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• INTRODUCTION • BUILDING OVERVIEW • ARCHITECTURAL BREADTH • LIGHTING SPACE 1 • LIGHTING SPACE 2 • LIGHTING DEPTH 3 • LIGHTING DEPTH 4 • ELECTRICAL DEPTH 1 • ELECTRICAL DEPTH 2 • ACCOUSTICAL BREADTH • CONCLUSION •.
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• INTRODUCTION • BUILDING OVERVIEW • ARCHITECTURAL BREADTH • LIGHTING SPACE 1 • LIGHTING SPACE 2 • LIGHTING DEPTH 3 • LIGHTING DEPTH 4 • ELECTRICAL DEPTH 1 • ELECTRICAL DEPTH 2 • ACCOUSTICAL BREADTH • CONCLUSION •
• INTRODUCTION • BUILDING OVERVIEW •LIGHTING DEPTH 1 • LIGHTING DEPTH 2 • LIGHTING DEPTH 3 • LIGHTING DEPTH 4 • ELECTRICAL DEPTH 1 • ELECTRICAL DEPTH 2 • ARCHITECTURAL BREADTH • ACCOUSTICAL BREADTH • CONCLUSION • ABOUT THE BUILDING Built in 1903 100,000 Square Feet Italianate Industrial Style BUILDING FEATURES Saw-tooth Skylights Wood Ceiling Trusses Large Manufacturing Space
• INTRODUCTION • BUILDING OVERVIEW • LIGHTING DEPTH 1 • LIGHTING DEPTH 2 • LIGHTING DEPTH 3 • LIGHTING DEPTH 4 • ELECTRICAL DEPTH 1 • ELECTRICAL DEPTH 2 • ARCHITECTURAL BREADTH • ACCOUSTICAL BREADTH • CONCLUSION • WHY PHOTOVOLTAICS? Most efficient form of renewable energy The sun gives 350,000,000 terawatts of radiation per year The global energy consumption in 2004 was 130,000 terawatt hours DESIGN FEATURES EnphaseMicroinverters Sharp Commercial Series Panels 20% payback over the lifetime of the system
• INTRODUCTION • BUILDING OVERVIEW • LIGHTING DEPTH 1 • LIGHTING DEPTH 2 • LIGHTING DEPTH 3 • LIGHTING DEPTH 4 • ELECTRICAL DEPTH 1 • ELECTRICAL DEPTH 2 • ARCHITECTURAL BREADTH • ACCOUSTICAL BREADTH • CONCLUSION • DESIGN STATISTICS X X X DESIGN FEATURES X X X