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Stephen Stewart
M.Arch
UC Berkeley, CED
Recent Employment
UC Berkeley, College of Environmental Design. Media instruc-tor.
May-August 2013Prepared and presented lectures and directed workshops on both digital and analog forms of design and represen-tation for the Summer InArch program. Including hand drafting, physical modeling, adobe suite, rhino 3d and other rendering softwares and techniques.
CAS Architects, Mountain View, CA. Intern.May-August 2012Assisted with site & building documentation, updated firm’s website and construction details.
UC Berkeley, College of Environmental Design. Research As-sistant.
May-August 2012Researched, documented and cataloged the work of a former Berkeley landscape professor for future University use.
Awards & Competitions
“European Workshop Waterfront Urban Design,” participant. Lusofona University, 2014One of three UC Berkeley students sponsored to par-ticipate in a one week international design workshop in Lisbon, Portugal.
“Vertical Cities” International Competition, participant.National University of Singapore, 2013Created a high-density urban design for 100,000 people in Hanoi, Vietnam. Added emphasis on local food produc-tion and distribution for the residents.
“Fluid Adagio” International Competition, finalist.AIA Utah, 2010One of five finalists chosen from 67 entries to design and build an 18 month installation on the future site of the Bal-let West Center in downtown Salt Lake City.
“Eve” Competition, winner.Salt Lake City Downtown Alliance, 2009Designed and built an installation for Downtown SLC’s New Year’s Celebration.
Adolfo Cruz Memorial Fellowship 2013-2014
College of Environmental Design Fellowship 2012-2014
Education
UC Berkeley, M. ArchCollege of Environmental DesignAugust 2011-Present3.65 GPA
University of Utah, B.S. Architectural StudiesCollege of Architecture and PlanningJanuary 2009- May 20113.6 GPA
Skills
3d Modeling & Visualization Software• Rhino• Grasshopper• 3DS Max• Revit• AutoCad• Google Sketchup• VRay• Maxwell
Graphic Design Software• Photoshop• InDesign• Illustrator
Language• Portuguese (fluent)• Spanish (proficient)
Stephen Stewart
Address
Phone 580 Ohlone Ave. Apt. 203, Albany, CA. 94706
(801) 372-2365Website doublestewart.com
EdgeCity
Location Hanoi, VietnamInstructor Renee ChowSemester Spring 2013Type Urban Design
Hanoi Bamboo Facade
Location Hanoi, VietnamInstructor Mark AndersonSemester Spring 2013Type Green Facade
Light Carving
Location San Francisco, CaliforniaInstructor Roddy Creedon/David BakerSemester Fall 2013Type Office/Residential/Commercial
Urban Winery
Location San Francisco, CaliforniaInstructor Danelle GuthrieSemester Fall 2012Type Commercial/Production
Deutsche Kinemathek Film Archive
Location Berlin, GermanyInstructor Mark Anderson/Renee ChowSemester Spring 2012Type Public/Commercial
Berlin Free Philological Li-brary Model
Location Berlin, GermanyTeammates Ben Golze, Max EdwardsInstructor Mark A./ Renee CSemester Spring 2012Type Model
Pt. Bonita Learning Center
Location Sausalito, CaliforniaInstructor Kyle SteinfeldSemester Fall 2011Type Public/Educational
Utah College of Architecture + Planning Satellite
Location Salt Lake City, UtahInstructor Marco BagnasaccoSemester Spring 2011Type Institutional
Los Angeles Cultural Center
Location Los Angeles, CaliforniaInstructor William MillerSemester Spring 2010Type Public
Summer CubesSalt Lake CityEve Competition
Location Salt Lake City, UtahTeammates Nathan RussellSemester Fall 2009Type Installation
Everyone Is a Performer
Location Salt Lake City, UtahInstructor Brenda ScheerSemester Fall 2010Type Installation/Competition
Site F.A.R: 4.2Bar F.A.R: 7.0Site Production: 1,841,105 kg produce
Edge City, is a new vision for integration of urban and agricultural systems in Hanoi, Vietnam. The project re-envisions the potential of an urban growth boundary. Located 17 km West of Hanoi’s city center, EdgeCity is a one-square kilometer site along one of several proposed ring highways slated to provide North-South auto access around Hanoi’s urban edge. According to the Hanoi 2030 masterplan, Ring Road 4 will be the outermost highway to the west of Hanoi. Beyond it, hundreds of thousands of hectares of agricultural land are the economic engine of Hanoi’s food economy, feeding the 6.5 million residents in the metropolitan region. Instead of an urban edge demarcated by the line created by the highway, EdgeCity creates an interface, leveraging the economic linkage between fresh food production and consumption to design an urban fabric that better integrates the urban/agricultural edge. The project is a prototype of a spatial concentration of an integrated food economy where fresh food production, storage, packaging, processing and distribution exist together along a dynamic corridor. Therefore, the project proposes a phased development that arises from the agricultural land-scape, ensuring safe water treatment systems and flood management for residents and fields. The result is a vibrant place where people can live and work along the urban edge, close to agriculture, and connected to the source of their food. Group Project, work produced with: Benjamin Golze, Michelle Gonzales, Anna Konotchick, Edward Reifenstein, Jennifer Siqueira, Monica Way, Leo X. Zhao
INTERCONNECTED SYSTEMS
EdgeCity is cited along the urban boundary to re-envision its potential.
