Pereti izolati
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Transcript of Pereti izolati
Rezistenta termica specifica a elementelor de constructie
PE Perete exterior izolat R = 3.043 mp x K / W1 Coeficient de convectie la interior 8 W / m x K D=2 Coeficient de convectie la exterior 24 W / m x K m=
STRATIFICATIE ELEMENT Grosime Lambda Rstrat
Nr Material m W / m x K mp x K / W1 Tencuiala 0.020 0.930 0.0222 Zidarie caramida 0.250 0.750 0.3333 Polistiren expandat 0.100 0.040 2.5004 Tencuiala 0.020 0.930 0.022
TOTALURI: 0.390 2.876
PI Perete exterior neizolat R = 0.671 mp x K / W1 Coeficient de convectie la interior 8 W / m x K D=2 Coeficient de convectie la exterior 8 W / m x K m=
STRATIFICATIE ELEMENT Grosime Lambda Rstrat
Nr Material m W / m x K mp x K / W1 Tencuiala 0.002 0.930 0.0022 Zidarie caramida 0.250 0.600 0.4173 Tencuiala 0.002 0.930 0.002
TOTALURI: 0.254 0.421
Pip Planseu peste sol Ro = 2.638 mp x K / W1 Coeficient de convectie la interior 8 W / m x K D=2 Coeficient de convectie la exterior 24 W / m x K m=
STRATIFICATIE ELEMENT Grosime Lambda Rstrat
Nr Material m W / m x K mp x K / W1 Parchet melaminat brad 0.014 0.110 0.1272 Sapa egalizare 0.040 0.700 0.0573 Termoizolatie cu polistiren 0.050 0.040 1.2504 Placa Beton Armat 0.130 0.174 0.7475 Hidroizolatie bituminoasa 0.025 0.170 0.1476 Strat pietris 0.100 0.700 0.1437 Pamant vegetal 2.000 2.000 1.000
TOTALURI: 2.471
Pie Planseu superior R = 2.313 mp x K / W1 Coeficient de convectie la interior 8 W / m x K D=2 Coeficient de convectie la exterior 8 W / m x K m=
STRATIFICATIE ELEMENT Grosime Lambda Rstrat
a i =a e =
a i =a e =
a i =a e =
a i =a e =
Nr Material m W / m x K mp x K / W1 Tencuiala 0.010 0.110 0.0912 Sapa 0.030 0.700 0.0433 Placa Beton Armat 0.130 0.174 0.7474 Termoizolatie 0.150 0.340 0.4415 Beton panta 0.120 0.162 0.741
TOTALURI: 0.440 2.063
Usi exterioare
= 1.54 D = 0.5m = 1.2
Usi interioare
= 0.43 m = 1.2
Ferestrem = 1.2
= 1.10
Luminatoare mansardam = 1.2
1.5Temperatura solului = 10 º C
Pss Planseu sarpanta R = 4.526 mp x K / W1 Coeficient de convectie la interior 8 W / m x K D=2 Coeficient de convectie la exterior 24 W / m x K m=
STRATIFICATIE ELEMENT Grosime Lambda Rstrat
Nr Material m W / m x K mp x K / W1 Tabla Lindab 0.001 0.020 0.0252 Folie anticondens 0.001 0.150 0.0073 Astereala 0.020 0.150 0.1334 Caprior 0.100 0.170 0.5885 Termoizolatie cu vata minerala 0.100 0.042 2.3816 Termoizolatie cu vata minerala 0.050 0.042 1.1907 Gips carton 0.012 0.350 0.034
TOTALURI: 0.284 4.359
Localitatea Pascani Jud. IasiViteza vantului: v = 4 [m/s]
a i =a e =
Temperatura exterioara = -18ºC
,0R
,R
,R
2 /om K W
2 /om K W
2 /om K W
,R 2 /om K W
v 4/3=6.35 [m/s]
SR 1907-1
= grosimea straturilor luate in considerare [m] ρ = densitatea aparenta λ = conductivitatea termica de calcul a materialului [W/m*K] R' = rezistenta termica specifica s = coeficient de asimilare termica m = coeficient de masivitate termica D = indicele inertiei termica a elementului de constructie
coeficient de transfer termic prin suprafata la interior =8 [W/m*K]coeficient de transfer termic prin suprafata la exterior =24 [W/m*K]
[kg/m³]
[m²*K/W] =[W/m²*K]
αi = αe =
/
m = 1,225 - 0,05 * D4.14 Pt D > 4,5 => m=11.00
Sm D = 4.14
W/m²*K m = 1.0010.08
8.950.29
10.08
3.771.04Sm D = 3.77
W/m²*K m = 1.0410.08
8.9510.08
26.28 >4,51.00
Sm D = 26.28 >4,5
W/m²*K m = 1.002.318.240.29
16.253.288.74
11.28
16.880.38
Sm D = 16.88
W/m²*K m = 0.382.318.24
16.259.47
4.291.00
Sm D = 4.29
W/m²*K m = 1.00
4.124.120.370.37
Localitatea Pascani Jud. Iasi
/
Bĩrsan Andrei-Vlăduţ
PE PI UE UIR` 3.04 0.67 1.54 0.43m 1.00 1.02 1.20 1.20h 2.80 2.80 2.50 2.30∆t X X X X
Parter
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ba
ie
PI N 3.65 2.80 10.22 1 0.00PI E 2.15 2.80 6.02 1 0.00PE V 2.15 2.80 6.02 1 0.54FE V 0.90 0.60 0.54 1 0.00PI S 2.40 2.80 6.72 1 1.84UI S 0.80 2.30 1.84 1 0.00Pie 3.65 2.15 7.85 1 0.00Pip 3.65 2.15 7.85 1 0.00
TOTAL 47.05
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ve
