Advanced Energy Design Guide for K-12 School Buildings: Achieving 30% Energy Savings Toward a Net Zero Energy Building
American Society of Heating, Refrigeration and Air-Conditioning Engineers, 2008 - Technology & Engineering - 171 pages
"Provides guidance for using ANSI/ASHRAE/IESNA Standard 90.1-1999, Energy Standards for Buildings Except Low-Rise Residential Buildings, as a benchmark to build new schools that are 30% more energy efficient"--Provided by publisher.
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An Integrated Design Approach to Achieve Savings
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air handlers Air-cooled chiller efficiency ballasts boiler Economizer ceiling Chiller System classrooms clerestories Climate Zones Comply with Standard components condensing boilers cool roof cooling loads COP at 32°F damper daylighting fenestration daylighting strategy demand control HV9 duct ductwork EER at 59°F electric lighting electric resistance energy recovery energy savings ENERGY STAR energy-efficient equipment exterior floor area ratio footcandles furnace 225 kBtu/h Gas furnace 225 glazing goals GSHP heat pump 65 humidity HV13 Ventilation HVAC HVAC system insulation IPLV K-12 Schools kBtu/h light shelves Light source system lighting system located luminaires mean Im/W minimum metal halide lamps North-facing occupancy sensors operate outdoor air Packaged DX performance Phantom Loads pressure drop pump 65 kBtu/h recommended recovery or demand reduce requirements solar source system efficacy South-facing roof monitors space T8 lamps Table temperature thermal Total ESP typically walls water heaters Water-cooled chiller efficiency WSHP