Solar Energy Applications in the Design of BuildingsHenry J. Cowan |
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Page 207
... peak internal environmental temperature ° C 3 DAYLIGHT PERFORMANCE daylight factor at rear of room % 1 2 clear glass 3 ୮ 27 heat absorbing glass 12 11 10 28 27 29 37 36 35 34 33 32 31 30 ( b ) SUMMER THERMAL PERFORMANCE peak internal ...
... peak internal environmental temperature ° C 3 DAYLIGHT PERFORMANCE daylight factor at rear of room % 1 2 clear glass 3 ୮ 27 heat absorbing glass 12 11 10 28 27 29 37 36 35 34 33 32 31 30 ( b ) SUMMER THERMAL PERFORMANCE peak internal ...
Page 211
... peak internal environmental temperature ° C 4 3 2 daylight factor at rear of room % DAYLIGHT PERFORMANCE - 14 22 15 28 27 1 13 with sun shades 10 11 12 without sun shades 1 1 33 32 31 30 29 36 35 34 SUMMER THERMAL PERFORMANCE peak internal ...
... peak internal environmental temperature ° C 4 3 2 daylight factor at rear of room % DAYLIGHT PERFORMANCE - 14 22 15 28 27 1 13 with sun shades 10 11 12 without sun shades 1 1 33 32 31 30 29 36 35 34 SUMMER THERMAL PERFORMANCE peak internal ...
Page 213
... peak internal environmental temperature ° C Fig . 9. Feasible criteria space for Example 2 . The introduction of sun shades ( Fig . 8b ) has a much smaller influence on the shape of the tradeoff curve than in the previous example . The ...
... peak internal environmental temperature ° C Fig . 9. Feasible criteria space for Example 2 . The introduction of sun shades ( Fig . 8b ) has a much smaller influence on the shape of the tradeoff curve than in the previous example . The ...
Contents
What Makes People Accept a Thermal Environment | 13 |
The Design of Sun Shading Devices | 33 |
Making the Best Use of Daylight in Buildings | 95 |
Copyright | |
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air temperature air-conditioning altitude architect Architectural Science Australia azimuth behaviour building design building enclosure Building Research Building Research Establishment calculation clear glass computer programs construction cost CSIRO daylight factor Department of Architectural developed diffuse components effect energy conservation energy consumption environment in buildings environmental design evaluation example external wall facade fibre floor glazing heat gain heat load heat loss heating and cooling heliodon horizontal illuminance humidity internal environmental temperature internal temperature latitude materials Melbourne methods overheated period Pareto optimal passive solar peak internal projection roof shade projection shading device shading mask shadow angle simulation solar energy solar heat solar radiation South storage SUMMER THERMAL PERFORMANCE sun shades sunlight sunscreens surface thermal comfort thermal inertia thermal insulation thermal mass tradeoff diagram University of Sydney values ventilation vertical Washington D.C. window winter