analysis of the influences of solar radiation and façade glazing ...

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Appendix 2 126 Construction, FLOOR, !- Name Mineral_daub, !- Outside Layer I03 100mm insulation board, !- Layer 2 concrete_0_20, !- Layer 3 I03 80mm insulation board, !- Layer 4 concrete_0_05, !- Layer 5 F17 Carpet; !- Layer 6 Construction, CEILING, !- Name F17 Carpet, !- Outside Layer concrete_0_05, !- Layer 2 I03 80mm insulation board, !- Layer 3 concrete_0_20, !- Layer 4 Mineral_daub; !- Layer 5 Construction, INTRNAL-MASS, !- Name silicate_brick_0_12; !- Outside Layer Construction, DOOR-IN, !- Name Wood door - 35mm; !- Outside Layer Construction, ROOF, !- Name Mineral_daub, !- Outside Layer concrete_0_05, !- Layer 2 I05 350mm insulation board, !- Layer 3 concrete_0_20, !- Layer 4 Mineral_daub; !- Layer 5 Construction, WALL-OUT, !- Name Mineral_daub, !- Outside Layer Poroton_0_30, !- Layer 2 Mineral_fiber_0_02, !- Layer 3 Poroton_0_24, !- Layer 4 Stucco; !- Layer 5 Construction, Screen_O-Dbl Clr 3mm/13mm Arg, !- Name BRIGHT ALUMINUM SCREEN, !- Outside Layer COAT 3MM, !- Layer 2 XENON 12_7MM, !- Layer 3 CLEAR 3MM, !- Layer 4 XENON 12_7MM, !- Layer 5 CLEAR 3MM; !- Layer 6 Construction, Screen_L-Dbl Clr 3mm/13mm Arg, !- Name BRIGHT ALUMINUM SCREEN, !- Outside Layer COAT 3MM, !- Layer 2 XENON 12_7MM, !- Layer 3 CLEAR 3MM; !- Layer 4 Construction, Shade_O-Dbl Clr 3mm/13mm Arg, !- Name COAT 3MM, !- Outside Layer XENON 12_7MM, !- Layer 2 CLEAR 3MM, !- Layer 3 XENON 12_7MM, !- Layer 4 CLEAR 3MM, !- Layer 5 HIGH REFLECT - LOW TRANS SHADE; !- Layer 6 Construction, Shade_L-Dbl Clr 3mm/13mm Arg, !- Name COAT 3MM, !- Outside Layer XENON 12_7MM, !- Layer 2 CLEAR 3MM, !- Layer 3 HIGH REFLECT - LOW TRANS SHADE; !- Layer 4 !- == ALL OBJECTS IN CLASS: CONSTRUCTION WITH INTERNAL SOURCE == Construction:InternalSource, Slab Floor with Radiant, !- Name 4, !- Source Present After Layer Number 4, !- Temperature Calculation Requested After Layer Number 1, !- Dimensions for the CTF Calculation 0.15, !- Tube Spacing {m} Mineral_daub, !- Outside Layer concrete_0_12, !- Layer 2 I02 50mm insulation board, !- Layer 3 concrete_0_05, !- Layer 4 Terracotta; !- Layer 5 !- == ALL OBJECTS IN CLASS: ZONE == Zone, EG1, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, EG2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, EG3, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, EG4, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, EG6, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3}
Appendix 2 127 , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG1, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG3, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG4, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG1-2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG2-2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG3-2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG4-2, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG1-3, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG2-3, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm Yes; !- Part of Total Floor Area Zone, OG3-3, !- Name , !- Direction of Relative North {deg} 0, !- X Origin {m} 0, !- Y Origin {m} 0, !- Z Origin {m} 1, !- Type 1, !- Multiplier 0, !- Ceiling Height {m} 0, !- Volume {m3} , !- Zone Inside Convection Algorithm , !- Zone Outside Convection Algorithm
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ANALYSIS OF THE INFLUENCES OF SOLAR
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than the inner air temperature. It
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4.1 SUMMARY .......................
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Subscripts σ - Stefan-Boltzmann co
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1.1 Introduction 9 Another problem,
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1.2 Background and literature revie
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2.1 Building energy simulation soft
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2.2 Experimental research methods 4
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3.1 Building description 53 Fig. 3.
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3.1 Building description 55 All int
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3.1 Building description 57 Case B5
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3.1 Building description 59 Of cour
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3.1 Building description 61 Outside
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3.1 Building description 63 In orde
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3.2 Selection of the optimal glazin
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3.3 Estimation of thermal energy ga
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3.3 Estimation of thermal energy ga
Page 75 and 76: 3.3 Estimation of thermal energy ga
Page 77 and 78: 3.3 Estimation of thermal energy ga
Page 79 and 80: 3.4 Testing of a building indoor en
Page 81 and 82: 36 34 32 30 28 26 24 22 20 18 36 34
Page 83 and 84: 3,00 2,50 2,00 1,50 1,00 0,50 0,00
Page 91 and 92: 3.5 Optimization of a solar domesti
Page 99 and 100: 4.1 Summary 99 4 Summary and conclu
Page 101 and 102: 4.2 Comments and conclusions 101 So
Page 103 and 104: 4.3 Future research 103 of the annu
Page 105 and 106: References 105 Beausoleil-Morrison,
Page 107 and 108: References 107 Hendron, R., et al.
Page 109 and 110: References 109 Rees, S. and Haves,
Page 111 and 112: References 111 Yohanis, Y.G., et al
Page 113 and 114: Appendix 1 113 Fig. A1.1 VASATI 2.0
Page 123 and 124: Appendix 2 123 !-Generator IDFEdito
Page 125: Appendix 2 125 0.035, !- Conductivi
Page 129 and 130: Appendix 2 129 Discrete; !- Numeric
Page 131 and 132: Appendix 2 131 Fraction, !- Schedul
Page 133 and 134: Appendix 2 133 Air Conditioner:Wind
Page 135 and 136: Appendix 2 135 , !- Sensible Heat F
Page 137 and 138: Appendix 2 137 281, !- Lighting Lev
Page 139 and 140: Appendix 2 139 OG2 InfilTRATION, !-
Page 141 and 142: Appendix 2 141 OG3, !- Zone Name 16
Page 143 and 144: Appendix 2 143 0.004, !- Zone Heati
Page 145 and 146: Appendix 2 145 Zone15WindACAirInlet
Page 147 and 148: Appendix 2 147 0, !- Maximum Flow R
Page 149 and 150: Appendix 2 149 Zone16WindACOAMixer,
Page 151 and 152: Appendix 2 151 Zone 9 Outlet Node;
Page 153 and 154: Appendix 2 153 Stand Alone ERV 16,
Page 155 and 156: Appendix 2 155 ZoneHVAC:WindowAirCo
Page 157 and 158: Appendix 2 157 ZoneHVAC:Baseboard:C
Page 159 and 160: Appendix 2 159 Zone Control Type Sc
Page 161 and 162: Appendix 2 161 WindACPLFFPLR, !- Pa
Page 163 and 164: Appendix 2 163 Stand Alone ERV Supp
Page 165 and 166: Appendix 2 165 0.03001, !- Maximum
Page 167 and 168: Appendix 2 167 0.81, !- Sensible Ef
Page 169 and 170: Appendix 2 169 !- == ALL OBJECTS IN
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