stib
ul
PI N 3.05 2.8 8.54 1 2.07UI N 0.9 2.3 2.07 1 0.00PE S 3.05 2.80 8.54 1 2.50UE S 1.00 2.50 2.50 1 0.00PI V 2.15 2.80 6.02 1 0.00PI E 2.15 2.80 6.02 1 0.00Pie 3.05 2.15 6.56 1 0.00Pip 3.05 2.15 6.56 1 0.00
TOTAL 46.80
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ca
me
ra c
en
tra
la
PE N 1.85 2.80 5.18 1 1.44FE N 0.90 1.60 1.44 1 0.00
m2 m2
m2 m2
m2 m2
Ca
me
ra c
en
tra
la
PI S 1.85 2.80 5.18 1 2.07UI S 0.90 2.30 2.07 1 0.00PE V 2.15 2.80 6.02 1 0.00Pie 2.15 1.85 3.98 1 0.00
Pip 2.15 1.85 3.98 1 0.00TOTAL 27.85
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ga
raj
PI N 5.75 2.80 16.10 1 4.14UI N 0.90 2.30 2.07 2 0.00PI E 2.15 2.80 6.02 1 0.00PE E 3.60 2.80 10.08 1 0.00PE S 5.75 2.80 16.10 1 12.88UE S 5.15 2.50 12.88 1 0.00PE V 5.75 2.80 16.10 1 1.80FE V 1.50 0.60 0.90 2 0.00Pip 5.75 5.75 33.06 1 0.00
TOTAL 113.31
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Bu
cata
rie
PE N 3.65 2.80 10.22 1 1.92FE N 1.20 1.60 1.92 1 0.00PE V 3.65 2.80 10.22 1 0.00PI S 3.65 2.80 10.22 1 0.00Pip 3.65 3.65 13.32 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Liv
ing
PE N 5.40 2.80 15.12 1 4.32FE N 2.70 1.60 4.32 1 0.00PE E 8.35 2.80 23.38 1 7.94FE E 2.15 1.60 3.44 1 0.00UE E 1.80 2.50 4.50 1 0.00Pip 8.35 5.40 45.09 1 0.00
m2 m2
m2 m2
m2 m2
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ho
l
PE N 3.05 2.80 8.54 1 2.88FE N 1.80 1.60 2.88 1 0.00PI N 3.65 2.80 10.22 1 1.84UI N 0.80 2.30 1.84 1 0.00PI V 3.80 2.80 10.64 1 0.00PI V 2.15 2.80 6.02 1 0.00PI S 6.95 2.80 19.46 1 4.57UI S 1.00 2.50 2.50 1 0.00UI S 0.90 2.30 2.07 1 0.00Pip 32.65 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Sca
ra
PE E 1.60 2.80 4.48 1 0.00PI V 1.60 2.80 4.48 1 0.00PE S 5.15 2.80 14.42 1 1.60FE S 0.80 2.00 1.60 1 0.00Pip 5.15 1.6 8.24 1 0.00
TOTAL
Spie=13,44+19,2=32,65
Etaj 1
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ba
ie 1
PE N 3.65 2.80 10.22 1 1.20FE N 1.20 1.00 1.20 1 0.00PI E 3.65 2.80 10.22 1 2.07UI E 0.90 2.30 2.07 1 0.00PE V 3.65 2.80 10.22 1 0.00Pie 3.65 3.65 13.32 1 0.00
m2 m2
m2 m2
m2 m2
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Do
rmito
r 1
PE N 5.15 2.80 14.42 1 0.00PE E 6.05 2.80 16.94 1 5.61FE E 1.05 1.60 1.68 2 0.00UE E 0.90 2.50 2.25 1 0.00PI S 5.15 2.80 14.42 1 2.07UI S 0.90 2.30 2.07 1 0.00Pie 6.05 5.15 31.16 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Dre
ssin
g
PE N 3.05 2.80 8.54 1 0.90FE N 0.9 1.00 0.90 1 0.00PI V 5.03 2.80 14.07 1 2.07UI V 0.90 2.30 2.07 1 0.00PI S 3.05 2.80 8.54 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ba
ie 2
PI E 2.15 2.80 6.02 1 0.00PE V 2.15 2.80 6.02 1 0.90FE V 0.90 1.00 0.90 1 0.00PI S 3.65 2.80 10.22 1 1.84UI S 0.80 2.30 1.84 1 0.00
TOTAL
m2 m2
m2 m2
m2 m2
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ho
l
PI N 11.10 2.80 31.08 1 6.96UI N 0.85 2.30 1.95 2 0.00PI S 9.30 2.80 26.04 1 4.14UI S 0.90 2.30 2.07 2 0.00PE S 5.15 2.80 14.42 1 2.00FE S 0.80 2.50 2.00 1 0.00PE E 4.55 2.80 12.74 1 0.00Pie 46.82 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
gim
e
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Do
rmito
r 2
PI N 4.85 2.80 13.58 1 2.07UI N 0.90 2.30 2.07 1 0.00PE V 4.55 2.80 12.74 1 0.00PE S 4.85 2.80 13.58 1 5.13UE S 0.90 2.50 2.25 1 0.00FE S 1.80 1.60 2.88 1 0.00Pie 4.85 4.55 22.07 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Do
rmito
r 3
PI N 4.05 2.80 11.34 1 2.07UI N 0.90 2.30 2.07 1 0.00PI E 2.15 2.80 6.02 1 0.00PE E 2.40 2.80 6.72 1 1.44FE E 0.90 1.60 1.44 1 0.00PE S 4.15 3.20 13.28 1 4.17
m2 m2
m2 m2
m2 m2
Do
rmito
r 3
FE S 1.20 1.60 1.92 1 0.00UE S 0.90 2.50 2.25 1 0.00Pie 4.55 4.05 18.43 1 0.00
TOTALC
am
era
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ca
me
ra t
eh
nic
a
PE N 1.85 2.80 5.18 1 2.25UE N 0.90 2.50 2.25 1 0.00PI N 1.15 2.80 3.22 1 0.00PE V 2.15 2.80 6.02 1 2.00FE V 0.80 2.50 2.00 1 0.00
TOTAL
Qnec= 17245
Mansarda
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Do
rmito
r
