Download - Elizabeth Cooney - ARCH 8510
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ARC
H 8
510
STUDIO PORTFOLIO ELIZABETH COONEY
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THE
STU
DEN
TI am a student, a designer, a dancer, and an artist. From the beginning I have always held an interest in the arts and the built environment, and I have passionately pursued the architectural discipline for its tectonic and social potential.
Currently I am earning my M.Arch at Clemson University, with a specialization in Digital Ecologies. I am interested in developing an architectural interface that is intelligent, responsive, and environmentally responsible.
ELIZABETH COONEY
UNDERGRADUATE: CLEMSON UNIVERSITY B.A. ARCHITECTURE MINOR: SPANISH
GRADUATE: SYRACUSE UNIVERSITY CLEMSON UNIVERSITY M.ARCH CERTIFICATE OF DIGITAL ECOLOGIES
RELATED EXPERIENCE Watershed Studio Architecture, LLC (Summer 2010) Research Assitant: Mark Linder, Syracuse University (2012-2013) Graduate Assitant: Dr. Dina Battisto, Clemson University (2013-2014)
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ABOUT ME
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THE
STU
DIOThe work within this portfolio contains all of the projects from my first studio
course taken at Clemson University (Fall 2013). ARCH 8510 is technically the third semester of the M.Arch curriculum, however, I was granted advanced placement into the 2-year track.
The studio was team-taught by four professors: Dustin Albright, Dan Harding, Ufuk Ersoy, and Carlos Barrios.
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P1
P2
P3
P4
KIRIGAMI HOUSE
HAIKU HOUSE - POROSITY
HAIKU HOUSE - POROSITY(revisited)
LIGHT-EMITTING SOUND BAFFLE
TABLE OF CONTENTS
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My place of respiteBent and punctured, this shell
Exchange with neighbors
P1 KIRIGAMI HOUSE
01
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LEFT: PAPER-CUTTING FILE
THE KIRIGAMI HOUSE
Based upon Robert Frosts poem, The Mending Wall, the notion of the home is one of privacy, as well as neighborly interaction. The landscape of the home folds together to har-bor the interior shelter of living space. As an integrated entity to its surroundings, the bound-aries of the home are punctured and bent to provide visual and spatial intersections between interior and exterior habitats.
03
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CORNER A CORNER B
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CORNER C CORNER D
05
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The spirit passes lightly through the porous hearth,blurring boundaries.
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P2 HAIKU HOUSE - POROSITY
07
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The Haiku House recognizes the important of prexisting conditions, and encourages the user to actively integrate his or herself with the environment. The porous boundaries between interior and exterior, the collective and private, blur the boundaries between habitats, while mainting a sense of security where necessary.
Porosity engages with the architecture to produce a phenomenological, experiential connection with the inhabitants, through the manipulation of spatial sequences and visual axes. Porosity alters the way of living by removing the closed shell of a home.
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The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COM
PONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONCEPTPROCESS
PorousHome
ARC
H 8510| Fall 2013
ST
UD
EN
T 1G
PorousHome
The design focuses on making the original schem
atic concept (porous living), a com
fortable living environment by im
plementing
many techniques to control heat and hum
idity, as well as provide
functionality in the wall system
.
The main physical com
ponents of the concept entail: Dogtrot
Vernacular, Porous/Operable W
all System, Suntube Skylights.
These pieces pertain to systems that are either responsive to
solar conditions, or responsive to wind conditions.
LEGENDSystem
s responsive to solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to
wind conditions:
Natural venthilation,
Hum
idity control
DIFFU
SER
Which room
s feed other parts of the program
?
House is split into
four components,
separated by a dogtrot.
How
do inter-room
connections affect the decom
pression of space?
A holistic look at the relationship betw
een spaces.The relationship of spaces
shows a gradient of
public to private spatial sequences.
Walls running along the
east-west axis provide
porosity relative to the context, visually and spatially. W
alls in the north-south axis provide porosity relative to circulation, as w
ell as provide utility use for occupancy com
fort.
