flixo Version 5: fully validated thermal bridge software flixo ... - Infomind
flixo Version 5: fully validated thermal bridge software flixo ... - Infomind
flixo Version 5: fully validated thermal bridge software flixo ... - Infomind
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<strong>flixo</strong> <strong>flixo</strong> <strong>Version</strong> 5: <strong>fully</strong> <strong>validated</strong> <strong>thermal</strong> <strong>bridge</strong> <strong>software</strong><br />
<strong>flixo</strong> <strong>Version</strong> 5 fulfills all validation samples of following European standards:<br />
§ EN ISO 10211: 2007 (Thermal <strong>bridge</strong>s in building construction – Heat flows and surface<br />
temperatures – detailed calculations)<br />
§ EN ISO 10077-2: 2003 (Thermal performance of windows, doors and shutters –<br />
Calculation of <strong>thermal</strong> transmittance – Part 2: Numerical method for frames)<br />
Until now, these are the two only standards containing validation samples for <strong>thermal</strong><br />
simulation <strong>software</strong> in the building area. Attached you find all calculations of the validation<br />
samples done by <strong>flixo</strong> <strong>Version</strong> 5 as well the summary of all results and the comparison with the<br />
standards.<br />
Until now there exists no further procedure or institute which certifies or labels European wide<br />
or world wide <strong>thermal</strong> <strong>bridge</strong> <strong>software</strong>. The certification is only done by fulfilling all criteria of<br />
the validation samples.<br />
As our <strong>software</strong> is fulfilling all mentioned validation samples, <strong>flixo</strong> <strong>Version</strong> 5 is a <strong>fully</strong>,<br />
concerning the standards <strong>validated</strong> <strong>thermal</strong> <strong>bridge</strong> simulation <strong>software</strong> and can be used<br />
accordingly.<br />
Zurich, 17.3.2009,<br />
Walter Schmidli<br />
CEO, <strong>Infomind</strong> GmbH
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name λ[W/(m·K)]<br />
Material1 1.000<br />
Material1A 1.000<br />
19.03.2009<br />
EN_ISO_10211-1_A1_EN.flx<br />
Name q[W/m 2<br />
] θ[ o<br />
0 Degree 0.000<br />
20 Degree 20.000<br />
Adiabatic 0.000<br />
C] h[W/(m 2<br />
·K)]
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Summary<br />
19.03.2009<br />
EN_ISO_10211-1_A1_EN.flx<br />
9.66 o<br />
C 13.38 o<br />
C 14.73 o<br />
C 15.09 o<br />
C<br />
5.25 o<br />
C 8.64 o<br />
C 10.32 o<br />
C 10.81 o<br />
C<br />
3.19 o<br />
C 5.61 o<br />
C 7.01 o<br />
C 7.47 o<br />
C<br />
2.01 o<br />
C 3.64 o<br />
C 4.66 o<br />
C 5.00 o<br />
C<br />
1.26 o<br />
C<br />
2.31 o<br />
C<br />
2.99 o<br />
C<br />
3.22 o<br />
C<br />
0.74 o<br />
C 1.36 o<br />
C 1.77 o<br />
C 1.91 o<br />
C<br />
0.34 o<br />
C 0.63 o<br />
C 0.82 o<br />
C 0.89 o<br />
C<br />
<strong>flixo</strong> fullfills the criterias for the first validation sample of EN ISO 10211: 2007<br />
- The max. difference between the calculated temperatures and the corresponding temperatures<br />
of the Standard is 0.05°C. Therefore all temperatures are in the given acceptance range of 0.1°C.
