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: