Post on 25-Jan-2016
description
Green Dorm
Green Dorm
WATER SYSTEMS TEAM SPACE SYSTEMS TEAM
Ryan W. Ryan S.Nick JackJames Stephanie
Eric
Green DormBRIEF HISTORY
Green DormCURRENT STATE NARRATIVE - Water
Current State Narrative
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Green DormPROJECT FOCUS
Green DormPROJECT FOCUS
Systems Scopes:
SiteStructureSkinWasteMechanicalSpacewater
Green DormPROJECT FOCUS
Systems Scopes:
SiteStructureSkinWasteMechanicalSpacewater
Green DormWATER SYSTEM Teams
Green DormWATER SYSTEM Goals
Sustainability Research Facility
Green DormMETRICS
3 GOALS + 3 METRICS
Green DormMETRICS
Lifecycle cost of combined water systems(measured against baseline green)
Green DormMETRICS
Percent reduction in utility water consumption(measured against baseline green)
Green DormMETRICS
Self Sufficient System
Green DormFuture State Narrative
Space Cover/Transition Page
Green DormSpace System
Green DormSCHEMATIC DESIGN NARRATIVE
Systems Scopes:
SiteStructureSkinWasteMechanicalSpacewater
Green Dorm
Systems Scopes:
SiteStructureSkinWasteMechanicalSpacewater
SCHEMATIC DESIGN NARRATIVE
Green DormPRESENT STATE NARRATIVE
Green DormFUTURE STATE NARRATIVE
Owner
StakeholdersUsers Operators Donors
Architects
Engineers Contractors
StudentsFacultyResearchersNeighborsVisitors
MaintenanceHousingFacilities ManagerCleaning Services
CorporationsAlumniIndividuals
Board of TrusteesPresidentProvost
University Officials
EHDDCampus ArchitectLandscape ArchitectInterior DesignerConsulting Architects
Structural: Tipping MarMechanical: Taylor Eng.Electrical: Integrated Design Assoc.Civil: Sherwood DesignFaculty Consultants: CEE Dept.
General Contractor: Pankow BuildersSub-contractors
GatekeepersFire Marshall and PoliceOccupational Health & SafetyCounty Codes and PermitsParking & Transportation
Green DormSpace System Teams Model
Living Lab
Most Desirable Housing
Economic Sustainability
Community
Environmental Quality
Experimentation Demonstration
Sense of Privacy
Dynamic Social Life
Good Neighbor
Access to Research & Education
Promotes Sustainable Life Style
Design & Construction Process
Monitoring
Vehicle Energy
Building Structure
Building Materials
WaterInfluence on Stanford
Proving Good Building Technology
Noteworthy “wow” Factor
Thermal Comfort
Healthy Material IAQ
Lighting Quality
Acoustic Quality
Measurable Environmental Performance
Zero CO2
Closed Water Cycle
Material Resources
Water Efficiency
Water Capture & Recycling
Reduce Earthquake Losses
Material Efficiency
Design for Adaptability & Construction
Low Embodied Energy
Low/no Carbon Emissions
Reduce Energy Use
First Cost Life cycle Costs
Completion Data
Green DormSpace System Goals Model
Personal Space
Living Lab
Most Desirable Housing
Economic Sustainability
Community
Measurable Environmental Performance
Zero CO2Reduce Energy Use
First Cost
Personal Space
Green DormMETRICS
Three Analyzed Metrics:
Green DormMETRICS
Reduce First Cost:
• +3: 30% Less Expensive• +2: 20%• +1: 10% • 0: Baseline Green• -1: 10%• -2: 20% • -3: 30% More Expensive
Green DormMETRICS
Reduce Energy Use:
• +3: 30% Less Energy Use• +2: 20%• +1: 10%• 0: Baseline Green• -1: 10% • -2: 20%• -3: 30% More Energy
Green DormMETRICS
Personal Space:
• +3: 30% More Space• +2: 20% • +1: 10% • 0: Baseline – Campus Housing Average• -1: 10% • -2: 20% • -3: 30% Less Space
Innovation – Granularity Reduction•Our proposed innovation to MACDADI is to reduce the granularity inherent in the +3/-3 metric system •This granularity often causes design options to be punished for being between 2 points in a given metric. •For example, a 1.4 would be treated as a 1•We propose to simply have decimals behind each rating (i.e. +2.65 or -1.45).
0 1 2 3-3 -2 -1
1.4
0 1 2 3-3 -2 -1
Current State:
Proposed State: