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Parameter of heat load computing model (CCRH when designed) |
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| Perimeter zone |
Interior zone |
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| Direction |
Tsukuba, Ibaraki, Japan : For the true south |
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| Area |
13.43 m2 |
199.23 m2 |
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| summer |
9:00 |
387.34 W/m2 |
140 W/m2; temperature 26°C, humidity 50% |
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| 12:00 |
479.82 W/m2 |
140 W/m2; temperature 26°C, humidity 50% |
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| 14:00 |
515.93 W/m2 |
140 W/m2; temperature 26°C, humidity 50% |
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| 16:00 |
464.93 W/m2 |
140 W/m2; temperature 26°C, humidity 50% |
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| winter |
1223.83 W/m2 |
134.25 W/m2; temperature 22°C, humidity 40% |
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| Quantity of outdoor air intake |
30.0 m3/(h·people) |
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| Over hang |
1500 mm |
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| Area of glass |
61.7 m2 |
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| Rate of glass area |
85.1% |
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| Area of internal wall |
Floor:189.06 m2, Face of wall 72.5 m2 |
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| Floor height |
4200 mm |
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| Ceiling height |
2700 mm |
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| Window shade |
Minimum calorie that uses window shade 100 W/m2 |
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| Heat gain from occupancy |
SH69W/people, LH53W/people, Dencity of occupancy 0.17 people/m2 |
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| Heat generation rate of electrical outlets |
29.75 W/m2 (tested room 32 W/m2) |
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| Cooling load from lighting |
Illuminance 700lx, 20 W/m2 |
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| Thermal capacity from |
12.6 kJ/m3·°C(default) |
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Yoshida Carbon Balance and Management 2006 1:12 doi:10.1186/1750-0680-1-12 |
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