Dogtrot System
IDEAL ORIENTATION
1- Outdoor Eating
2- Kitchen3- Living R
oom4- Interior D
eck5- Public B
athroom6- B
edroom #
17- B
edroom #
28- M
aster Bedroom
9- Master B
athroom10- Private D
eck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. O
ccupancy Com
fort4. Energy B
alance5. Appliances6. H
ome Entertainm
ent7. Affordability8. M
arket Appeal9. H
ot Water Production
10. Com
munications/B
randing
1
3
6
8
245
79
10
AUTUMN
SUMM
ER
WINTER
FLOOR PLAN1/8 =
1
NORTHWEST ELEVATION: ENTRANCE
1/8 = 1
ABOVE: Night vs. Day Environmental Qualities
Exterior viewRIGHT: Transparency of Porous W
allsB
edroom #
2
SOUTHWEST ELEVATION: POROUS W
ALLS1/8 =
1
DIAGRAM: Seasonal W
ind PatternsB
uilding is oriented so that its longitudinal
axis points
slightly northw
est of
due north.
This positioning
captures the
most
regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot System
IDEA
L OR
IENT
ATIO
N
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
09
-
The spirit passes,lightly through the porous hearth,
blurring boundaries.
GRID
DEFINE HOME COMPONENTS
DEFINE CONNECTIONS
UNDERSTAND POROSITY
DEFINE WALLS
REFINE POROSITY
CONC
EPT
PROC
ESS
PorousHomeARCH 8510| Fall 2013STUDENT 1G
PorousHome
The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
LEGENDSystems responsive to
solar conditionsPassive heating and cooling, natural daylight.
Systems responsive to wind conditions:Natural venthilation, Humidity control
DIFFUSER
Which rooms feed other parts of the program?
House is split into four components, separated by a dogtrot.
How do inter-room connections affect the decompression of space?
A holistic look at the relationship between spaces.
The relationship of spaces shows a gradient of public to private spatial sequences.
Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Walls in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
Dogtrot SystemID
EAL
ORIE
NTAT
ION
1- Outdoor Eating2- Kitchen3- Living Room4- Interior Deck5- Public Bathroom6- Bedroom #17- Bedroom #28- Master Bedroom9- Master Bathroom10- Private Deck
KEYFLOOR PLAN
PRIORITIESSTRATEGIES
1. Architecture2. Engineering3. Occupancy Comfort4. Energy Balance5. Appliances6. Home Entertainment7. Affordability8. Market Appeal9. Hot Water Production10. Communications/Branding
1
3
6
8
2
4 5
7
9
10
AUTUMN
SUMMER
WINTER
FLOOR PLAN1/8 = 1
NORTHWEST ELEVATION: ENTRANCE1/8 = 1
ABOVE: Night vs. Day Environmental QualitiesExterior view
RIGHT: Transparency of Porous WallsBedroom #2
SOUTHWEST ELEVATION: POROUS WALLS1/8 = 1
DIAGRAM: Seasonal Wind PatternsBuilding is oriented so that its longitudinal axis points slightly northwest of due north. This positioning captures the most regurlar winds year-round.
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MEADOW SITE Blurred edge conditions marked by forest boundary. The Haiku House nestlies within this ecotone, moving spatially from public to pirvate.
BOUN
DARI
ES
RENDER: CHILDRENS BEDROOM MODULE
11
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SECTION: TRANSVERSE
WALL SECTION: POROUS OPERABLE WALL
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ASSE
MBL
YHOME AS PROTOTYPE
1
2
3
4
Porous Wall
MODULE EXPLOSION
1 FOUNDATIONS: On-site. Continuous Wall Footings are poured with columns that support the modular rooms. Continuous pressured treated plates span the longitudinal axis of the framework.
2 DECKING: On-site. Decking and Boardwalks are supported by joists, connecting the separate modules.
3 MODULES: Off-site. Each room is pre-fabricated before being brought to the construction site. Modules use light wood framing, clad with gypsum board on the utility walls and operable curtain walls on the por ous walls.
4 ROOF: Off-site. 5V Crimp metal panels, pre-painted white for reflectivity and energy savings, are cut off-site. They are then assembled, along with the sun-tubes on-site, upon pre-fabricated monoslope wooden trusses.
INSULATION
CEILING MATERIAL
1/2 GYPSUM
OPERABLE INSULATED GLASS CURATIN WALL
2 POURED CONCRETE
0.32 ALUMINUM PANEL, PERFORATED (MANUFACTURED BY
ZAHNER)
MODULE FLOOR STRUCTURE
CONTINUOUS PRESSURE-TREATED
PANEL
CONTINUOUS WALL FOUNDATION
PLYWOOD SHEATHING
Suntube SkylightsSource: http://www.sun-dome.com/tubular_sky-light_features.html
PRODUCT EXAMPLE: Sun Dome Tubular Skylights
POLYCARBONATE 0.125 CLEAR DOME
0.040 ALUMINUM ROOF FLASHING
2-1/2 S.S. FLASHING SCREWS
ROOFING CEMENTEXISTING ROOF MATERIAL + PLYWOOD SHEATHINGROOF TRUSS
TOP ADJUSTABLE TUBE
EXTENSION TUBE
BOTTOM ADJUSTABLE TUBE
CEILING ANCHORS1 CEILING SCREWS (ZINC)
CEILING SCREW CAPS
CEILING MATERIAL
ROUGH-CUT HOLE IN ROOF, 1/2 LARGER THAN THE MARKED HOLE
DIAGRAM: Master Bedroom Sun Study
EVENING
AFTERNOON
MORNING
SUN DOME TUBULAR SKYLIGHT DETAIL3/4 = 1
TRANSVERSE SECTION: NORTHWEST-FACING1/4 = 1
WALL SECTION: STANDARD POROUS-WALL CONSTRUCTION3/4 = 1
LONGITUDINAL SECTION: SOUTHWEST-FACING1/4 = 1
Each room is a separate module that has all of its components pre-fabricated and assembled off-site, while another construction team simultaneously builds the foundations and rails for the modules to be attached to.
The modules are composed of light wood framing, clad by gypsum board on the utility walls (for economy and flexibility), while the porous walls are made of operable curtain walls with aluminum perforated panels as sun-shading.
ARCH 8510| Fall 2013STUDENT 1G
13
-
ASSE
MBL
Y
HOME AS PROTOTYPE
1
2
3
4
Porous Wall
MODULE EXPLOSION
1 FOUNDATIONS: On-site. Continuous Wall Footings are poured with columns that support the modular rooms. Continuous pressured treated plates span the longitudinal axis of the framework.
2 DECKING: On-site. Decking and Boardwalks are supported by joists, connecting the separate modules.
3 MODULES: Off-site. Each room is pre-fabricated before being brought to the construction site. Modules use light wood framing, clad with gypsum board on the utility walls and operable curtain walls on the por ous walls.
4 ROOF: Off-site. 5V Crimp metal panels, pre-painted white for reflectivity and energy savings, are cut off-site. They are then assembled, along with the sun-tubes on-site, upon pre-fabricated monoslope wooden trusses.
INSULATION
CEILING MATERIAL
1/2 GYPSUM
OPERABLE INSULATED GLASS CURATIN WALL
2 POURED CONCRETE
0.32 ALUMINUM PANEL, PERFORATED (MANUFACTURED BY
ZAHNER)
MODULE FLOOR STRUCTURE
CONTINUOUS PRESSURE-TREATED
PANEL
CONTINUOUS WALL FOUNDATION
PLYWOOD SHEATHING
Suntube SkylightsSource: http://www.sun-dome.com/tubular_sky-light_features.html
PRODUCT EXAMPLE: Sun Dome Tubular Skylights
POLYCARBONATE 0.125 CLEAR DOME
0.040 ALUMINUM ROOF FLASHING
2-1/2 S.S. FLASHING SCREWS
ROOFING CEMENTEXISTING ROOF MATERIAL + PLYWOOD SHEATHINGROOF TRUSS
TOP ADJUSTABLE TUBE
EXTENSION TUBE
BOTTOM ADJUSTABLE TUBE
CEILING ANCHORS1 CEILING SCREWS (ZINC)
CEILING SCREW CAPS
CEILING MATERIAL
ROUGH-CUT HOLE IN ROOF, 1/2 LARGER THAN THE MARKED HOLE
DIAGRAM: Master Bedroom Sun Study
EVENING
AFTERNOON
MORNING
SUN DOME TUBULAR SKYLIGHT DETAIL3/4 = 1
TRANSVERSE SECTION: NORTHWEST-FACING1/4 = 1
WALL SECTION: STANDARD POROUS-WALL CONSTRUCTION3/4 = 1
LONGITUDINAL SECTION: SOUTHWEST-FACING1/4 = 1
Each room is a separate module that has all of its components pre-fabricated and assembled off-site, while another construction team simultaneously builds the foundations and rails for the modules to be attached to.
The modules are composed of light wood framing, clad by gypsum board on the utility walls (for economy and flexibility), while the porous walls are made of operable curtain walls with aluminum perforated panels as sun-shading.
ARCH 8510| Fall 2013STUDENT 1G
SECTION: LONGITUDINAL
-
EVEN
ING
MID
DAY
MOR
NING
DIAGRAM: Daily Sun StudySummer Solstice
RENDER: MASTER BEDROOM MODULE
15
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Fiber optics have a wide variety of applications, and are highly researched in areas for new sustainable technologies. In architectural applications, fiber optics have the capability to transmit light from within or form one side of a unit to another. Programmed electrical devices that are resposive to exterior conditions can control fiber optics to provide creative sustainable solutions.
Piezoelectric sensors placed within the concrete unit have the ability to detect vibrations from passing traffic. Programming the units to emit light once vibrations exceed a particular threshold can help reduce costs for exterior lighting and light pollution.
VIBRATION-SENSITIVE CONCRETE
P3 LIGHT-EMITTING SOUND BAFFLE
17
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FACE ELEVATION1 = 1
3
3
TH
E U
NIT
SIDE ELEVATION1 = 1
The unit must be cast in two separate pours.
Pour 1: Embed fibers perpendicular to face. Pour concrete halfway and let cure.
Pour 2: Gather fibers and redirect ends into electrical wiring cavity. Place PVC piping. Pour concrete into the rest of the formwork. LED CIRCUITRY
PVC Enclosure
Fiber Optics
Material Barrier
Reective Lining
POUR 2POUR 1
After the second pour has cured, place rest of electrical wiring and circuitry system into the PVC enclosure (wiring cavity).
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LED CIRCUITRY
PVC Enclosure
Fiber Optics
Material Barrier
Reective Lining
POUR 2POUR 1
LED CIRCUITRY
PVC Enclosure
Fiber Optics
Material Barrier
Reective Lining
POUR 2POUR 1
ARDUINO
VIBRATION SENSOR
N/C
A0
A1
A2
A3
A4
A5
D4
D3
D2
D1
D0
SCL
D10
D9
D8
D7
D6
D5
D13
D12
D11
IQ REF
AREF
RST Power
3V3 5V VIN
GND
PWM
PWM
PWM
PWM
PWM
PWM
TX
RX
220
LED
RESISTOR
CIRACUITRY SCHEMATIC DIAGRAM
The capacity for electrical wiring embedded in the concrete, with the addition of light-transmitting fiber optics provideds countless opportunities for smart walls.
This examples shows how a vibration-sensitive wall could work. Piezoelectric Vibration sensors can detect minute or large vibrations passing through the wall, and send the signal to an LED once the reading has passed a pre-ordained threshold. The light from the LED can then be transmitted through the concrete wall, illuminating the exterior space.
