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Explore the integrated design process for green building at NCSU Campus, focusing on team communication, charrettes, community engagement, and iterative design. Considerations include LEED and Green Globes, with references and resources for site, water, materials, indoor environmental quality, and energy.
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Issues on the Horizon in Green Building For NCSU’s Campus Environmental Sustainability Team August 3, 2010 Process Targets Considerations Traci Rose Rider, PhD, LEED AP BD+C
Traditional Design Process Process: Increased Emphasis on Integrated Design Image from 7Group (www.sevengroup.com)
Process: Increased Emphasis on Integrated Design Integrated Design Process Image from 7Group (www.sevengroup.com) • Team Communication • Charrettes • Community Engagement • Iterative Design
Targets: Existing Buildings Integrated Design Process
Considerations: LEED & Green Globes References& Resources Site Water Materials Indoor Environmental Quality Energy Misc
Living Buildings LEED: It’s green! Living Buildings: No, it’s not.
Living Buildings Green Sustainable Regenerative
Living Buildings • Site(Limits to Growth, Urban Agriculture, Habitat Exchange, Car Free Living) • Water (Net Zero Water, Ecological Water Flow) • Energy (Net Zero Energy) • Health (Civilized Environment, Healthy Air, Biophilia [Environmental features, Natural shapes and forms, Natural patterns and processes , Light and space, Place-based relationships, Evolved human-nature relationships]) • Materials (Red List, Embodied Carbon Footprint, Responsible Industry, Appropriate Sourcing, Conservation + Reuse) • Equity (Human Scale + Humane Places, Democracy + Social Justice, Rights to Nature) • Beauty (Beauty + Spirit, Inspiration + Education)
Sustainable Sites • Site Selection • Pre-Design Assessment and Planning (Vegetation [native, gardening, etc], Outdoor Activities, Vehicular access [ie: construction], Stormwater assessment, Renewable opportunities, Engage stakeholders, etc) • Site Design - Water (irrigation, streams, stormwater) • Site Design - Soil and Vegetation (plant selection, restoration, heat islands, wildfires, etc) • Site Design - Materials Selection (materials onsite, material content, low VOC, sustainable practices, etc) • Site Design - Human Health and Well-Being (education, accessibility, history, social interaction, quiet spaces, etc) • Construction (disturbance, recycling, etc) • Operations and Maintenance (recycling, emissions, etc) • Monitoring and Innovation
Lifecycle building is designing buildings to facilitate disassembly and material reuse to minimize waste, energy consumption, and associated greenhouse gas emissions. Living Buildings • Building - a whole building designed for disassembly and material reuse • Existing Buildings • Local Material Sourcing • Product - a building product that facilitates design for disassembly and material reuse • Energy Efficiency & Renewable Energy • Carbon Management • Water Efficiency & Quality • Material Optimization • Public and Ecosystem Health Protection
Lifecycle building is designing buildings to facilitate disassembly and material reuse to minimize waste, energy consumption, and associated greenhouse gas emissions. Living Buildings
Any questions? Traci Rose Rider, PhD, LEED AP BD+C