EDGE AS INTERFACE
Edge as interface views agriculture as a resource to be engaged, not developed.+
=
URBAN EDGE BOUNDARYEDGE AS INTERFACE EDGE AS INTERFACE
Incoming fresh food is packaging and distributed at the edge.
Food is also retailed + consumed right here.
EDGE AS LINE EDGE AS LINE
Incoming fresh food is sentto separate processing, packaging +
distribution centers. Occasionally it even returns here through the distribution chain.
EDGE AS INTERFACE EDGE AS INTERFACE
Incoming fresh food is packaging and distributed at the edge.
Food is also retailed + consumed right here.
EDGE AS INTERFACE
Incoming fresh food is packaging and distributed at the edge.
Food is also retailed + consumed right here.CLEAN WATER
CONNECTION COMPACT LIVING
HARVESTING
ECONOMY
Farmland
Processing and distribution
Field dimensions
Open space
Agricultural service roads
Constructed wetland
Urban drainage wetland
Irrigation canals
Tail water re-use canals
Existing water
Tile drainage canals
Existing roads
Pedestrian access
Market road
Neighborhood roads
Tertiary connectors
Agricultural distribution road
Light rail station
Built zone
Built dimensions
Existing buildings
Civic buildings
Open space
EdgeCity
Location Hanoi, VietnamInstructor Renee ChowSemester Spring 2013Type Urban Design
Site F.A.R: 4.2Bar F.A.R: 7.0Site Production: 1,841,105 kg produce
TODAYInfrastructure of canals, wetlands and service roads makes entire site available for healthy farming and clean water.
As more facilities collect along spine road, residential and co-mmercial development begins along east-west connectors.
East-west levee roads connect to existing villages, while pro-cessing and distribution facilities collect a north-south spine.
Infrastructure of canals, wetlands and service roads makes entire site available for healthy farming and clean water.
GROWING
WORKING
LIVING
EDGE AS INTERFACE
Incoming fresh food is processed, packaging and distributed at the edge.
Food is also retailed + consumed right here.
C
EDGE AS INTERFACE
Incoming fresh food is processed, packaging and distributed at the edge.
Food is also retailed + consumed right here.
EDGE AS INTERFACE
Incoming fresh food is packaging and distributed at the edge.
Food is also retailed + consumed right here.
Agriculture Sector Engaged Along the EdgeEdgeCity is a prototype of a spatial concentration of an integrated food economy where fresh food production,storage, packaging, processing and distribution exist together along a dynamic corridor. Farmers experiencing job loss as the city moves outward can work off-the-field, but with the sector
Agriculture So Viable, It Can Resist DevelopmentAs Hanoi’s rural areas are converted, development has the option to integrate with the agricultural landscape. The fieldswithin and near EdgeCity have higher productivity due to healthy, pesticide-free soil and clean water infrastructure.
6 FOUR (4) LEVELS OF GROUND
For protection from �ooding, the landscape is organized in 4 levels of ground. Roads function as levees. Built development is set back and up when hugging the �ood plain to protect from rising water. When possible, greater setbacks widen the �ood plain, allowing the waterway to move more freely.
7 ROBUST FOOD PRODUCTION, DISTRIBUTION + RETAILING
Crops are grown on 39,826 ha of land in Hanoi. Only less than 2.0% of this land area is in urban Hanoi. Peri-urban vegetable production around Hanoi contributes greatly to urban markets. There are three primary farmer groups: vegetable farmers, diversi�ed plant-based farmers, and rice farmers. 1
1 Mai Thi Phuong Anh. “Urban and Peri-Urban Agriculture in Hanoi” (2004).
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FL
OO
D P
LA
INL
EV
EE
S
TYPOLOGICAL RELATIONSHIPS
WIDE FLOOD PLAIN
WIDE FLOOD PLAIN 1 SETBACK & 1 WIDE PLAIN
LEVEE AGAINST CANAL& 1 WIDE FLOOD PLAIN
TWO SETBACKS CONSTRAINED FLOODPLAIN
4 LEVELS OF GROUND
treated at the building level, stored andduring winter months of water deficit,
untreated grey and rain water
untreated stormwater
water flow
water flow
culvert and directed through fields.
agricultural drainagetailwater (surface drainage water containing nutrients)is treated and transported back to fields for reuse.
(sub-surface drainage water containing high levels of salt, nitrates, and phosphorus) is directedto constructed wetlands drainage canal for treatment at center of site
Stormwater is directed south at built edge and treated in bioswales and sand filters en-route to central wetland canal.
Clean irrigation water is transported, tail water drains and is pumped south for reuse. Tile water with high levels of salts, nitrates and phosphorous is treated on-field in constructed wetlands.
Domestic grey and rainwater is treated and stored at the buildings. During winter months of water de-ficit, this clean irrigation water is sent to the fields.
FOOD PROCESSING AND DISTRIBUTION
treated at the building level, stored andduring winter months of water deficit,
untreated grey and rain water
untreated stormwater
water flow
water flow
culvert and directed through fields.
agricultural drainagetailwater (surface drainage water containing nutrients)is treated and transported back to fields for reuse.
(sub-surface drainage water containing high levels of salt, nitrates, and phosphorus) is directedto constructed wetlands drainage canal for treatment at center of site
Stormwater is directed south at built edge and treated in bioswales and sand filters en-route to central wetland canal.