Pss N 5.15 8.30 1 0.00Pss E 6.05 5.90 1 0.00PI V 6.05 3.20 19.36 1 3.36UI V 0.80 2.10 1.68 2 0.00PI S 5.15 8.30 1 0.00Pie 6.05 5.15 31.16 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Sa
la F
itne
ss
PE N 3.05 7.32 1 0.81UE N 0.90 2.10 1.89 1 0.00FE N 0.90 1.20 1.08 1 0.00
m2 m2
m2 m2
m2 m2
Sa
la F
itne
ss PI E 5.03 2.50 12.56 1 3.78UI E 0.90 2.10 1.89 2 0.00PI V 5.03 3.20 16.08 1 1.89UI V 0.90 2.10 1.89 1 0.00PI S 3.05 7.32 1 0.00Pie 5.03 3.05 15.33 1 0.00Pss 7.80 5.03 39.20 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Ba
ie
PE N 3.65 8.76 1 0.72FE N 0.60 1.20 0.72 1 0.00PI E 3.65 3.20 11.68 1 0.00
Pss V 12.50 1 0.00PI S 3.65 8.76 1 1.68UI S 0.80 2.10 1.68 1 0.00Pie 3.65 3.65 13.32 1 0.00
TOTAL
Ca
me
ra
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Co
rp B
PeV V 40.50 16.70 676.35 1 279.21Ue V 1.50 2.30 3.45 1 0.00Fe1 V 0.60 0.60 0.36 18 0.00Fe3 V 1.10 1.50 1.65 8 0.00Fe4 V 2.30 1.50 3.45 8 0.00Fe5 V 1.10 2.10 2.31 32 0.00Fe6 V 2.30 2.10 4.83 32 0.00PeN N 9.50 16.70 158.65 1 7.88Fe2 N 1.05 1.50 1.58 5 0.00PeE E 13.50 16.70 225.45 1 10.20Fe4 E 2.30 1.50 3.45 2 0.00Fe3 E 1.10 1.50 1.65 2 0.00PeS S 9.50 16.60 157.70 1 28.56Fe5 S 1.10 2.10 2.31 4 0.00Fe6 S 2.30 2.10 4.83 4 0.00
Plsup 9.50 40.50 384.75 1 0.00Plinf 9.50 40.50 384.75 1 0.00
TOTAL
m2 m2
m2 m2
Parter modificatC
am
era
De
nu
mire
Orie
nta
re
Lu
ng
ime
Ina
ltim
e
Su
pra
fata
Nu
ma
r
De
sca
zut
- - m m -
Bu
cata
rie+
Ho
l+L
ivin
g
PE N 12.35 2.80 34.58 1 9.12FE N 1.20 1.60 1.92 1 0.00FE N 1.80 1.60 2.88 1 0.00FE N 2.70 1.60 4.32 1 0.00PE V 3.65 2.80 10.22 1 0.00PI V 2.15 2.80 6.02 3 0.00PE E 1.10 2.80 3.08 1 2.25UE E 0.90 2.50 2.25 1 0.00PE E 9.35 2.80 26.18 1 7.94UE E 1.80 2.50 4.50 1 0.00FE E 2.15 1.60 3.44 1 0.00PI S 3.65 2.80 10.22 1 2.07UI S 0.90 2.30 2.07 1 0.00PI S 3.05 2.80 8.54 1 5.25UI S 2.10 2.50 5.25 1 0.00PE S 5.15 2.80 14.42 1 1.60FE S 0.80 2.00 1.60 1 0.00Pip 99.50 1 0.00
TOTAL
m2 m2
FE Pie Pip Pss1.10 2.31 2.64 4.531.20 1.12 1.00 1.001.20 x x x
X X X X
In c
alc
ul
1+
(Ao
+A
c)/1
00
- K - W - - -
10.22 0.67 1.02 4 1 626.02 0.67 1.02 2 1 185.48 3.04 1.00 40 1 720.54 1.10 1.20 40 1 244.88 0.67 1.02 2 1 151.84 0.43 1.20 2 1 107.85 2.31 1.12 0 1 07.85 2.64 1.00 12 1 36 5.85
44.68 40 237 5 0 1.05
In c
alc
ul
1+
(Ao
+A
c)/1
00
- K - W - - -6.47 0.67 1.02 -2 1 -202.07 0.43 1.20 -2 1 -126.04 3.04 1.00 36 1 712.50 1.54 1.20 36 1 706.02 0.67 1.02 8 1 736.02 0.67 1.02 -2 1 -186.56 2.31 1.12 -2 1 -66.56 2.64 1.00 8 1 20 5.85
42.23 36 179 4.75 -5 0.9975
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -3.74 3.04 1.00 30 1 371.44 1.10 1.20 30 1 47
m2 m2K/W
m2 m2K/W
m2 m2K/W
`
t
R
mA
mA ΔtR
Adaosuri
cA oAt MCm,R
Adaosuri
cA oAt MCm,R
mA ΔtR
Adaosuri
cA oAt MCm,R
3.11 0.67 1.02 2 1 92.07 0.43 1.20 2 1 126.02 3.04 1.00 30 1 593.98 2.31 1.12 -8 1 -153.98 2.64 1.00 2 1 3
24.33 30 152 5 5 1.1
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -11.96 0.67 1.02 -8 1 -1454.14 0.43 1.20 -8 1 -926.02 0.67 1.02 -6 1 -55
10.08 3.04 1.00 30 1 993.22 3.04 1.00 30 1 32
12.88 1.54 1.20 30 1 30114.30 3.04 1.00 30 1 1411.80 1.10 1.20 30 1 59
33.06 2.64 1.00 2 1 25 Err:52297.46 30 364 5 0 1.05
In c
alc
ul
1+
(Ao
+A
c/10
0)- K - W - - -
8.30 3.04 1.00 38 1 1041.92 1.10 1.20 38 1 80
10.22 3.04 1.00 38 1 12810.22 0.67 1.02 -2 1 -3113.32 2.64 1.00 10 1 5043.98 38 330 5.45 5 1.1045
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
10.80 3.04 1.00 38 1 1354.32 1.10 1.20 38 1 179
15.44 3.04 1.00 38 1 1933.44 1.10 1.20 38 1 1434.50 1.54 1.20 38 1 133
45.09 2.64 1.00 11 1 188
m2 m2K/W
m2 m2K/W
m2 m2K/W
mA ΔtR
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt MCm,R
`
t
R
mA
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oA
tMCm,R
`
t
R
mA Adaosuri
cA oAt MCm,R
83.59 38 971 6 5 1.11In
ca
lcu
l
1+
(Ao
+A
c/10
0)
- K - W - - -
5.66 3.04 1.00 38 1 712.88 1.10 1.20 38 1 1198.38 0.67 1.02 -2 1 -251.84 0.43 1.20 -2 1 -10
10.64 0.67 1.02 -2 1 -326.02 0.67 1.02 8 1 73
14.89 0.67 1.02 10 1 2262.50 0.43 1.20 2 1 142.07 0.43 1.20 10 1 58
32.65 2.64 1.00 10 1 124 5.8587.53 38 617 5.4 5 1.104
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
4.48 3.04 1.00 38 1 564.48 0.67 1.02 2 1 14
12.82 3.04 1.00 38 1 1601.60 1.10 1.20 38 1 668.24 2.64 1.00 11 1 34
23.38 38 330 6.42 0 1.0642
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -9.02 3.04 1.00 40 1 1191.20 1.10 1.20 40 1 528.15 0.67 1.02 2 1 252.07 0.43 1.20 2 1 12
10.22 3.04 1.00 40 1 13413.32 2.31 1.12 4 1 26
m2 m2K/W
m2 m2K/W
m2 m2K/W
`
t
R
mA
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt MCm,R
`
t
R
mA Adaosuri
cA oAt MCm,R
`
t
R
mA Adaosuri
cA oAt MCm,R
43.98 40 367 5.85 5 1.1085In
ca
lcu
l
1+
(Ao
+A
c/10
0)
- K - W - - -14.42 3.04 1.00 38 1 18011.33 3.04 1.00 38 1 1413.36 1.10 1.20 38 1 1392.25 1.54 1.20 38 1 67
12.35 0.67 1.02 2 1 382.07 0.43 1.20 2 1 12
31.16 2.31 1.12 2 1 3076.94 38 607 5.6 5 1.106
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
7.64 3.04 1.00 38 1 950.90 1.10 1.20 38 1 37
12.00 0.67 1.02 -2 1 -362.07 0.43 1.20 -2 1 -128.54 0.67 1.02 2 1 26
31.15 38 111 0 5 1.05
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
6.02 0.67 1.02 4 1 375.12 3.04 1.00 40 1 670.90 1.10 1.20 40 1 398.38 0.67 1.02 4 1 511.84 0.43 1.20 4 1 21
22.26 40 215 5.65 0 1.0565
m2 m2K/W
m2 m2K/W
m2 m2K/W
mA ΔtR
mA ΔtR
`
t
R
mA
Rm=A⋅Δt⋅CMQT
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt MCm,R
Adaosuri
cA oAt MCm,R
Adaosuri
cA oAt MCm,R
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
24.12 0.67 1.02 -2 1 -733.91 0.43 1.20 -2 1 -22
21.90 0.67 1.02 -2 1 -674.14 0.43 1.20 -2 1 -23
12.42 3.04 1.00 38 1 1552.00 1.10 1.20 38 1 83
12.74 3.04 1.00 38 1 15946.82 2.31 1.12 0 1 0
128.05 38 212 0 5 1.05
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
11.51 0.67 1.02 2 1 352.07 0.43 1.20 2 1 12
12.74 3.04 1.00 38 1 1598.45 3.04 1.00 38 1 1062.25 1.54 1.20 38 1 672.88 1.10 1.20 38 1 119
22.07 2.31 1.12 10 1 10761.97 38 604 6.8 0 1.068
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
9.27 0.67 1.02 2 1 282.07 0.43 1.20 2 1 126.02 0.67 1.02 2 1 185.28 3.04 1.00 38 1 661.44 1.10 1.20 38 1 609.11 3.04 1.00 38 1 114
m2 m2K/W
m2 m2K/W
m2 m2K/W
`
t
R
mA
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt MCm,R
mA ΔtR
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt
MCm,R
`
t
R
mA Adaosuri
cA oAt
MCm,R
1.92 1.10 1.20 38 1 802.25 1.54 1.20 38 1 67
18.43 2.31 1.12 38 1 33955.79 38 783 10.25 0 1.1025
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
2.93 3.04 1.00 38 1 372.25 1.54 1.20 38 1 673.22 0.67 1.02 -2 1 -104.02 3.04 1.00 38 1 502.00 1.10 1.20 38 1 83
14.42 38 227 6.85 0 1.0685
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
8.30 4.53 1.00 38 1 705.90 4.53 1.00 38 1 50
16.00 0.67 1.02 2 1 493.36 0.43 1.20 2 1 198.30 0.67 1.02 0 1 0
31.16 2.31 1.12 0 1 0 5.8573.02 38 187 0 5 1.05
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
6.51 3.04 1.00 38 1 811.89 1.54 1.20 38 1 561.08 1.10 1.20 38 1 45
m2 m2K/W
m2 m2K/W
m2 m2K/W
Rm=A⋅Δt⋅CMQT
mA ΔtR
Adaosuri
cA oAt MCm
mA ΔtR
Adaosuri
cA oAMCm
Rm=A⋅Δt⋅CMQT
`
t
R
mA Adaosuri
cA oAt MCm,R
t
,R
,R
8.78 0.67 1.02 -2 1 -273.78 0.43 1.20 -2 1 -21
14.19 0.67 1.02 -4 1 -861.89 0.43 1.20 -2 1 -117.32 0.67 1.02 0 1 0
15.33 2.31 1.12 -2 1 -1539.20 4.53 1.00 38 1 32999.96 38 352 0 5 1.06
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
8.04 3.04 1.00 40 1 1060.72 1.10 1.20 40 1 31
11.68 0.67 1.02 4 1 7112.50 4.53 1.00 40 1 1107.08 0.67 1.02 2 1 221.68 0.43 1.20 2 1 9
13.32 2.31 1.12 0 1 055.02 40 350 5.2 5 1.102
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
397.14 3.04 1.00 36 1 47033.45 2.25 1.20 36 1 666.48 1.10 1.20 36 1 254
13.20 1.10 1.20 36 1 51827.60 1.10 1.20 36 1 108473.92 1.10 1.20 36 1 2903
154.56 1.10 1.20 36 1 6070150.78 3.04 1.00 36 1 1785
7.88 1.10 1.20 36 1 309215.25 3.04 1.00 36 1 2546
6.90 1.10 1.20 36 1 2713.30 1.10 1.20 36 1 130
129.14 3.04 1.00 36 1 15299.24 1.10 1.20 36 1 363
19.32 1.10 1.20 36 1 759384.75 2.31 1.00 36 1 5996384.75 2.63 1.00 8 1 1170
1987.65 36 30458 4 0 1.04
m2 m2K/W
m2 m2K/W
Adaosuri
cA oA
tMC
,R
Adaosuri
cA oAMCm,R