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
19.03.2009<br />
EN_ISO_10211-1_A1_EN.flx<br />
B<br />
Φ A-A = 1.691e-11 W/m<br />
Φ A-B = 95.005 W/m<br />
A
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name λ[W/(m·K)]<br />
Material 1 1.150<br />
Material 2 0.120<br />
Material 3 0.029<br />
Material 4 230.000<br />
23.03.2009<br />
EN_ISO_10211-1_A2_EN.flx<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
0/0.06 0.000 0.060<br />
20/0.11 20.000 0.110<br />
Adiabatic 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
7.09 o<br />
C<br />
7.91 o<br />
C<br />
16.43 o<br />
C<br />
16.79 o<br />
C<br />
A B<br />
Φ A-B = 9.451 W/m<br />
Summary<br />
6.28 o<br />
C<br />
16.36 o<br />
C<br />
16.36 o<br />
C<br />
<strong>flixo</strong> fullfills all criterias for the second validation sample of EN ISO 10211: 2007<br />
- The max. difference between the calculated temperatures and the corresponding temperatures<br />
of the Standard is 0.06°C. Therefore all temperatures are in the given acceptance range of 0.1°C.<br />
- The difference between the calculated heat flux and the given heat flux of the Standard is<br />
0.049 W/m. The heat flux is therefore in the given acceptance range of 0.1 W/m.<br />
23.03.2009<br />
EN_ISO_10211-1_A2_EN.flx<br />
0.76 o<br />
C<br />
0.83 o<br />
C<br />
18.34 o<br />
C
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
B<br />
Φ A-A = 5.2e-9 W/m Φ B-C = 9.451 W/m<br />
23.03.2009<br />
EN_ISO_10211-1_A2_EN.flx<br />
A<br />
C
EN ISO 10077-2:2003<br />
Samples<br />
Standard <strong>flixo</strong><br />
Name Standard min max Uf/Psi Name Q L bf Up/Ug Uf/Psi Rel. Conductance Diff.<br />
D.1 0.550 0.534 0.567 3.220 EN_IS0_10077-2_D1_EN 11.127 0.556 0.1100 1.0310 3.277 1.2%<br />
D.2 0.263 0.255 0.271 1.440 EN_IS0_10077-2_D2_EN 5.204 0.260 0.1100 0.5470 1.421 -1.1%<br />
D.3 0.424 0.411 0.437 2.070 EN_IS0_10077-2_D3_EN 8.273 0.414 0.1100 1.0310 1.980 -2.4%<br />
D.4 0.346 0.336 0.356 1.360 EN_IS0_10077-2_D4_EN 6.871 0.344 0.1100 1.0310 1.342 -0.7%<br />
D.5 0.408 0.396 0.420 2.080 EN_IS0_10077-2_D5_EN 7.952 0.398 0.0890 1.1690 1.972 -2.5%<br />
D.6 0.659 0.639 0.679 4.670 EN_IS0_10077-2_D6_EN 13.324 0.666 0.0950 1.1310 4.751 1.1%<br />
D.7 0.285 0.276 0.294 1.310 EN_IS0_10077-2_D7_EN 5.648 0.282 0.0480 1.1690 1.256 -0.9%<br />
D.8 0.181 0.176 0.186 1.030 EN_IS0_10077-2_D8_EN 3.568 0.178 0.1770 1.008 -1.4%<br />
D.9 0.207 0.201 0.213 3.640 EN_IS0_10077-2_D9_EN 4.118 0.206 0.0570 3.612 -0.5%<br />
D.10 0.481 0.467 0.495 0.084 EN_IS0_10077-2_D10_EN 9.600 0.480 0.1100 1.3053 0.084 -0.2%
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D1_EN.flx<br />
λ[W/(m·K)]<br />
Aluminium (Si alloys) 160.000<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
Panel 0.035<br />
Polyamid 6.6 with 25% glassfibre 0.300<br />
Slightly ventilated air cavity, Eps=0.9<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
11<br />
10<br />
8<br />
5<br />
3<br />
13<br />
19.03.2009<br />
EN_ISO_10077-2_D1_EN.flx<br />
2<br />
1<br />
16 17<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
19.03.2009<br />
EN_ISO_10077-2_D1_EN.flx<br />
110.00<br />
Φ A-B = -11.127 W/m<br />
U f F =<br />
Φ<br />
F<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U D-E = 1.031 W/(m 2<br />
·K)<br />
-11.127<br />
-20.000<br />
- 1.031·0.190<br />
0.110<br />
190.00<br />
D<br />
E<br />
= 3.28 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D2_EN.flx<br />
λ[W/(m·K)]<br />
Aluminium (Si alloys) 160.000<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
Panel 0.035<br />
Softwood (typical construction timber) 0.130<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
15<br />
17<br />
14<br />
15<br />
13<br />
12 12<br />
11<br />
10<br />
10<br />
7<br />
9<br />
8<br />
5<br />
3<br />
7<br />
1<br />
6<br />
5<br />
4<br />
3<br />
1<br />
16<br />
