UT Zero-Energy House “Layer House” University of Tennessee, Knoxville Arc 572 I Spring 2008 CONCEPT: LAYERING THE LAYER HOUSE IS A STUDY OF THE QUALITY AND CONDITIONS OF LIGHT AND SPACE WHICH ARE AFFECTED BY THE LAYERING OF OPERABLE ELEMENTS, FIXED STRUCTURAL ELEMENTS, AND MATERIALITY. THESE OPERABLE ELEMENTS ALSO FUNCTION AS PASSIVE HEATING AND COOLING STRATEGIES. THE IDEA OF LAYERING IS FOUND THROUGHOUT THE SCHEME, BOTH BY THE LAYERING OF SPACES THROUGH PHYSICAL BOUNDARIES, AS WELL AS THE BLENDING OF INTERIOR AND EXTERIOR SPACES. ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETY architecture materials comfort zone market viability kit of parts appliances energy balance engineering lighting hot water materials Concept diagram
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UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
CONCEPT: LAYERING
THE LAYER HOUSE IS A STUDY OF THE QUALITY AND CONDITIONS OF LIGHT AND SPACE WHICH ARE AFFECTED BY THE LAYERING OF OPERABLE ELEMENTS, FIXED STRUCTURAL ELEMENTS, AND MATERIALITY. THESE OPERABLE ELEMENTS ALSO FUNCTION AS PASSIVE HEATING AND COOLING STRATEGIES. THE IDEA OF LAYERING IS FOUND THROUGHOUT THE SCHEME, BOTH BY THE LAYERING OF SPACES THROUGH PHYSICAL BOUNDARIES, AS WELL AS THE BLENDING OF INTERIOR AND EXTERIOR SPACES.
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
Concept diagram
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
SITE PLAN 1:1000
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
PREVAILING WIND DIRECTIONS
SUNCHART: SITE AT 35.8 DEGREES
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
EXPLODED AXON
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
CIRCULATION GRID ZONES
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
FLOOR PLAN
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
NORTHEAST ELEVATION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
NORTHWEST ELEVATION
SOUTHEAST ELEVATION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
LONGITUDINAL ELEVATION
SOUTHWEST ELEVATION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
TRANSVERSE SECTION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
FUNCTIONAL VOLUME SECTION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
FUNCTIONAL VOLUME PLAN
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
DETAIL SECTION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
NORTHWEST ELEVATION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
STEEL I BEAM
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
GLASS
STRUCTURALLY INSULATED PANEL
STEEL H COLUMN SIP WALLS
PRECAST CONCRETE SLABS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
VERTICAL LOUVERS
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
HORIZONTAL LOUVERS
PRECAST CONCRETE SLABS
FUNCTIONAL VOLUME MODULES FUNCTIONAL VOLUME
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
CORTEN STEEL
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
TEAK
FUNCTIONAL VOLUME
LAMINATED BEECHWOOD
WOOD OPTIONS:
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
PRECAST CONCRETE FLOOR
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
TEAK BEECHWOOD
WOOD OPTIONS:
WENGEWOOD VENEER WALNUT VENEER
CANVAS LIGHT DIFFUSING FIXTURES STAINLESS STEEL
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
BED PERSPECTIVE
BEECHWOOD WENGEWOOD VENEER WALNUT VENEER
KITCHEN PERSPECTIVE
STORAGE PERSPECTIVE
DEN PERSPECTIVE
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
SHADING CONDITION: APRIL 25, 9 AM
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
SHADING CONDITION: APRIL 25, 12 PM
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
SHADING CONDITION: APRIL 25, 5 PM
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
PHOTOVOLTAICS: PV MEMBRANE
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
THERMAL MASS
SOLID VOLUMES
PRIMARY CIRCULATION WATER COLLECTION
EVACUATED TUBES
CROSS AND STACK VENTILATION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
POSSIBLE CONFIGURATIONS OF BASIC MODULE
ROW HOUSE
3 M
COURTYARD HOUSE
SQUARE
3 M
URBAN INFILL UNITS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ROW HOUSE UNITS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
PLAN: DAYLIGHTING SECTION: DAYLIGHTING
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
PLAN: WATER COLLCTION SECTION: WATER COLLECTION
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: TYPICAL SUMMER CONDITIONS, DISPLAYING ALL ELEMENT
GROUPS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: EXTREME SUMMER CONDITIONS, DISPLAYING ALL ELEMENT
GROUPS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: TYPICAL SUMMER CONDITIONS, DISPLAYING TOTAL NET HEAT FLOW
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: EXTREME SUMMER CONDITIONS, DISPLAYING TOTAL NET HEAT FLOW
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: TYPICAL WINTER CONDITIONS, DISPLAYING ALL ELEMENT
GROUPS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: EXTREME WINTER CONDITIONS, DISPLAYING ALL ELEMENT
GROUPS
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: TYPICAL WINTER CONDITIONS, DISPLAYING TOTAL NET HEAT FLOW
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
ENERGY REPORT: EXTREME WINTER CONDITIONS, DISPLAYING TOTAL NET HEAT FLOW
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
CISTERN SIZING CHART:
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
PHOTOVOLTAIC ESTIMATE
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials
SHADING CRITERIA
UT Zero-Energy House“Layer House”University of Tennessee, KnoxvilleArc 572 I Spring 2008
ARCHITECTURE I INTERIOR I TECHNOLOGY I SOCIETYarchitecture materials comfort zone market viabilitykit of parts appliances energy balanceengineering lighting hot watermaterials