Clean irrigation water is transported, tail water drains and is pumped south for reuse. Tile water with high levels of salts, nitrates and phosphorous is treated on-field in constructed wetlands.
Domestic grey and rainwater is treated and stored at the buildings. During winter months of water de-ficit, this clean irrigation water is sent to the fields.
treated at the building level, stored andduring winter months of water deficit,
untreated grey and rain water
untreated stormwater
water flow
water flow
culvert and directed through fields.
agricultural drainagetailwater (surface drainage water containing nutrients)is treated and transported back to fields for reuse.
(sub-surface drainage water containing high levels of salt, nitrates, and phosphorus) is directedto constructed wetlands drainage canal for treatment at center of site
Stormwater is directed south at built edge and treated in bioswales and sand filters en-route to central wetland canal.
Clean irrigation water is transported, tail water drains and is pumped south for reuse. Tile water with high levels of salts, nitrates and phosphorous is treated on-field in constructed wetlands.
Domestic grey and rainwater is treated and stored at the buildings. During winter months of water de-ficit, this clean irrigation water is sent to the fields.
treated at the building level, stored andduring winter months of water deficit,
untreated grey and rain water
untreated stormwater
water flow
water flow
culvert and directed through fields.
agricultural drainagetailwater (surface drainage water containing nutrients)is treated and transported back to fields for reuse.
(sub-surface drainage water containing high levels of salt, nitrates, and phosphorus) is directedto constructed wetlands drainage canal for treatment at center of site
Stormwater is directed south at built edge and treated in bioswales and sand filters en-route to central wetland canal.
Clean irrigation water is transported, tail water drains and is pumped south for reuse. Tile water with high levels of salts, nitrates and phosphorous is treated on-field in constructed wetlands.
Domestic grey and rainwater is treated and stored at the buildings. During winter months of water de-ficit, this clean irrigation water is sent to the fields.
EXISTING TUBE HOUSE TYPOLOGY EDGECITY TUBE HOUSE TYPOLOGY
DOMINANT ARCHITECTURAL TYPOLOGY:THE TUBE HOUSE
The “tube house” is the most common architecturaltypology for both urban and rural Hanoi, Orignally Asiancourtyard houses squeezed into elongated lots as atax-saving measure, the tube houses were eventuallyfilled in and built up as Hanoi residents faced populationpressure and increasing land prices. While this typologyof tall, narrow buildings creates a uniquely vibrantstreetscape of mixed uses and social connections, thedensity of the infill means units deep in the block havepoor access to light and air.
Narrowest Tube House: 1.3 meters
Inspired by Hanoi’s tube house typology, long narrow lots allow for incremental develop-ment, high density, and a varied streets cape of mixed uses. When scaled up, tube houses have increased capacity for different uses, while also providing density at higher standards. Deep, narrow plots allow in-creased density while maintaining human scale at the street.
THE TUBE HOUSE
connector platesbolted to frame
150x100 mm tube steel arms
100 mm vertical bamboow/ wire for planting
bamboo to steel connecting bolts
bamboo to steel connecting bolts
connector plates bolted to steel tube arms
75x90 mm tube steelw/tracks for bamboo screen
75 mm bamboo overhang screen on bamboo rolling track
screen w/75 mm bamboo, 75 mm gapsconnected with 50 mm vertical hinged
steel pipes attached to tube steel members
screen rollers attached to vertical steel pipes
75 mm bamboo flooring w/12.5 mm gaps for air circulation
rotating sleeve attachedto vertical rollers for
screen folding
fully open partially open
fully closed
Hanoi Bamboo Facade
Location Hanoi, VietnamInstructor Mark AndersonSemester Spring 2013Type Green Facade
connector platesbolted to frame
150x100 mm tube steel arms
100 mm vertical bamboow/ wire for planting
bamboo to steel connecting bolts
bamboo to steel connecting bolts
connector plates bolted to steel tube arms
75x90 mm tube steelw/tracks for bamboo screen
75 mm bamboo overhang screen on bamboo rolling track
screen w/75 mm bamboo, 75 mm gapsconnected with 50 mm vertical hinged
steel pipes attached to tube steel members
screen rollers attached to vertical steel pipes
75 mm bamboo flooring w/12.5 mm gaps for air circulation
rotating sleeve attachedto vertical rollers for
screen folding
fully open partially open
fully closed
In a construction course taken at the same time as the EdgeCity studio I designed this facade which could be applied to the housing units in order to provide its users the chance to supplement their produce production. Rather than fully define the entire facade condition, this design provides a flexible framework, allowing each individual user the opportunity to adapt it to their specific needs. Vertical bamboo shafts provide space to create small vertical gardens while gaps within the bamboo screens give space for plants. The adjustable screen facades, which can both slide horizontally of fold verti-cally create various conditions for the user in response to light and air helping regulate temperatures in Hanoi’s often hot and humid climate. In particularly hot times of the year an overhead bamboo screen can slide out to help minimize the amount of direct light into the patio. Finally within the bamboo flooring, small gaps allow for greater vertical air circulation.
Light Carving
Location San Francisco, CaliforniaInstructor Roddy Creedon/David BakerSemester Fall 2013Type Office/Residential/Commercial
This mix-use tower explores the relation of light, landscape and archi-tecture at multiple scales. Within its dense urban context the tower reinterprets the standard tower and podium typology to create a singular form shaped to provide access to light for the smaller sur-rounding buildings and the center of the development, Mission Rock Park. The building is wrapped in a responsive electro-active polymer facade. With the application of an electrical current, these narrow bands rotate in relation to the sun’s position and desired lighting condition within the spaces, whether they be commercial, public or private. The responsive facade recedes is interrupted at the street level, establishing clear links between the building and its urban street context. The interruption also allows the opportunity for the park to extend beyond its delineated boundaries, cutting a canyon through the building’s facade, creating green vertical connections at every floor. The ground floor combines public, office and commercial spaces. The bottom 13 floors are designed as open large plate offices spaces, with a large atrium creating connections between floors. The upper floors are designated for small scale apartment spaces.
1. The original brief calls for a typical tower atop a podium base.
6. The angular form creates a series of terraced floors, providing interior and exterior spaces at each level.
2. The tower is shifted away from the park toward the north-west corner, and expanded in all 3 directions.
5. For structural purposes the form is subdivided into triangles.
4. The remains of the tower are closed to create a mountainous form.
6. The angular form creates a series of terraced floors, providing interior and exterior spaces at each level.
8. The floors are pushed inward to provide shad-ing, and the facade is divided into a series of narrow rotating bands.
2. The tower is shifted away from the park toward the north-west corner, and expanded in all 3 directions.
3. The larger tower can now be carved in order to provide greater sun access to the Mission Rock Park.
7. The angular facade is carved away by a series of verti-cal hanging gardens connecting to Mission Rock Park.
east elevation
fully closed fully open “checkerboard”
horizontal gradient vertical gradient
The aggregated composition of the facade al-lows the users to control the quality of light at the scale of the individual. Taken together, these choices are read from the exterior, becoming a collage of rippling white waves washing over the facade and continually changing throughout the day and. Shown here are several common compo-sitions manifested through the southern facade.
Bo
squ
e S
treet
Park
ing
Gara
ge
3rd Street
N
ground floor plan
caferestaurant
office
office
retail
retailresidential
lobby
service for the retail
retail “porch” con-necting to the park
park extension
outdoor space for event street vending
initial EAP configuration
EAP deformation as a result of applied electrical potential
Na+H20pt coating
initial EAP configuration
EAP deformation as a result of applied electrical potential
Na+H20pt coating
Bo
squ
e S
treet
Park
ing
Gara
ge
3rd Street
N
18th floor plan
initial EAP configuration
EAP deformation as a result of applied electrical potential
Na+H20pt coating
The the building’s facade is comprised of two spatial conditions. The first creates a patio veiled by the twisting electro-active polymer screen. And the second provides a patio bordered by continuous planters, whose plants spill over to create a series of hanging gardens.
18th floor
floors 1-5 ~ 39,000 sf
floors 6-13 ~ 27,750-11,500 sf
floors 14-25 ~ 10,200-1,350 sf
light void forms
light funnelroofscape
ground floorlight projection
light penetrationexteriorone leveltwo levels
wall apertures
The winery, accustomed to its typical setting within an orchard landscape, has found a new home within the urban context of San Francisco. The visual relationship has shifted from an outward observation of the beautiful vineyards, to an inward focus on the production and aging of the wine. This inward focus is manifested within the facade of the winery, creating a wide range of light conditions and small glimpses of the building. Sections of blank facades are placed at either end, fram-ing the parametric stone facade, which appears to be eroding, revealing small cracks of light and views, and 6 projecting apertures, which pull the viewer in to building, where they will see aging barrels of wine and public wine tastings. These framed views act as advertisements for the winery and its product. At the entrance of the building a brief culmination of visual connection occurs as the visitor can view from one end of the building to the other, revealing a full range of wine pro-duction spaces as well as the outdoor grape receiving and crushing area. The different programmatic elements make use of exterior space in a variety of ways. Small courtyards provide light and air to the offices and dwellings, while the event and tasting spaces take advantage of large outdoor patios, where visitors can enjoy a glass of wine outdoors. As an infill site, ac-cess to light is limited to just two elevations. Treating the roof as a “horizontal façade” provides a recovery of these essential elements. This new architectural layer provides light and views of the sky to the public, office and even the deepest “caves” of wine production and storage. A series of skylights, clerestory windows and open courtyards are created to take advan-tage of the relatively small program to infuse the interiors with various qualities and shades of light.
Urban WineryLocation San Francisco, CaliforniaInstructor Danelle GuthrieSemester Fall 2012Type Commercial/Production
controlledwine storage
wc
wine production
storage
storage
tools/equipment
wine tasting
events
section aa
wine production
dwellinglab
controlledwine storage
storage
storagestorage
wc
dwelling
section dd 1/8”=1’
section dd
dropped ceiling
slate tile exterior �nish
wood panel interior finish
white plaster finish inside the light wells
composite steel andconcrete structure
wall sections
managment
wc wcegresslaboratory
section cc 1/8”=1’
controlled wine production
section cc
wine tasting
events
barrel storage
wine production
dwelling dwelling
section bb 1/8”=1’
section bb
eventsevents patio
a
c
a d
d
b b
c
barrel storage
mechanicaltools/equipment
grape receiving & crushingprocessing
controlled fermenting & processingcontrolled wood tanks
wood tanks
fermenting & processing
2
1
tasting & selling
tastingpatio
barrel storage
case storage
bottling
�nalstorage
management o�ce patio
dwelling
dwelling
dwelling
lab & tasting
light shaft
light shaft
light shaft light shaft
light shaft
light shaft
light shaft
light shaft
elev
elev
elev
elev
dwelling
light shaft light shaft
ground floor plan
eventsevents patio
a
c
a d
d
b b
c
barrel storage
mechanicaltools/equipment
grape receiving & crushingprocessing
controlled fermenting & processingcontrolled wood tanks
wood tanks
fermenting & processing
2
1
tasting & selling
tastingpatio
barrel storage
case storage
bottling
�nalstorage
management o�ce patio
dwelling
dwelling
dwelling
lab & tasting
light shaft
light shaft
light shaft light shaft
light shaft
light shaft
light shaft
light shaft
elev
elev
elev
elev
dwelling
light shaft light shaft
eventsevents patio
a
c
a d
d
b b
c
barrel storage
mechanicaltools/equipment
grape receiving & crushingprocessing
controlled fermenting & processingcontrolled wood tanks
wood tanks
fermenting & processing
2
1
tasting & selling
tastingpatio
barrel storage
case storage
bottling
�nalstorage
management o�ce patio
dwelling
dwelling
dwelling
lab & tasting
light shaft
light shaft
light shaft light shaft
light shaft
light shaft
light shaft
light shaft
elev
elev
elev
elev
dwelling
light shaft light shaft
second floor plan
third floor plan
An extension to Berlin’s Film Archive, the Kinemathek’s primary design strategy mimics the dual directional grid diagram found in a precedence study of the nearby Berlin Free University. The main programmatic elements (theaters, library, etc.) are set within the large north-south bands, which run perpendicular to several east-west “bridge” connecting paths. The structure, mullions and furniture are designed and aligned to help reinforce the overall dual directionality. The various glazed bands allow maximum light penetration and visibility into an otherwise shady block. Wrapping around the upper half of the building is a large scrim which acts as space to project films and images, increasing the building’s visibil-ity to the many passing trains and the museum island visitors.
Deutsche Kinemathek Film Archive
Location Berlin, GermanyInstructor Mark Anderson/Renee ChowSemester Spring 2012Type Public/Commercial
a a
b b
first floor second floor
north elevation
section aa
section bb
museum island
spree
pergamon
friedrichstrasse commercial approach
museum
approach
site map site map
The Film Archive finds itself at the cor-ner intersection between one of Berlin’s busiest international S-Bahn lines and the city’s famous Museum Island. The location gives the building the opportu-nity to project itself to visitors traveling at high speeds on passing trains and pedestrian visitors as the enter and exit the Pergamon museum across the Spree river.
gallery
gallerykitchentheater
lobby ticketbooth
cafeseatingvertcirc
vert
circ
entrance
skylightservice
entrance
program 1st floor
theater
theateradmin
libra
rylibrary
archive
seating
skylight
vertcirc
service
studystudy
program 2nd floor
The Film Archive finds itself at the cor-ner intersection between one of Berlin’s busiest international S-Bahn lines and the city’s famous Museum Island. The location gives the building the opportu-nity to project itself to visitors traveling at high speeds on passing trains and pedestrian visitors as the enter and exit the Pergamon museum across the Spree river.
gallery
gallerykitchentheater
lobby ticketbooth
cafeseatingvertcirc
vert
circ
entrance
skylightservice
entrance
program 1st floor
theater
theateradmin
libra
rylibrary
archive
seating
skylight
vertcirc
service
studystudy
program 2nd floor
This sectional model was the final part of a precedence study of tec-tonic articulation in modern architecture in preparation for the studio’s Spring trip to Berlin. Norman Foster’s library addition to the Berlin Free University and its dome form have become an icon of modern Berlin. Using a space frame, the outer shell was able to stand without the need for interior columns. This innovative structure and its spatial relationship to the inserted floor plates became the focus of the model. The con-struction of the model combined both digital and analog tools. Begin-ning with the modeling of the space frame in Rhino the individual pieces were sized, ordered and layed out to laser cut using Grasshopper. The final assembly required gluing over 1,700 individual pieces. Several coats of paint were added to achieve the iconic yellow form, and a small sec-tion of translucent panels were placed to give better understanding of the interior light qualities.
Berlin Free Philological Library ModelLocation Berlin, GermanyTeammates Ben Golze, Max EdwardsInstructor Mark A./ Renee CSemester Spring 2012Type Model
Combining both group and individual observatory spaces with exhibition and display spaces the Pt. Bonita Learning Center provides the visitor with an opportunity to pause, reflect and better understand their sur-roundings. Straddling the existing path, the Learning Center is divided into two main sections. On the west a series of subdividing vertical walls respond to the drastic cliff topography, dense fog and strong winds. The visitor is never fully protected from the elements, creating a more immersive experience. On the east side, with natural protection from the elements, a singular lofted surface is allowed to enclose larger group spaces. On the bottom floor the main exhibition spaces act as a connec-tion point between to two distinctly different spaces. Traveling visitors will be given various new opportunities to experience the Pt. Bonita site.
Pt. Bonita Learning Center
Location Sausalito, CaliforniaInstructor Kyle SteinfeldSemester Fall 2011Type Public/Educational
floor plates
interior walls
exterior shell
exploded axon
section bb
0 50
site plan
a a
b
b
a a
plan -1
plan -2
plan 0
0 50
a a
section bb
0 50
site plan
a a
b
b
a a
plan -1
plan -2
plan 0
0 50
a a
section aa
section aa
section cc
section bb
The expansion of the University of Utah’s College or Architecture and Planning calls for a separate building located in the urban setting of down-town Salt Lake City. This new opportunity calls for a new type of building, connecting students, professors and the general public. Breaking down the physical and visible barriers separating these groups will increase pro-fessor involvement and increase the communities awareness of the school, while bringing students closer to the built environment. The flexibility of the spaces allows for freedom in the inclusion of other disciplines such as engineering or even business in order to diversify the educational experi-ences of the students. Four concrete “anchors” punctured with stripped windows provide controlled views, air circulation and sun exposure. Con-necting these anchors are three bridges, treated with glazing to allow for greater levels of connection. An alley way through the middle of the site is left open to allow for connection between both ends of the site.
Utah College of Architecture + Planning Satellite
Location Salt Lake City, UtahInstructor Marco BagnasaccoSemester Spring 2011Type Institutional
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Section aa 1/8”=1’
June 21
March/September 21 48
December 21
Sun Angles
Section aa
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Section bb
Section bb
Utah College or Architecture + Planning Satellite. Salt Lake City, Utah.The expansion of the Univerisy of Utah’s College or Architecture and Planning calls for a seperate building located in the urban setting of downtown Salt Lake City. This new opportunity calls for a new type of building, connecting students, professors and the general public. Breaking down the physical and visible barriers seperating these groups will increase professor involvement and increase the communities awareness of the school, while bringing students closer to the built environment. The flexibility of the spaces allows for freedom in the inclusion of other disciplines such as engineering or even business in order to diversify the educational experiences of the students. Four concrete “anchors” punctured with stripped windows provide controlled views, air circulation and sun exposure. Connecting these anchors are three bridges, treated with glazing to allow for greater levels of connection. An alley way through the middle of the site is left open to allow for connection between both ends of the site.
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Comparing the programatic possibilites of the new building with our current building, a great opportunity to connect students, faculty and the public arises. Giving more opportunities for interaction between the three groups.
studio 15,548.025 39.7%
o�ces 5,080.725 13%
lab 674.55 1.7%
plotter 324.975 .8%
photo 654.375 1.7%
lecture 1,578.1125 4%
shop 1,999.35 5%
con room 342.7875 .9%
lounge 1,061.4375 2.7%
bailey 3,385.65 8.7%
library 201 .5%
classroom 958.9875 2.5%
personal 2500 11.9%
labs 6000 28.6%
admin 500 2.4%
plotter 50 .2%
gallery 2000 10%
classrooms 1000 4.8%
lecture 2500 12%
study 400 1.9%
library 200 1%
cafe 300 1.4%
pinup 1000 4.8%
CONNECTIONvs
SEPERATION
current building proposed program
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Section aa 1/8”=1’
June 21
March/September 21 48
December 21
Sun Angles
Section aa
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Section bb
Section bb
Utah College or Architecture + Planning Satellite. Salt Lake City, Utah.The expansion of the Univerisy of Utah’s College or Architecture and Planning calls for a seperate building located in the urban setting of downtown Salt Lake City. This new opportunity calls for a new type of building, connecting students, professors and the general public. Breaking down the physical and visible barriers seperating these groups will increase professor involvement and increase the communities awareness of the school, while bringing students closer to the built environment. The flexibility of the spaces allows for freedom in the inclusion of other disciplines such as engineering or even business in order to diversify the educational experiences of the students. Four concrete “anchors” punctured with stripped windows provide controlled views, air circulation and sun exposure. Connecting these anchors are three bridges, treated with glazing to allow for greater levels of connection. An alley way through the middle of the site is left open to allow for connection between both ends of the site.
1. Studio2. Cafe3. Restrooms4. Auditorium5. Projector/Storage6. Library/Computer Lab
7. Classroom8. Gallery9. Oces10. Student Storage11. Study/Pin-Up12. Roof Garden
12
3
3
4
5
6
7
8
9
10
11
129
6
611
1
3
3
1
aa
bb
cc
1st floor 1/8”=1’ 2nd floor 3rd floor
Comparing the programatic possibilites of the new building with our current building, a great opportunity to connect students, faculty and the public arises. Giving more opportunities for interaction between the three groups.