This would be a sustainable application for exterior lighting at train stations. The walls could detect when people are passing by the building, and illuminate the space only when necessary--reducing costs for exterior lighting.
http://www.learningaboutelectronics.com/Articles/How-to-build-a-touch-sensor-circuit
Schematic drawing derived from:
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FORMWORKPRODUCT
BASEPOUR ROCK-ITE CLAY/TACKY LAYER
TH
E P
RO
CE
SS
6 5 4
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FORMWORK
FORMWORK BODY MESH FIBER OPTICS
3 2 1
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TESSELATIONS
A- TRANSLATION
2-D Wallpapers
D- MIRROR (V) + TRANSLATE (H)B- MIRROR C- MIRROR (H) + TRANSLATE (V)
E- MIRROR + TRANSLATE + MIRROR (H ONLY)
G- MIRROR + TRANSLATE + MIRROR (V ONLY)
F- TRANSLATE + MIRROR + TRANSLATE (H ONLY)
H- TRANSLATE + MIRROR + TRANSLATE (V ONLY)
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I- MIRROR 3 QUADRANTS+ TRANSLATE 1(VERSION 1 OF 4)
I- MIRROR 3 QUADRANTS+ TRANSLATE 1(VERSION 2 OF 4)
I- MIRROR 3 QUADRANTS+ TRANSLATE 1(VERSION 3 OF 4)
I- MIRROR 3 QUADRANTS+ TRANSLATE 1(VERSION 4 OF 4)
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A BThe unit is essentially a concrete masonry unit which is embedded with fiber optics to transmit light, and has a relief on the face that will create a variety of 2-dimensional tesselations when it is either A) translated, or B) rotated.
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The spirit passes lightly through the porous hearth,blurring boundaries.
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P4 HAIKU HOUSE - POROSITY[REVISITED]
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MEADOW SITE - CLEMSON, SC
1 6
2 7
3 8
4 9
5 10
ARCHITECTURE APPLIANCES
ENGINEERING AFFORDABILITY
ENERGY BALANCE MARKETING
OCCUPANT COMFORT
BRANDING/COMMUNICATION
ENTERTAINMENT HOT WATER PRODUCTION
Located in the PiedmontLowlands part of a plateau region called the Piedmont Province. This region stretches along the eastern coast between New Jersey and Alabama, bordered by the Appalachian Mountain Chain to the west and the Coastal Plains towards the east.
The terrain is marked by foothills, low, rolling hills with elevations between 200 ft-800 ft. and 1000 ft.
SOLAR DECATHLON HOME Passive Techniques for Energy Efficiency Environmentally-Integrated Living Occupant Interaction with Space
PRIO
RITI
ES
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The Haiku House recognizes the importance of prexisting conditions, and encourages the user to actively integrate his or herself with the environment. The porous boundaries between interior and exterior, the collective and private, blur the boundaries between habitats while mainting a sense of security where necessary.
Porosity engages with the architecture to produce a phenomenological, experiential connection with the inhabitants, through the manipulation of spatial sequences and visual axes. Porosity alters the way of living by removing the closed shell of a home.
PROC
ESS
654
321
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allowable range(oriented about North axis)
-7.38
74
81.38 8
DIAGRAM: SEASONAL WINDS + IDEAL ORIENTATION
PORO
SITY
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123456789
101112
Entrance RampEntrance DeckKitchenOutdoor Living + Dogtrot #1LivingBathroomLaundryBedroomDogtrot #2Master BedroomMaster BathroomRear Entrance
FLOOR PLAN: LAYOUT + WIND INTERACTION 1/4 = 1
Mos
t Por
ous
Col
lect
ive
Leas
t Por
ous
Leas
t Am
bien
t Lig
htM
ost A
mbi
ent L
ight
Priv
ate
P O
R O
S I
T Y
G
R A
D I
E N
TP
R I
V A
C Y
G
R A
D I
E N
T
L I G
H T
G
R A
D I
E N
T
How do inter-room connections affect the decompression of space?
The relationship of spaces shows a gradient of publc to private spatial sequences.
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NORTHWEST ELEVATION
SOUTHWEST ELEVATION
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ELEVATIONSBELOW: SOUTHEAST ELEVATION
The relationship of spaces shows a gradient of public to private spatial sequences. Walls running along the east-west axis provide porosity relative to the context, visually and spatially. Wall in the north-south axis provide porosity relative to circulation, as well as provide utility use for occupancy comfort.