Rm=A⋅Δt⋅CMQT
t
m
`
t
R
mA
`
t
R
mA
In c
alc
ul
1+
(Ao
+A
c/10
0)
- K - W - - -
25.46 3.04 1.00 38 1 3181.92 1.10 1.20 38 1 802.88 1.10 1.20 38 1 1194.32 1.10 1.20 38 1 179
10.22 3.04 1.00 38 1 12818.06 0.67 1.02 2 1 550.83 3.04 1.00 38 1 102.25 1.54 1.20 38 1 67
18.24 3.04 1.00 38 1 2284.50 1.54 1.20 38 1 1333.44 1.10 1.20 38 1 1438.15 0.67 1.02 10 1 1242.07 0.43 1.20 10 1 583.29 0.67 1.02 2 1 105.25 0.43 1.20 2 1 29
12.82 3.04 1.00 38 1 1601.60 1.10 1.20 38 1 66
99.50 2.64 1.00 10 1 377 Err:522224.80 38 2284 5.85 5 1.1085
m2 m2K/W
`
t
R
mA
Rm=A⋅Δt⋅CMQT
Adaosuri
cA oAt MCm,R
QT
(1+
(Ao+
Ac)
/100
)
W m - - W W
0.00.00.03.0
= 7.54 0.00.00.0
7.75 7.54 0.0249 3.0 0.052 6.35 1 21.973 2,8x10-4 322 49.7637
QT
(1+
(Ao+
Ac)
/100
)
W m - - W W0.00.00.0
= 8.50 7.00.00.00.0
7.75 8.50 0.0178 7.0 0.052 6.35 1 18.361 2,2x10-4 226 124.87289
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W0.05.0
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
T
Mm Q
CtAR
an 1iQ 2iQE V4
3viL
an 1iQ 2iQE V4
3viL
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
0.0= 4.80 0.0
0.00.00.0
167 5.0 0.052 6.35 1 11.137 2,2x10-4 113 68.334
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W0.00.00.00.0
= 8.03 0.015.30.08.4
16 0.00 0.0383 23.7 0.052 6.35 1 92.575 2,2x10-4 919 396.54376
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.05.6
= 5.06 0.00.0
16 0.0365 5.6 0.052 6.35 1 37.303 3,3x10-4 631 96.453343
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.08.6
= 3.27 0.07.58.60.0
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
1077 24.7 0.052 6.35 1 126.252 2,2x10-4 1550 506.30446Q
T (
1+(A
o+A
c/10
0))
W m - - W W
0.06.80.00.0
= 5.39 0.00.00.00.00.0
7.75 5.39 0.0681 6.8 0.052 6.35 1 91.42 2,2x10-4 939 131.45876
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.0
= 2.69 0.05.60.0
352 5.6 0.052 6.35 1 24.72 2x10-4 268 98.083653
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W0.04.4
= 4.79 0.00.00.00.0
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
407 4.4 0.052 6.35 1 37.303 2,8x10-4 556 79.805819Q
T (
1+(A
o+A
c/10
0))
W m - - W W0.00.0
10.6= 4.82 6.8
0.00.00.0
671 17.4 0.052 6.35 1 87.241 2,2x10-4 1025 311.60262
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.03.8
= 10.70 0.00.00.0
116 3.8 0.052 6.35 1 42.9135 2,2x10-4 452 59.99088
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.0
= 4.15 3.80.00.0
227 3.8 0.052 6.35 1 21.973 2,8x10-4 330 53.026158
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
T
Mm Q
CtAR
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
an 1iQE V4
3viL
an 1iQE V4
3viL
2iQ
2iQ
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.00.0
= 22.93 0.00.06.60.0
16 0.00 0.0223 6.6 0.052 6.35 1 131.096 2,2x10-4 1371 110.21416
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.00.0
= 3.90 0.06.86.80.0
645 13.6 0.052 6.35 1 61.789 2,2x10-4 751 257.20362
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.00.00.0
= 2.71 5.00.0
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
5.66.80.0
863 17.4 0.052 6.35 1 51.597 2,2x10-4 668 325.32376
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.06.8
= 2.42 0.00.06.6
242 13.4 0.052 6.35 1 19.565 2,2x10-4 276 241.77787
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.00.00.0
= 14.87 0.00.0
7.75 14.87 0.0196 0.0 0.052 6.35 1 58.57 2,2x10-4 600 0
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.06.04.2
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
an 1iQE V4
3viL 2iQ
Rm=A⋅Δt⋅CMQT
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQV4
3viL E
0.0= 10.80 0.0
0.00.00.00.00.0
373 10.2 0.052 6.35 1 24.53 2,2x10-4 294 161.87944
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.03.60.0
= 6.30 0.00.00.00.0
385 3.6 0.052 6.35 1 32 2,8x10-4 515 60.930578
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.07.60.00.00.0
= 2.35 0.00.00.00.00.00.00.00.00.00.00.00.0
31677 7.6 0.052 6.35 1 6425.325 2,2x10-4 65278 93.956
(m/s)4/3 m3 m3/sm3
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL2iQ
Rm=A⋅Δt⋅CMQT