studio 15,548.025 39.7%
o�ces 5,080.725 13%
lab 674.55 1.7%
plotter 324.975 .8%
photo 654.375 1.7%
lecture 1,578.1125 4%
shop 1,999.35 5%
con room 342.7875 .9%
lounge 1,061.4375 2.7%
bailey 3,385.65 8.7%
library 201 .5%
classroom 958.9875 2.5%
personal 2500 11.9%
labs 6000 28.6%
admin 500 2.4%
plotter 50 .2%
gallery 2000 10%
classrooms 1000 4.8%
lecture 2500 12%
study 400 1.9%
library 200 1%
cafe 300 1.4%
pinup 1000 4.8%
CONNECTIONvs
SEPERATION
current building proposed program
1
233
45
67aa
b c
b c
1st floor 1/8”=1’
7. Classroom8. Gallery9. Offices
11
121
1
3rd floor
1. Studio2. Cafe3. Restrooms
8
9
10
9
6
6
1133
2nd floor
4. Auditorium5. Projector/Storage6. Library/Computer Lab
10. Student Storage11. Study/Pin-Up12. Roof Garden
1
233
45
67aa
b c
b c
1st floor 1/8”=1’
7. Classroom8. Gallery9. Offices
11
121
1
3rd floor
1. Studio2. Cafe3. Restrooms
8
9
10
9
6
6
1133
2nd floor
4. Auditorium5. Projector/Storage6. Library/Computer Lab
10. Student Storage11. Study/Pin-Up12. Roof Garden
1
233
45
67aa
b c
b c
1st floor 1/8”=1’
7. Classroom8. Gallery9. Offices
11
121
1
3rd floor
1. Studio2. Cafe3. Restrooms
8
9
10
9
6
6
1133
2nd floor
4. Auditorium5. Projector/Storage6. Library/Computer Lab
10. Student Storage11. Study/Pin-Up12. Roof Garden
Section aa 1/8”=1’
Sun Angles
June 21
March/September 21
December 21
Section aa
1. Studio 5. Projector/Storage 9. Offices2. Cafe 6. Library/Computer Lab 10. Student Storage3. Restrooms 7. Classroom 11. Study/Pin-Up4. Auditorium 8. Gallery 12. Roof Garden
1st floor
2nd floor
3rd floor
Section bb
Access to sunlight is limited due to the size of the surrounding structures. Maximizing the use of this limited sunlight is crucial to overall design. The orientation of the building allows for large amounts of glazing on the north facade, one of the two main facades. With short windows and thick walls the south facade could be used to block direct summer light while allowing winter light to enter more freely.
Site Sun Study
South Elevation 1/8”=1’
Section cc
1. due to the lack of green space in the surrounding area and the extreme heatisland that this creates, a green roof is on two of the roofs of the ca+p satellite.
2. rain water is directed and collectedon the roof to help water the plants duringthe hot/dry summer.
3. due to concrete’s poor insulation factor,extra rigid insulation is used. 9 inches of insulation sit in between the layers of concrete.
4. aside from lighting, the highest strip windows can be opened in order to allowair circulation, and perform night flushingwhen needed.
5. the electrial and air ducts are not hiddenunder a dropped ceiling. rather the are exposed, following the circulation pathsthroughout the building. in this way theybecome expressions of the architectureand the concept of the building.
6. with the gap between the two southbuildings light is led down to the publicalley, creating a more pleasant space andindirectly lighting the central plaza. likewisethe alley that runs through the middle of the site allows wind to cool these areas,while removing the heat from below thebridges that span above the public spaces.
Section cc
3
1 2
2. green roof drainageparapet green roof drainage wall/floor
concrete slab
insulation
water barrier
sloped metalflashing/capping
sloped planting
engineered soiling
gravel filter
root barrier
water barrier
insulation
concrete
aeration layer
concrete facade
insulation
concrete floor on metal deck
connection
beam
joist
1. parapet 3. wall/floor
Section bb south elevation
Fluid Adagio International Competition, 1 of 5 Finalists Chosen from 67 Entries from 13 Countries. Even though we may deny it, we are all performers every day of our lives. Throughout each day we are presented with various audi-ences, stages and stage props. It is up to us to perform. Seven concrete stages, topped with various day-to-day stage props are placed throughout the space. The props are dipped in monochromatic rubber to create a stylized and sur-real affect. These familiar, yet bizarre objects will peak the pedestrians’ interest. Once they enter the space they are able to use the stages for spontaneous per-formances or to simply question their own performances in life. Like the Capitol Theatre, these stages will be available for performances of written productions. Professionals and amateurs will be encouraged to use this unique space to cre-ate new ways of displaying their show. But unlike the theatre, these stages will see no downtime. With stage spotlights to illuminate the stages at night these simple constructions will be open 24 hours for anyone to have their opportunity to interact with or perform on any of the stages. Part sculptural art, part interac-tive installation, this design questions who is on stage and who is in the audi-ence, and allows everyone to be a performer.
Everyone Is a Performer
Location Salt Lake City, UtahInstructor Brenda ScheerSemester Fall 2010Type Installation/Competition
This cultural center is a part of a series of proposed developments to take place in downtown Los Angeles. The site sits across the street from the Disney Concert Hall by Frank Gehry. Rather than focus on its immediate context, the building focuses on its full surroundings in Downtown LA. With a permanent population just under 40,000 and a “daytime population” of 500,000, this building gives an opportunity for the smaller section of residents from the various local neighbor-hoods to display their culture to the large amounts of daily visitors. The space allotment will be rotated periodically between the different districts, to be used as they see necessary. An open and uniquely flex-ible design allows the different groups complete freedom in displaying their culture. Rotating floor plates create unique spaces for any activ-ity; galleries, concerts, films or public gathering spaces. The plates act as a miniature Pangaea, drifting apart and overlapping each other, growing and shrinking. With each unique modification to the align-ment, new relationships are formed with the other floor plates and surrounding skin, creating a new model of spatial flexibility.
Los Angeles Cultural CenterLocation Los Angeles, CaliforniaInstructor William MillerSemester Spring 2010Type Public
1st 2nd 3rd
Section Perspective AA
By placing the cafe, kitchen and restrooms on the first floor, both the second and third floors are given maximum flexibil-ity to change with each exhibit. The non-rotational plates on the top two floors act as connection points for the stair
cases, as the structural towers double as elevators. The skin’s detachment from the floors creates an open environment, where all three floors are experienced as different levels within the overall space.