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STRATEGIESASSE
MBL
Y
HOME AS PROTOTYPE
1
2
3
4
Porous Wall
MODULE EXPLOSION
1 FOUNDATIONS: On-site. Continuous Wall Footings are poured with columns that support the modular rooms. Continuous pressured treated plates span the longitudinal axis of the framework.
2 DECKING: On-site. Decking and Boardwalks are supported by joists, connecting the separate modules.
3 MODULES: Off-site. Each room is pre-fabricated before being brought to the construction site. Modules use light wood framing, clad with gypsum board on the utility walls and operable curtain walls on the por ous walls.
4 ROOF: Off-site. 5V Crimp metal panels, pre-painted white for reflectivity and energy savings, are cut off-site. They are then assembled, along with the sun-tubes on-site, upon pre-fabricated monoslope wooden trusses.
INSULATION
CEILING MATERIAL
1/2 GYPSUM
OPERABLE INSULATED GLASS CURATIN WALL
2 POURED CONCRETE
0.32 ALUMINUM PANEL, PERFORATED (MANUFACTURED BY
ZAHNER)
MODULE FLOOR STRUCTURE
CONTINUOUS PRESSURE-TREATED
PANEL
CONTINUOUS WALL FOUNDATION
PLYWOOD SHEATHING
Suntube SkylightsSource: http://www.sun-dome.com/tubular_sky-light_features.html
PRODUCT EXAMPLE: Sun Dome Tubular Skylights
POLYCARBONATE 0.125 CLEAR DOME
0.040 ALUMINUM ROOF FLASHING
2-1/2 S.S. FLASHING SCREWS
ROOFING CEMENTEXISTING ROOF MATERIAL + PLYWOOD SHEATHINGROOF TRUSS
TOP ADJUSTABLE TUBE
EXTENSION TUBE
BOTTOM ADJUSTABLE TUBE
CEILING ANCHORS1 CEILING SCREWS (ZINC)
CEILING SCREW CAPS
CEILING MATERIAL
ROUGH-CUT HOLE IN ROOF, 1/2 LARGER THAN THE MARKED HOLE
DIAGRAM: Master Bedroom Sun Study
EVENING
AFTERNOON
MORNING
SUN DOME TUBULAR SKYLIGHT DETAIL3/4 = 1
TRANSVERSE SECTION: NORTHWEST-FACING1/4 = 1
WALL SECTION: STANDARD POROUS-WALL CONSTRUCTION3/4 = 1
LONGITUDINAL SECTION: SOUTHWEST-FACING1/4 = 1
Each room is a separate module that has all of its components pre-fabricated and assembled off-site, while another construction team simultaneously builds the foundations and rails for the modules to be attached to.
The modules are composed of light wood framing, clad by gypsum board on the utility walls (for economy and flexibility), while the porous walls are made of operable curtain walls with aluminum perforated panels as sun-shading.
ARCH 8510| Fall 2013STUDENT 1G
Polycarbonate Light Diffuser
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The design focuses on making the original schematic concept (porous living), a comfortable living environment by implementing many techniques to control heat and humidity, as well as provide functionality in the wall system.
The main physical components of the concept entail: Dogtrot Vernacular, Porous/Operable Wall System, Suntube Skylights. These pieces pertain to systems that are either responsive to solar conditions, or responsive to wind conditions.
Systems responsive tosolar conditions
Systems responsive towind conditions
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ASSE
MBL
Y
DIAGRAM: SIMPLE MODULE EXPLOSION
ASSE
MBL
YHOME AS PROTOTYPE
1
2
3
4
Porous Wall
MODULE EXPLOSION
1 FOUNDATIONS: On-site. Continuous Wall Footings are poured with columns that support the modular rooms. Continuous pressured treated plates span the longitudinal axis of the framework.
2 DECKING: On-site. Decking and Boardwalks are supported by joists, connecting the separate modules.
3 MODULES: Off-site. Each room is pre-fabricated before being brought to the construction site. Modules use light wood framing, clad with gypsum board on the utility walls and operable curtain walls on the por ous walls.