an 1iQE V4
3viL 2iQ
Rm=A⋅Δt⋅CMQT
QT
(1+
(Ao+
Ac/
100)
)
W m - - W W
0.05.66.88.60.00.00.0
= 3.74 6.80.08.67.50.00.00.00.00.05.6
16 0.00 0.02531 49.5 0.052 6.35 1 278.6 2,2x10-4 3326 960.22484
(m/s)4/3 m3 m3/sm3
Rm=A⋅Δt⋅CMQT
an 1iQ 2iQE V4
3viL
W
571
W
404
W
Q
Q
Q
280
W
1301
W
996
W
Q
Q
Q
2627
W
1621
W
620
W
Q
Q
Q
963
W
1696
W
568
W
557
Q
Q
Q
W
1594
W
1396
W
Q
Q
Q
1531
W
518
W
796
W
Q
Q
Q
667
W
900
W
96954
Q
Q
W
5857
Q
Bĩrsan Andrei-Vlăduţ
IncaperiDenumire
Radiator
Pa
rte
r
Baie Rp6 571
Bucatarie Rp7 996Living Rp9+Rp1 3227
Vestibul Rp2 404Camera centrala Rp5 280
Garaj Rp3+Rp4 1301Hol Rp8 1621
Eta
j
Baie 1 Re6 963
Dressing Re7 568Baie 2 Re4 557
Dormitor 1 Re8+Re9 1696
Hol Re5 1894
Dormitor 2 Re3 1396
Dormitor 3 Re1+Re2 1531
Ma
ns
ard
a Dormitor Rm5 796
Camera Fitness Rm4 667
Baie Rm3 900
Living Rm1+Rm2 96954116324
Radiatoare Seven din aluminiu avand Qcorp = 190 W/elementPentru bai radiatoare verticale Samoa tip S ( 12, 15, 19 )
Parametrii agentului termic Apa calda td / tr = 90 / 70S12S15
Tipuri constructive de corpuri de incalzire alese S19350/100600/100
[ ]necQ W
[ ]W
Tipul corpului de incalzire Dimensiune Corp[mm] Qcorp [W/element] Nr elem
S12 654 1
600/100 190 6600/100 190 17600/100 190 3350/100 128 2600/100 190 7600/100 190 9
S19 1126 1
600/100 190 4S12 654 1
600/100 190 10
600/100 190 10
600/100 190 10
600/100 190 15
600/100 190 5
600/100 190 4
S15 939 1
600/100 190 13
86068400 Parter =
99318 Etaj =Mansarda
td / tr = 90 / 70 116324654 W Total =939 W1126 W Nr element128 W190 W 107924
Radiator din aluminiu Samoa
Radiator din aluminiu Seven Radiator din aluminiu Seven Radiator din aluminiu Seven Radiator din aluminiu Seven Radiator din aluminiu Seven Radiator din aluminiu Seven Radiator din aluminiu Samoa
Radiator din aluminiu Seven Radiator din aluminiu SamoaRadiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Samoa
Radiator din aluminiu Seven
totalQ[ ]W
Qnec/Vcam [w/m3]
654 21.973 25.990
1140 37.303 26.697
3230 126.252 25.559
570 18.361 22.023
256 11 25.181
1330 92.575 14.056
1710 91.42 17.727
1126 37.303 25.825
760 42.9135 13.244
654 21.973 25.334
1900 87.241 19.445
1900 131.096 14.448
1900 61.789 22.601
2850 51.597 29.666
950 58.57 13.596
760 25 27.186
939 32 28.138
2470 6425 15.089
25099
889011090
5119
25099
113
.[ ]calcQ W
[ ]W
V cam [m3 ]
Bĩrsan Andrei-Vlăduţ
IncaperiDenumire
Qnec[W] Tipul corpului de incalzireRadiator
Pa
rte
r
Baie Rp6 571Bucatarie Rp7 996
Living Rp9+Rp1 3227
Vestibul Rp2 404
Camera centrala Rp5 280
Garaj Rp3+Rp4 1301
Hol Rp8 1621
Eta
j
Baie 1 Re6 963
Dressing Re7 568
Baie 2 Re4 557
Dormitor 1 Re8+Re9 1696
Hol Re5 1894
Dormitor 2 Re3 1396
Dormitor 3 Re1+Re2 1531
Ma
ns
ard
a Dormitor Rm5 796
Camera Fitness Rm4 667
Baie Rm3 900
Living Rm1+Rm2 96954116324
Radiatoare Seven din aluminiu avand Qcorp = 190 W/el Etaj =Pentru bai radiatoare verticale Samoa tip S ( 12, 15, 19 ) Parter =
Mansarda =
Parametrii agentului termic Apa calda td / tr = 80 / 60S12 654 W
Tipuri constructive de radiatoare verticale S19 1126 W350/100 128 W600/100 190 W
Radiator din aluminiu SamoaRadiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Samoa
Radiator din aluminiu Seven
Radiator din aluminiu Samoa
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Seven
Radiator din aluminiu Samoa
Radiator din aluminiu Seven
necQ [ ]W
Dimensiune Corp[mm] Qcorp [W/element] aCoeficienti
Nr elem
S12 654 1 0.95 0.97 1 0.97 1 1 638.9 1600/100 190 1 1 0.97 1 0.97 1 1 1058.4 6
600/100 190 1 1 0.97 1 0.97 1 1 3429.6 18
600/100 190 1 1.01 0.97 1 0.97 1 1 425.51 3
350/100 128 1 1.18 0.97 1 0.97 1 1 252.59 2
600/100 190 1 1.18 0.97 1 0.97 1 1 1172 7
600/100 190 1 1 0.97 1 0.97 1 1 1722.4 9
S19 1126 1 0.95 0.97 1 0.97 1 1 1077.7 1
600/100 190 1 1 0.97 1 0.97 1 1 604.05 4
S12 654 1 0.95 0.97 1 0.97 1 1 622.78 1
600/100 190 1 1 0.97 1 0.97 1 1 1803 10
600/100 190 1 1 0.91 1 0.97 1 1 2145.7 10
600/100 190 1 1 0.97 1 0.97 1 1 1484.2 10
600/100 190 1 1 0.97 1 0.97 1 1 1626.8 16
600/100 190 1 1 0.91 1 0.97 1 1 902.14 5
