Heating, Cooling, Lighting: Design Methods for ArchitectsUsing a qualitative rather than a quantitative approach, presents detailed information based on concepts, rules, guidelines, intuition, and experience for architects in the areas of heating, cooling, and lighting at the schematic design stage. The data explored supports a three-tiered approach--load avoidance, using natural energy sources, and mechanical equipment. Among the topics covered are shading, thermal envelope, passive heating and cooling, electric lighting, and HVAC. Case studies illustrate how certain buildings use techniques at all three tiers for heating, cooling, and lighting. An appendix lists some of the more appropriate computer programs available to the architect for analysis at the schematic design stage. |
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Page 182
... stack effect through the two - story stair hall . Since every door has operable tran- soms , all rooms have cross - ventila- tion from three sides ( Fig . 8.2t ) . Often the " temperate " climate is the hardest to design for . This is ...
... stack effect through the two - story stair hall . Since every door has operable tran- soms , all rooms have cross - ventila- tion from three sides ( Fig . 8.2t ) . Often the " temperate " climate is the hardest to design for . This is ...
Page 186
... stack effect will exhause hot air only if the indoor temperature difference is greater than the outdoor temperature ... stack effect , and both Bernoulli effects . FIGURE 8.6f Some ventilation is possible in the asymmetric ...
... stack effect will exhause hot air only if the indoor temperature difference is greater than the outdoor temperature ... stack effect , and both Bernoulli effects . FIGURE 8.6f Some ventilation is possible in the asymmetric ...
Page 187
... stack effect without heating the indoors . L о FIGURE 8.6 a Usually indoor ventilation is better from oblique winds than from head - on winds , because the oblique air stream covers more of the room . Window Orientation and Wind ...
... stack effect without heating the indoors . L о FIGURE 8.6 a Usually indoor ventilation is better from oblique winds than from head - on winds , because the oblique air stream covers more of the room . Window Orientation and Wind ...
Common terms and phrases
active solar AIR CONDITIONING air flow air spaces angle Architect atrium block building ceiling Chapter clerestory coil cold collector color convection Courtesy create daylight diffuse direct gain direct glare direct sunlight ducts Earth Sheltered effect efficiency electric ergy evaporative cooling fans FIGURE floor footcandles ft² glass glazing heat gain heat loss heat pump heat sink illumination indoor insulation interior JUNE JULY AUG lamps latitude Le Corbusier Light shelf light source louvers movable natural ventilation night outdoor air overheated period passive solar R-value reduce reflectors refrigeration roof shade line shading devices shown in Fig skylights slope solar access solar energy solar heating solar radiation stack effect strategies summer sun machine sun path sunspace supply surface Table temperature thermal comfort thermal mass thermal storage wall tion trees unit veiling reflections vent visual winter sun