18<br />
18<br />
15<br />
17<br />
19.03.2009<br />
EN_ISO_10077-2_D2_EN.flx<br />
18<br />
18<br />
17<br />
18
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
19.03.2009<br />
EN_ISO_10077-2_D2_EN.flx<br />
110.00<br />
Φ A-B = -5.204 W/m<br />
U f F =<br />
Φ<br />
F<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U D-E = 0.547 W/(m 2<br />
·K)<br />
-5.204<br />
-20.000<br />
- 0.547·0.190<br />
0.110<br />
190.00<br />
D<br />
E<br />
= 1.42 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D3_EN.flx<br />
λ[W/(m·K)]<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
PVC (polyvinylchloride), rigid 0.170<br />
Panel 0.035<br />
Steel 50.000<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
12<br />
10<br />
9<br />
8<br />
7<br />
6<br />
5<br />
3<br />
2<br />
17<br />
15<br />
14<br />
17 16 15<br />
19.03.2009<br />
EN_ISO_10077-2_D3_EN.flx<br />
1<br />
1<br />
1516<br />
17<br />
1<br />
18<br />
18<br />
17<br />
16<br />
1<br />
1<br />
17<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
19.03.2009<br />
EN_ISO_10077-2_D3_EN.flx<br />
110.00<br />
Φ A-B = -8.273 W/m<br />
U f F =<br />
Φ<br />
F<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U D-E = 1.031 W/(m 2<br />
·K)<br />
-8.273<br />
-20.000<br />
- 1.031·0.190<br />
0.110<br />
190.00<br />
D<br />
E<br />
= 1.98 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D4_EN.flx<br />
λ[W/(m·K)]<br />
Belüftete Hohlräume, Eps=0.9<br />
EPDM (Ethylen Propylen Dien Monomer) 0.250<br />
Maske 0.035<br />
Unbelüftete Hohlräume, Eps=0.9<br />
Weich-Holz (typisches Bauholz) 0.130<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
15<br />
10<br />
7<br />
5<br />
2<br />
18<br />
18<br />
17<br />
16<br />
12 16<br />
16 17<br />
19.03.2009<br />
EN_ISO_10077-2_D4_EN.flx<br />
1<br />
18<br />
18<br />
17<br />
1<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
19.03.2009<br />
EN_ISO_10077-2_D4_EN.flx<br />
110.00<br />
Φ A-B = -6.871 W/m<br />
U f F =<br />
Φ<br />
F<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U D-E = 1.031 W/(m 2<br />
·K)<br />
-6.871<br />
-20.000<br />
- 1.031·0.190<br />
0.110<br />
190.00<br />
D<br />
E<br />
= 1.34 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D5_EN.flx<br />
λ[W/(m·K)]<br />
Aluminium (Si alloys) 160.000<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
Panel 0.035<br />
Slightly ventilated air cavity, Eps=0.9<br />
Softwood (typical construction timber) 0.130<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
18<br />
17<br />
16<br />
15<br />
14<br />
13<br />
11<br />
2 3 5<br />
19.03.2009<br />
EN_ISO_10077-2_D5_EN.flx<br />
18<br />
17<br />
16<br />
15<br />
16<br />
17<br />
1<br />
17<br />
18<br />
18<br />
17<br />
16<br />
15<br />
14<br />
1315<br />
1<br />
16<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
C<br />
19.03.2009<br />
EN_ISO_10077-2_D5_EN.flx<br />
89.00<br />
Φ A-B = -7.952 W/m<br />
U f G =<br />
Φ<br />
G<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U E-F = 1.169 W/(m 2<br />
·K)<br />
-7.952<br />
-20.000<br />
- 1.169·0.190<br />
0.089<br />
190.00<br />
E<br />
F<br />
= 1.97 W/(m 2<br />
·K)<br />
D<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D6_EN.flx<br />
λ[W/(m·K)]<br />
Aluminium (Si alloys) 160.000<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
Mohair (polyester) sweep 0.140<br />
PU (polyurethane), rigid 0.250<br />
Panel 0.035<br />
Polyamid (nylon) 0.250<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
5<br />
2<br />
19.03.2009<br />
EN_ISO_10077-2_D6_EN.flx<br />
8<br />
1<br />
1<br />
1<br />
1<br />
15<br />
1<br />
17<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
95.00<br />
19.03.2009<br />
EN_ISO_10077-2_D6_EN.flx<br />
U f F =<br />
Φ<br />
F<br />
∆T - U p ·b p<br />
b f<br />
=<br />
U D-E = 1.131 W/(m 2<br />
·K)<br />