600/100 190 1 1 0.97 1 0.97 1 1 708.77 4
S19 1126 1 0.95 0.97 1 0.97 1 1 1007.3 1
600/100 190 1 1 0.97 1 0.97 1 1 103044 14
86068400 Parter =
99318 Etaj =Mansarda
116324Total =
Nr element107924
1072.6261787.71
ct cm cc ch cr cv
totalQ
Qnec/Vcam [
654 1 571.080
1140 1 995.866
3420 1 3226.923
570 1 404.366
256 1 280.444
1330 1 1301.201
1710 1 1620.608
1126 1 963.344
760 1 568.355
654 1 556.674
1900 1 1696.424
1900 1 1894.021
1900 1 1396.482
3040 1 1530.687
950 1 796.318
760 1 666.885
1126 1 900.416
2660 1 96954.260
25856
908011280
5496
25856
116
.[ ]calcQ W
[ ]W
V cam [m3 ]
IncaperiDenumire
VentiloconvectorP
art
er
Bucatarie+Hol Vp2 1850Living V1+Vp3 4071
Vestibul Vp4 381
Eta
j
Dressing Ve4 567
Dormitor 1 Ve5 1800
Hol Ve3 1894
Dormitor 2 Ve2 1772
Dormitor 3 Ve1 2776
Ma
ns
ard
a
Dormitor Vm3 794
Camera Fitness Vm2 618
Living Vm1 243518958
In incaperi au fost montate ventiloconvectoare carcasate de pardosealaPentru bai s-au folosit radiatoare verticale Samoa tip S ( 12,19 )Qnec radiatoare= 3667 [W]Qnec total = 22625 [W]Ocalculat radiatoare = 4386 [W]Qcalculat total = 31136 [W]
Parametrii agentului termic Apa calda td / tr = 80 / 60
Tipuri constructive de radiatoare verticale alese S12S19
[ ]necQ W
[ ]W
Tipul corpului de incalzireFactor
Putere baterie incalzire[W]temperatura debitFt Fg
Ventiloconvector carcasat MVT tip YARDY 25 0.92 1 2480Ventiloconvector carcasat MVT tip YARDY 25 0.92 1 2480
Ventiloconvector carcasat DELONGHI 0.92 1 700
Ventiloconvector carcasat MVT tip YARDY 15 0.92 1 1510
Ventiloconvector carcasat MVT tip YARDY 25 0.92 1 2480
Ventiloconvector carcasat MVT tip YARDY 25 0.92 1 2480
Ventiloconvector carcasat MVT tip YARDY 25 0.92 1 2480
Ventiloconvector carcasat MVT tip YARDY 30 0.92 1 3320
Ventiloconvector carcasat MVT tip YARDY 15 0.92 1 1510
Ventiloconvector carcasat MVT tip YARDY 15 0.92 1 1510
Ventiloconvector carcasat MVT tip YARDY 30 0.92 1 332026750
td / tr = 80 / 60
654 W1126 W
totalQ [ ]W[ ]W
Nr corpuri
12
1
1
1
1
1
1
1
1
1
d[mm]
Tronson principal
2.5 794 950 22.1 12x1 0.15 4.502 4741 5496 6.7 22x1 0.225 3.601 15156 16776 6 28x1.5 0.444 9.000 23450 25856 4 35x1.5 0.419 6.00
Tronsoane secundare
2.3 894 1126 22.1 12x1 0.181 6.002.4 618 760 22 12x1 0.121 3.002.1 1135 1330 14 12x1 0.215 8.002.2 1300 1330 10.2 12x1 0.215 8.001.8 1110 1210 30.8 12x1 0.19 6.501.6 1053 1126 29.4 12x1 0.181 6.001.9 690 760 29.00 12x1 0.121 3.001.7 567 760 27 12x1 0.121 3.001.2 1686 1710 23 12x1 0.271 12.001.1 1090 1330 21.6 12x1 0.215 8.001.3 1772 1900 10 12x1 0.31 15.001.5 1884 1900 10 12x1 0.31 15.001.4 552 654 8 12x1 0.106 2.4
1.1.1 10415 11280 0.5 28x1.5 0.3 4.50.9 1541 1710 27.5 12x1 0.271 120.1 1680 1710 27.2 12x1 0.271 120.8 1609 1710 26.4 12x1 0.271 120.7 993 1140 26.3 12x1 0.181 60.2 381 570 17.6 12x1 0.093 1.90.3 690 760 8.3 12x1 0.121 30.6 566 654 7.6 12x1 0.106 2.40.4 615 570 3 12x1 0.093 1.90.5 221 256 2.00 12x1 0.045 0.5
0.1.1 8295 9080 0.5 22x1 0.355 8424.60
L=424 m
Tronson principal
1.8 1110 1210 30.80 12x1 0.190 6.50
[ ]necQ W .[ ]transpQ W [ ]l m [ / ]v m s 2[ ]R mmH O 2* [ ]R l mmH OTronson
[ ]necQ W .[ ]transpQ W [ ]l m [ / ]v m s 2[ ]R mmH OTronson [ ]d mm
1 15156 16776 6.00 28x1.5 0.413 8.000 23450 25856 4.00 35x1.5 0.419 6.00
Tronsoane secundare2.5 794 950 22.10 15x1 0.100 4.502.3 894 1126 22.00 12x1 0.181 6.002.4 618 760 19.00 12x1 0.121 3.002.1 1135 1330 13.50 12x1 0.215 8.002.2 1300 1330 10.20 12x1 0.215 8.002 4741 5496 7.80 22x1 0.225 3.60
1.6 1053 1126 29.40 12x1 0.181 6.001.9 690 760 29.00 12x1 0.143 4.001.7 567 760 27.00 12x1 0.143 4.001.2 1686 1710 23.00 15x1 0.164 3.601.1 1090 1330 21.60 12x1 0.215 8.001.3 1772 1900 10.00 15x1 0.187 4.501.5 1884 1900 10.00 15x1 0.187 4.501.4 552 654 8.00 12x1 0.106 2.40
1.1.1 10415 11280 1.60 28x1.5 0.300 4.50
0.9 1541 1710 27.50 15x1 0.164 3.600.1 1680 1710 27.20 15x1 0.164 3.600.8 1609 1710 26.40 15x1 0.164 3.600.7 993 1140 26.20 12x1 0.181 6.000.2 381 570 17.60 12x1 0.093 1.900.3 690 760 8.30 12x1 0.143 4.000.6 566 654 7.60 12x1 0.106 2.400.4 615 570 3.00 12x1 0.093 1.900.5 221 256 2.00 12x1 0.045 0.50