4 ROOF: Off-site. 5V Crimp metal panels, pre-painted white for reflectivity and energy savings, are cut off-site. They are then assembled, along with the sun-tubes on-site, upon pre-fabricated monoslope wooden trusses.
INSULATION
CEILING MATERIAL
1/2 GYPSUM
OPERABLE INSULATED GLASS CURATIN WALL
2 POURED CONCRETE
0.32 ALUMINUM PANEL, PERFORATED (MANUFACTURED BY
ZAHNER)
MODULE FLOOR STRUCTURE
CONTINUOUS PRESSURE-TREATED
PANEL
CONTINUOUS WALL FOUNDATION
PLYWOOD SHEATHING
Suntube SkylightsSource: http://www.sun-dome.com/tubular_sky-light_features.html
PRODUCT EXAMPLE: Sun Dome Tubular Skylights
POLYCARBONATE 0.125 CLEAR DOME
0.040 ALUMINUM ROOF FLASHING
2-1/2 S.S. FLASHING SCREWS
ROOFING CEMENTEXISTING ROOF MATERIAL + PLYWOOD SHEATHINGROOF TRUSS
TOP ADJUSTABLE TUBE
EXTENSION TUBE
BOTTOM ADJUSTABLE TUBE
CEILING ANCHORS1 CEILING SCREWS (ZINC)
CEILING SCREW CAPS
CEILING MATERIAL
ROUGH-CUT HOLE IN ROOF, 1/2 LARGER THAN THE MARKED HOLE
DIAGRAM: Master Bedroom Sun Study
EVENING
AFTERNOON
MORNING
SUN DOME TUBULAR SKYLIGHT DETAIL3/4 = 1
TRANSVERSE SECTION: NORTHWEST-FACING1/4 = 1
WALL SECTION: STANDARD POROUS-WALL CONSTRUCTION3/4 = 1
LONGITUDINAL SECTION: SOUTHWEST-FACING1/4 = 1
Each room is a separate module that has all of its components pre-fabricated and assembled off-site, while another construction team simultaneously builds the foundations and rails for the modules to be attached to.
The modules are composed of light wood framing, clad by gypsum board on the utility walls (for economy and flexibility), while the porous walls are made of operable curtain walls with aluminum perforated panels as sun-shading.
ARCH 8510| Fall 2013STUDENT 1G
DIAGRAM: ASSEMBLY EXPLOSION
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Each room is a separate module that has all of its components pre-fabricated and assembled off-site, while another construction team simultaneously builds the foundations and rails for the modules to be attached to.
The modules are composed of light wood framing, clad by gypsum board on the utility walls (for econ-omy and flexibility), while the porous walls are made of operable curtain walls with aluminum perforated panels as sun-shading.
Separate Kitchen KITCHEN AND DINING: Adjacent to Front entrance7:00 AM - Summer Solstice
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LONGITUDINAL SECTION: Spatial Sequences
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INSULATION
CEILING MATERIAL
1/2 GYPSUM
OPERABLE INSULATED GLASS CURTAIN WALL
0.32 ALUMINUM PANELPERFORATED (MANUFACTURED BY ZAHNER)
MODULE FLOOR STRUCTURE
CONTINUOUS PRESSURE-TREATED
PANEL
CONTINUOUS WALL FOUNDATION
PLYWOOD SHEATHINGPLYWOOD SHEATHING
Porous WallWALL SECTION: STANDARD POROUS-WALL CONSTRUCTION3/4 = 1
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TRANSVERSE SECTION: Porous Walls + Utility Walls
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LIVI
NG
Indoor Living
LIVING ROOM - Adjacent to bathroom and two small bedrooms1:30 PM - Summer Solstice
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OutdoorLiving
OUTDOOR DINING: Adjacent to Living room and Kitchen5:30 PM - Summer Solstice
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CO
NTA
CT ELIZABETH COONEY
119 FERN CIRCLECLEMSON, SC 29631
803.448.9222
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THANK YOU.