra ge velo city : v v(x)dx 2g xdx
h h
1 22g (h ') C* h
h 3
fo r h ' p ropo rtion a l to h.
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Opening factor
Parametric fire
H
W L
h1
h2
w1 w2
i
tot
2
i
i i avei i
ave
tot
A 2(H L W L H W)
w hA h w h
A
A hO
A
FIR
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DTU
v h
v v
v
tot
h h
h h
tot
O O O
A hO
A
A 4hO , h
A
Opening factor
= Vertical distance from
centre of gravity for
vertical openings to the
inside surface of the
ceiling
Parametric fire
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2 ½
3
b c J / m s K
Desity kg / m
c Heat capacity J / kgK
Conductivity W / mK
Thermal inertia
(Danish: Berøringstallet)
Parametric fire
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10
3.5
d
2
2
3
d
345log (8 t 1)T 20 C
1 0.04(t / t )
(O / b)
(0.04 /1160)
t 7.80*10 q / O min
Fire course
= Time for end of
the heating phase
=1.0 for a standard
fire compartment
Parametric fire
FIR
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BY
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DTU
Parametric fire
Large Flat Compartments
Symmet
ry
Office
plan
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Parametric fire
Large Flat Compartments
11 10 9 8 7 6 5 4 3 2 1
h ρh
ρ0 Symmet
ry
Office
plan
22.8
m
5.60
m
2.75
m
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Parametric fire Influence of the cooling curve shape
º C
0 30 60 90 120 1500
200
400
600
800
1000
1200
1400
Td t( )
Th t( )
T2 t( )
T6 t( )
T10 t( )
t
O = 0.034 m½
q = 179 MJ/m2
b = 586.5
Ws½/m2K
min
11 10 9 8 7 6 5 4 3 2 1
FIR
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DTU
10
3.5
d
½ 2
d
3
2 ½
345log (8 t 1)T 20 C
1 0.04(t / t )
O 0.02m , q 100MJ / m , t 39min
1700kg / m , c 1000J / kgK, 0.80W / mK
b 1166J / m s K, 0.247
0 50 100 150 200 250 300 350 4000
200
400
600
800
0
T2 t q O( )
Tf t( )
TG t q O( )
0 360.
t
Hertz-
Pettersson
et.al. -
Wickström-
td q O( ) 78
Parametric fire course
FIR
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DTU
10
3.5
d
½ 2
d
3
2 ½
345log (8 t 1)T 20 C
1 0.04(t / t )
O 0.08m , q 150MJ / m , t 14.6min
1700kg / m , c 1000J / kgK, 0.80W / mK
b 1166J / m s K, 3.958
Parametric fire course
Tf t( ) linterp A0
A1
t
60
linterp A0
A1
td q O( )
60
943
0 50 100 150 200 250 300 350 4000
200
400
600
800
1000
0
T2 t q O( )
Tf t( )
TG t q O( )
0 360.
t
Hertz-
Pettersson
et.al. -
Wickström-
FIR
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Opening Factor
Fire course
Ope-
ning
factor
Tmax
in slab
with
30mm
cover
Reduction
of concrete
strength
150mm
section
Reduction
of column
strength
200x300
x4000mm
m½ ºC Hot Cold Hot Cold
200 MJ/m2 0,02 413 0.75 0.43 0.61 0.33
200 MJ/m2 0,04 378 0.81 0.53 0.63 0.38
200 MJ/m2 0,08 320 0.83 0.63 0.64 0.40
200 MJ/m2 0,12 280 0.84 0.67 0.65 0.44
300 MJ/m2 0,04 459 0.73 0.40 0.53 0.29
60 minutes St. Fire (0,04) 350 0.81 - 0.54 -
60 minutes St. Fire + cool (0,04) 464 0.70 0.37 0.52 0.28
120 minutes St. Fire (0,04) 528 0.56 - 0.33 -
120 minutes St. Fire + cool (0,04) 613 0.36 0.00 0.26 0.04
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Parametric fire
0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 0.2 0.22 0.24 0.26 0.28 0.30
50
100
x O 200( )
x O 100( )
x O 400( )
O
Maximum charring depth of structural pine wood for fire
loads of 400, 200 and 100 MJ/m2 as a function of the
opening factor
0.035 8 qx(O,q) (1.25 ) 0.0175
O 0.021 12 O
O
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Parametric fire
For a steel structure protected by an intumescent paint
of 0.086 m2ºC/W and exposed by a fire with a fire load
of 210 MJ/m2 that the temperature will be largest for
the opening factor 0.02 m½ for ratios of fire exposed
surface and volume up to 200 m-1
which means all HEB profiles
Heavy HEA profiles until HEA 160 and
Heavy IPE profiles until IPE 300
For more slender profiles the temperature will be
largest for larger opening factors.
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Opening Factor
for Industrial Housing with unknown customers
Slow fires are usually more severe for structures than fast
fires.
A small opening factor is therefore on the safe side to apply.
It is recommended to apply:
0.02 m½ For all categories
If the building is not known.
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DTU
Evacuation
Criteria of importance for risk assessment for evacuation:
Radiation, Visibility, Toxicology and Structural Stability.
FIR
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DTU
Kristian Hertz
Vejledning i dimensionering af
bygningskonstruktioner for
fuldt udviklet brand
www.ebst.dk
www.byg.dtu.dk
Dansk Byggeri,
Erhvervs og Byggestyrelsen,
COWI A/S,
Betonelement-Foreningen,
Rambøll A/S
MT Højgaard A/S,
Spæncom A/S
Københavns Kommune
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R120+EI60
Examples Information
t
T R
t
T EI
Integrity and insulation
T REI
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FIR
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Fire Resistance
Requirements:
- R 120 min if ≥ 12 m up or
-Parametric fire ?
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DTU O = 0.02 m½
q = 200 MJ/ m2
b = 600-300 Ws½/m2C
Parametric Fires in Modern Danish Buildings
Temperature-Time Curvess
Previously
O = 0.08 m½
q = 200 MJ/ m2
b = 1160 Ws½/m2C
min
Now:
Windows
3 x 4 mm 50 kg
Windows
2 mm 6 kg
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DTU
Temperature profile in depth
Strength Reduction of Prestressing Wires Temperature-Time Curvess min
cm
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Fire Resistance
Requirements:
- R 120 min if ≥ 12 m up or
-Parametric fire > R 120 min
Recommended