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The Energy Impact of Daylighting and Your Impact on Building Design Jon McHugh, MSME Heschong Mahone Group ASHRAE/AIA Meeting April 20, 1999
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What is Daylighting Daylighting is the illumination of building interiors with: Direct beam Sunlight Sky Diffuse Light Reflected light from the sun or sky
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Effective Daylit Buildings Need an Integrated Design Orientation and Shape Glazing Mechanical System Lighting Controls Need to Work Together
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Motivation for Daylighting People are Important
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Correlation studies of daylighting and productivity HMG Analysis of 108 Stores (2/3s daylit) HMG Analysis of 21,000 elementary student test scores Operable windows also a benefit
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Daylighting Motivation - Energy Savings 30% to 70% savings in daylit zone 60% of commercial space directly under a roof –Single story buildings 41% of area 18% could be daylit over next 10 years
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US Primary Energy Consumption
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US Carbon Emissions
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Design Goals: Visual Quality –Provide appropriate illuminance levels (task and ambient) –Control luminance contrast (highlight or uniformity) –Integrate electric lighting and daylight –Provide a view –Create a pleasing environment
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Design Goals: Energy Savings Electric lighting reduction Cooling load avoidance Passive solar heat gain
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Design Goals: Cost Containment –Use standard building elements –Use building form and orientation to admit light and reject heat –Reduce mechanical equipment size –Reduce connected lighting load –Simplify controls
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Orientation - Solar Gain Source: ASHRAE 1997 Handbook of Fundamentals, SHGF
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Geometry
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Overhangs - Sun Path Diagram Shading 4’ below 2’ overhang Ref: Fuller Moore - Architectural Daylighting
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15 Quick Estimate of Solar Altitude, a t at Solar Noon At Latitude, L, and a declination, : a t =90° - L + (degrees) = 0, during equinoxes (3/21, 9/22) = 23.45°, summer solstice (6/21) = -23.45°, winter solstice (6/21) Albuquerque L = 35°
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Glazing Specifications Solar Heat Gain Coefficient (SHGC) - how much heat gain is transmitted SC = SHGC x 0.87
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Zero Energy Building Ultra Efficient Small Office R-19 Walls, R-32 Ceiling R-8 Glazing R-5.5 overall window Photocontrols on dimmable electronic fluorescent ballasts Direct/indirect evaporative cooling
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18 Daylighting Design Constraints Multi-Story Design No Moving Parts (Passive) Inexpensive Components Make use of Direct Beam Sunlight
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20 Simulation Steps DAY3D Program Geometry and Surface Props Exchange Fractions TMY Data Irradiance Perez Efficacy Model Electric Lighting Savings Illuminance Building Description BLAST Energy Results
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21 Parametric Runs a) Chiller no daylighting b) Evap cooling no daylighting c) Chiller w/ daylighting d) Evap w/ daylighting e) “c” w/o daylighting controls f) “c” w/o clerestory
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Annual Energy End Uses
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23 Skylighting Guidelines Skylighting design manual Can be downloaded from www.energydesignresources.com Funded by public interest energy research grant
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24 SkyCalc - Skylighting Design Software MS Excel application (spreadsheet) Simple inputs Type of building Type of skylights Number of skylights Lighting control type
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25 Outputs
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26 Components of Energy Savings
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Efficacy of Light Sources
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28 Cost-effectiveness of skylights
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29 Conclusions Daylighting is a highly desired building feature It can save energy if applied correctly Guidelines and tools are available to assist designers
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