0.1.1 8295 9080 1.60 22x1 0.355 8.00
12x1 275.2015x1 123.2022x1 9.40
28x1.5 7.6035x1.5 4.00
99.45 14.35 16.796 116.246 116.245957524.12 8.30 21.009 45.129 161.3753325
54 2.60 25.628 79.628 241.003012524 7.40 64.958 88.958 329.9605825
132.6 14.35 23.506 156.106 156.10666 13.30 9.736 75.736 75.736
108 13.45 31.086 139.086 139.08681.6 13.45 31.086 112.686 112.686
200.2 14.25 25.721 225.921 225.921176.4 14.65 23.997 200.397 200.397
87 14.25 10.432 97.432 97.43281 14.60 10.688 91.688 91.688
276 13.85 50.858 326.858 326.858172.8 13.85 32.011 204.811 204.811150 14.25 68.030 218.030 218.030150 13.75 66.069 216.069 216.06919.2 13.95 7.837 27.037 27.0372.25 8.30 37.350 39.600 39.600330 13.85 50.858 380.858 380.858
326.4 13.75 50.491 376.891 376.891316.8 14.15 51.960 368.760 368.760157.8 14.55 23.834 181.634 181.63433.44 13.85 5.989 39.429 39.42924.9 14.15 10.359 35.259 35.259
18.24 13.95 7.837 26.077 26.0775.7 14.25 6.162 11.862 11.8621 13.15 1.331 2.331 2.3314 7.10 44.739 48.739 48.739
3933.258
Tronson principal
200.20 14.25 25.721 225.921 225.921
2* [ ]R l mmH O 2[ ]Z mmH O2* [ ]R l Z mmH O ( * )R l Z
2* [ ]R l mmH O 2[ ]Z mmH O2* [ ]R l Z mmH O 2( * )[ ]R l Z mmH O
48.00 6.20 52.876 100.876 326.79824.00 8.60 75.491 99.491 426.289
Tronsoane secundare99.45 14.35 7.175 106.625 106.625
132.00 14.35 23.506 155.506 155.50657.00 13.30 9.736 66.736 66.736
108.00 13.45 31.086 139.086 139.08681.60 13.45 31.086 112.686 112.68628.08 9.10 23.034 51.114 51.114
176.40 14.65 23.997 200.397 200.397116.00 14.25 14.570 130.570 130.570108.00 14.60 14.928 122.928 122.92882.80 13.85 18.625 101.425 101.425
172.80 13.85 32.011 204.811 204.81145.00 14.25 24.915 69.915 69.91545.00 13.75 24.041 69.041 69.04119.20 13.95 7.837 27.037 27.0377.20 6.50 29.250 36.450 36.450
99.00 13.85 18.625 117.625 117.62597.92 13.75 18.491 116.411 116.41195.04 14.15 19.029 114.069 114.069
157.20 14.55 23.834 181.034 181.03433.44 13.85 5.989 39.429 39.42933.20 14.15 14.468 47.668 47.66818.24 13.95 7.837 26.077 26.0775.70 14.25 6.162 11.862 11.8621.00 13.15 1.331 2.331 2.331
12.80 6.50 40.958 53.758 53.758
2730.883
Tronson principal
1.7 1800 2480 30.8 15x1 0.231 6.501 15155 21516 6 35x1.5 0.333 4.000 22244 30566 4 35x1.5 0.356 4.50
Tronsoane secundare2.4 794 1510 22.1 15x1 0.142 2.802.3 894 1126 19 12x1 0.181 6.002.2 618 1510 18.5 15x1 0.142 2.802.1 2435 3320 14 18x1 0.203 4.002 4741 7466 7.8 22x1 0.301 6.00
1.6 1053 1126 29.4 12x1 0.181 6.001.5 567 1510 27.00 15x1 0.142 2.801.4 2776 3320 23 18x1 0.203 4.001.3 1772 2480 10 15x1 0.231 6.501.2 1894 2480 10 15x1 0.231 6.501.1 552 654 8 12x1 0.106 2.40
1.1.1 10414 14050 1.6 28x1.5 0.353 6.00
0.6 2035 2480 27.5 15x1 0.231 6.500.5 2036 2480 27.2 15x1 0.231 6.500.4 1850 2480 26.4 15x1 0.231 6.500.3 381 700 17.6 12x1 0.116 2.800.2 566 654 7.6 12x1 0.106 2.400.1 221 256 2 12x1 0.045 0.50
0.1.1 7089 9050 1.6 22x1 0.355 8.00
15X1 199.50 M 0.66812X1 83.6 E 1.748
L=424 m 22X1 9.4 P 1.31528X1,5 1.635X1,5 1018X1 37
0.000490625
[ ]necQ W .[ ]transpQ W [ ]l m [ / ]v m s 2[ ]R mmH O 2* [ ]R l mmH OTronson [ ]d mm
Tronson principal
200.20 13.60 36.285 236.485 236.48524.00 6.20 34.376 58.376 294.86118.00 8.60 54.496 72.496 367.35755
Tronsoane secundare61.88 13.90 14.014 75.894 75.894
114.00 13.90 22.769 136.769 136.76951.80 13.30 13.409 65.209 65.20954.00 13.00 26.786 80.786 80.78646.80 9.10 41.223 88.023 88.023
176.40 14.30 23.424 199.824 199.82475.60 13.90 14.014 89.614 89.61492.00 13.60 28.022 120.022 120.02265.00 13.20 35.218 100.218 100.21865.00 13.20 35.218 100.218 100.21819.20 13.60 7.640 26.840 26.8409.60 6.50 40.498 50.098 50.098
178.75 13.30 35.485 214.235 214.235176.80 13.20 35.218 212.018 212.018171.60 13.60 36.285 207.885 207.88549.28 13.20 8.881 58.161 58.16118.24 13.60 7.640 25.880 25.8801.00 12.90 1.306 2.306 2.306
12.80 6.50 40.958 53.758 53.758
2275.118425
2[ ]R mmH O 2* [ ]R l mmH O 2[ ]Z mmH O2* [ ]R l Z mmH O 2( * )[ ]R l Z mmH O