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8/6/2019 Dana Higro
1/5
This calculation has been carried out using the program comissioned by the Saint-Gobain Isover Hungaria Ltd
Input data
GeometryBiggest floor area:
Brutto floor area:
Net floor area:
Heated floor area:
Average ceiling height:
Building perimeter:
Lowest floor slab
Floor slab on the soil:
Unheated basement:
Heated space:
Unheated space:
Arcade:
Vertical insulation
Geodetic height:
Thermal resistance:
Depth of thermal insulation:
Horizontal insulation
Geodetic height:
Thermal resistance:
142 [m2]
142 [m2]
142 [m2]
142 [m2]
2.70 [m]
43.0 [m]
142 [m2]
0 [m2]
0 [m2]
0 [m2]
0 [m2]
0.30 [m]
4.50 [m2K/W]
0.50 [m]
0.30 [m]
4.00 [m2K/W]
Roof:
Pitched roof:
Heated attic
Density of internal partitions:
Configuration in layout:
Configuration in section:
Garret with outer parapet
Exists
Exists
Average
Simple
Compact
Elevation areas:
Wall between heated and unheated spaces:
Elevation area, including exposed and facing to sunspace
Facing to N:
Facing to NE:
Facing to E:
Facing to SE::Facing to S:
Facing to SW:
Facing to W:
Facing to NW:
10 [m2]
25 [m2]
0 [m2]
50 [m2]
68 [m2]82 [m2]
68 [m2]
50 [m2]
0 [m2]
Facade elements in section Facade elements in projection
N: None -----------
E: None -----------
SE: None -----------
S: None -----------
SW: None -----------
W: None -----------
8/6/2019 Dana Higro
2/5
This calculation has been carried out using the program comissioned by the Saint-Gobain Isover Hungaria Ltd
Transparent elementsGlazing
N: 4 [m2] Direct input (U=1.90 g=0.75)
E: 3 [m2] triple glazing,wooden+Alu frame
SE: 0 [m2] triple glazing,wooden+Alu frame
S: 1 [m2] triple glazing,wooden+Alu frame
SW: 0 [m2] triple glazing,wooden+Alu frame
W: 4 [m2] triple glazing,wooden+Alu frame
Mullion
Orient. Mullion Perimeter/area Movable shading
N: Sparse Average External blind
E: Average Average External blind
SE: Very sparse Very small Curtain
S: Sparse High Direct input (R=0.18 g=0.30)
SW: Very sparse Very small Curtain
W: Average Average External blind
Tilted glazing
Orient. Area Tilt Window type
NE: 3 [m2] 45 Medium 0.9 - 1.2 m2, 2 rtg
SE: 3 [m2] 45 Direct input (U=2.10 g=0.40)
Indirect systemsSunspace data:
Orient. Area [m2] Window area [m2] ACH. [1/h] Window type Glazing type.
Orient. Frame Roof Layout Movable shading
Mass wall data:Orient. Area Mullion Glazing Night insulation Surface finishing
Trombe wall data:
Orient. Area Mullion Glazing Movable shading Surface finishing
Transparent insulation data:Orient. Area Mullion Movable shading Transmittance TRI R Opaque wall R
Solar accessSolar access:
Orient. Building in layout Building in section Deciduous vegetation Evergreen vegetation
N: none none none none
E: none none none none
SE: none none none none
S: none none none none
SW: none none none none
W: none none none none
8/6/2019 Dana Higro
3/5
This calculation has been carried out using the program comissioned by the Saint-Gobain Isover Hungaria Ltd
Constructional dataConstructional data
Floor covering in rooms, facing to
Orient. Floor covering
N: Medium
E: Medium
SE: Light
S: Heavy
SW: LightW: Medium
Position of thermal insulation:
Specific mass of exposed wall:
Specific mass of floor slabs:
Specific mass of partition walls:
External
1400-1700 kg/m3
medium
160-200 kg/m2
Building useIndoor set temperature:
Design external temperature:
Air change per hour:
Heat recovery:
Building use:
Heating system control:
Number of occupants - conventional heat gain:
20.0 [C]
-13.0 [C]
0.7 [1/h]
None
Residential
average
5 [capita]
Summer ventilation of rooms facing to
N: intensive
E: intensive
SE: not intensive
S: intensive
SW: not intensive
W: intensive
Fuel data:
Fuel price per MJ:
Heat value per other unit:
Efficiency of heating system:
3.0
------
81.00
8/6/2019 Dana Higro
4/5
This calculation has been carried out using the program comissioned by the Saint-Gobain Isover Hungaria Ltd
Output
Regarding summer overheating the thermal mass is :
for N orientation
for E orientation
for S orientation
for W orientation
acceptable
acceptable
acceptable
acceptable
Heat transfer coefficient {thermal resistance}:
Exposed walls: 0.25 { 4.00}
Walls between heated and unheated spaces: 0.00 { 0.00}
Heated attic envelope: 0.00 { 0.00}
Heat load:
Yearly heating energy cost:
8.4 [kW]
166401
Average U value:
Average thermal resistance:
Average U value including thermal bridge effect:
Average thermal resistance including thermal bridge effect:
Transmission heat loss coefficient:
Transmission heat loss coefficient per floor area:Transmission heat loss coefficient per volume:
Heat loss coefficient:
Heat loss coefficient per floor area:
Heat loss coefficient per volume:
Net balance of transmission losses and utilised direct solar gains:
Net balance of transmission losses and utilised direct solar gains per floor area:
Net balance of transmission losses and utilised direct solar gains per volume:
Net heat loss coefficient:
Net heat loss coefficient per floor area:
Net heat loss coefficient per volume:
Heating energy consumption per floor area:
Heating energy consumption per volume:
0.169 [W/m2K]
5.905 [m2K/W]
0.201 [W/m2K]
4.965 [m2K/W]
162.987 [W/K]
1.148 [W/Km2]0.425 [W/Km3]
254.236 [W/K]
1.790 [W/Km2]
0.663 [W/Km3]
152.228 [W/K]
1.072 [W/Km2]
0.397 [W/Km3]
165.722 [W/K]
1.167 [W/Km2]
0.432 [W/Km3]
88 [W/m2]
33 [W/m3]
Informative data
Month Total heat gain[kWh/day]
Utilised heat gain[kWh/day]
Heating energy consumption[kWh/month]
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Sum:
28.5
31.4
35.6
40.5
--
--
--
--
--
34.0
29.7
27.8
28.5
31.4
34.9
36.9
--
--
--
--
--
31.0
29.7
27.8
3050.7
2350.2
1546.9
486.2
0.0
0.0
0.0
0.0
0.0
590.9
1781.2
2674.0
12480.0
8/6/2019 Dana Higro
5/5
This calculation has been carried out using the program comissioned by the Saint-Gobain Isover Hungaria Ltd
Energy consumption of auxiliary heating
[kWh/month]
1000.0
2000.0
3000.0
4000.0
5000.0
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.