Φ A-B = -13.324 W/m<br />
-13.324<br />
-20.000<br />
- 1.131·0.190<br />
0.095<br />
190.00<br />
E<br />
D<br />
= 4.75 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D7_EN.flx<br />
λ[W/(m·K)]<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
PVC (polyvinylchloride), rigid 0.170<br />
Panel 0.035<br />
Slightly ventilated air cavity, Eps=0.9<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
17<br />
16<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
9<br />
8<br />
7<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
18<br />
18<br />
19.03.2009<br />
EN_ISO_10077-2_D7_EN.flx<br />
18<br />
18<br />
17<br />
16<br />
1<br />
1<br />
16<br />
15<br />
10<br />
5<br />
1
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
A<br />
48.00<br />
19.03.2009<br />
EN_ISO_10077-2_D7_EN.flx<br />
F<br />
Φ A-B = -5.648 W/m<br />
U f F =<br />
Φ<br />
∆T - U p ·b p<br />
b f<br />
=<br />
-5.648<br />
-20.000<br />
D<br />
E<br />
- 1.169·0.191<br />
0.048<br />
191.00<br />
U D-E = 1.169 W/(m 2<br />
·K)<br />
= 1.23 W/(m 2<br />
·K)<br />
C<br />
B
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D8_EN.flx<br />
λ[W/(m·K)]<br />
PVC (polyvinylchloride), rigid 0.170<br />
Panel 0.035<br />
Slightly ventilated air cavity, Eps=0.9<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, normal 20.000 0.130<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
19.03.2009<br />
EN_ISO_10077-2_D8_EN.flx<br />
1<br />
2<br />
3 4<br />
1 1 1 2<br />
3<br />
4<br />
5<br />
6 7 8 10 13 15 16 17<br />
5<br />
6<br />
7 8 9 10 12 15<br />
18<br />
19<br />
17<br />
18<br />
19
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
19.03.2009<br />
EN_ISO_10077-2_D8_EN.flx<br />
A<br />
B<br />
Φ A-B = 3.568 W/m
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D9_EN.flx<br />
λ[W/(m·K)]<br />
PVC (polyvinylchloride), rigid 0.170<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, normal 20.000 0.130<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
10<br />
9<br />
7<br />
5 5<br />
3 3 3 3<br />
3<br />
3<br />
19.03.2009<br />
EN_ISO_10077-2_D9_EN.flx<br />
10<br />
10<br />
3<br />
3<br />
10<br />
9<br />
7
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
B<br />
19.03.2009<br />
EN_ISO_10077-2_D9_EN.flx<br />
Φ A-B = 4.118 W/m<br />
A
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
Name<br />
19.03.2009<br />
EN_ISO_10077-2_D10_EN.flx<br />
λ[W/(m·K)]<br />
Aluminium (Si alloys) 160.000<br />
EPDM (ethylene propylene diene monomer) 0.250<br />
Glasin filling 0.034<br />
Polysulfide (1) 0.400<br />
Silica gel (dessicant) (1) 0.130<br />
Slightly ventilated air cavity, Eps=0.9<br />
Soda lime glass 1.000<br />
Softwood (typical construction timber) 0.130<br />
Unventilated air cavity, Eps=0.9<br />
Name q[W/m 2<br />
] θ[ o<br />
C] R[(m 2<br />
·K)/W]<br />
Exterior, frame 0.000 0.040<br />
Interior, frame, normal 20.000 0.130<br />
Interior, frame, reduced 20.000 0.200<br />
Symmetry/Model section 0.000
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
17<br />
17<br />
15<br />
16<br />
16<br />
15<br />
14<br />
15<br />
14<br />
13<br />
12<br />
11<br />
10<br />
9<br />
8<br />
7<br />
6<br />
12<br />
10 11 12 13 14<br />
5<br />
4<br />
3<br />
4 3<br />
2<br />
2<br />
2<br />
1<br />
19.03.2009<br />
EN_ISO_10077-2_D10_EN.flx<br />
17 17<br />
1<br />
18<br />
15<br />
16<br />
15<br />
10<br />
5<br />
2
i nfo mi nd g mb h<br />
w eber s tr as se 10<br />
C H – 80 0 4 zür i c h<br />
fo n + 41 (4 4 ) 2 41 2 4 8 6<br />
fa x + 41 (4 4 ) 2 4 1 2 4 89<br />
i nfo @ i nfom i nd. c h<br />
ht tp : // www . i nfom i nd. c h<br />
C<br />
19.03.2009<br />
EN_ISO_10077-2_D10_EN.flx<br />
110.00 190.00<br />
Φ C-D = -9.600 W/m<br />
B<br />
A<br />
U A-B = 1.305 W/(m 2<br />
·K)<br />
D
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