AA
1st 2nd 3rd
Section Perspective AA
By placing the cafe, kitchen and restrooms on the first floor, both the second and third floors are given maximum flexibil-ity to change with each exhibit. The non-rotational plates on the top two floors act as connection points for the stair
cases, as the structural towers double as elevators. The skin’s detachment from the floors creates an open environment, where all three floors are experienced as different levels within the overall space.
AA
N
Section Perspective aa
2.
3. 4.
CivicCenter
BunkerHill
HistoricDowntown Little
TokyoToy
District
WarehouseDistrict
FashionDistrict
SouthPark
DowntownCenter
JewelryDistrict
1.Chinatown
ElPueblo
2.
3. 4.
CivicCenter
BunkerHill
HistoricDowntown Little
TokyoToy
District
WarehouseDistrict
FashionDistrict
SouthPark
DowntownCenter
JewelryDistrict
1.Chinatown
ElPueblo
2.
3. 4.
CivicCenter
BunkerHill
HistoricDowntown Little
TokyoToy
District
WarehouseDistrict
FashionDistrict
SouthPark
DowntownCenter
JewelryDistrict
1.Chinatown
ElPueblo
Downtown Ethnicity
2004 2006 2008Caucasian 57.9% 53.2% 53.8%African American 16.7% 5.3% 8.3%Asian 17.1% 24.9% 20.9%Hispanic 8.3% 10.1% 17.4%
The four main ethnic groups of Downtown LA have expe-rienced unpredictable levels of growth and decline between 2004 - 2008. So predicting future populations based on current data and past precedence would prove tricky indeed. If similar fluctuations occurred within the future programmatic constitution of the Cultural Center it would prove difficult to create a space able to accommo-date both present and future demands. In order to create maximum flexibility the previously created floor plates were divided again in order to allow them free rotation about the two structural towers. The circular fields of rotation that formed were then used to shape boundaries, creating four abstract polygons, which are spaced verti-cally at 12’ increments. When stacked(1) and connected(2) the final polyhedron form is created. The connecting lines become a map of the structural steel elements, maintain-ing the facade’s structural integrity. Square mullions are applied to the unfolded(3) polyhedral form to stabilize the glass and create the final skin articulation(4).
0’ 36’
triangulated shell form
combined
unfolded shellmullion system
C
AA
A
H
Downtown Population
2004 2006 2008
Gallery
Concert
Cafe
Public
Hypothetical ProgramFluctuation
Gallery
Concert
Cafe
Public
Gallery
Concert
Cafe
Public
12’
Rotational Plate
StationaryPlate Rotational
Plate
24’
Stationary
Plate
Rotational
Plates
RotationalPlates
Downtown Ethnicity
2004 2006 2008Caucasian 57.9% 53.2% 53.8%African American 16.7% 5.3% 8.3%Asian 17.1% 24.9% 20.9%Hispanic 8.3% 10.1% 17.4%
The four main ethnic groups of Downtown LA have expe-rienced unpredictable levels of growth and decline between 2004 - 2008. So predicting future populations based on current data and past precedence would prove tricky indeed. If similar fluctuations occurred within the future programmatic constitution of the Cultural Center it would prove difficult to create a space able to accommo-date both present and future demands. In order to create maximum flexibility the previously created floor plates were divided again in order to allow them free rotation about the two structural towers. The circular fields of rotation that formed were then used to shape boundaries, creating four abstract polygons, which are spaced verti-cally at 12’ increments. When stacked(1) and connected(2) the final polyhedron form is created. The connecting lines become a map of the structural steel elements, maintain-ing the facade’s structural integrity. Square mullions are applied to the unfolded(3) polyhedral form to stabilize the glass and create the final skin articulation(4).
0’ 36’
triangulated shell form
combined
unfolded shellmullion system
C
AA
A
H
Downtown Population
2004 2006 2008
Gallery
Concert
Cafe
Public
Hypothetical ProgramFluctuation
Gallery
Concert
Cafe
Public
Gallery
Concert
Cafe
Public
12’
Rotational Plate
StationaryPlate Rotational
Plate
24’
Stationary
Plate
Rotational
Plates
RotationalPlates
Hidden underneath the facade of downtown Los Angeles lies a conglomeration of 13 diverse dis-tricts, with the cultural center located in Bunker Hill, bordering the Civic Center. Representing differ-ent social classes and pulling from several continents, the fabric of Downtown LA is rich and varied. Lying underneath the skin of the cultural center lies an equally rich and varied spatial arraignment. An abstracted map of downtown was manipulated to create two unique floor plates that present unique possibilities and which represent the diversity of downtown LA. To create these floor plates the map was divided into two comparable pieces(1). The separate pieces were then rotated and stacked on top of each other(2-3). Finally, these flat shapes were converted into reinforced con-crete slabs, separated by 12’ and connected to two structural towers(4).
Downtown Ethnicity
2004 2006 2008Caucasian 57.9% 53.2% 53.8%African American 16.7% 5.3% 8.3%Asian 17.1% 24.9% 20.9%Hispanic 8.3% 10.1% 17.4%
The four main ethnic groups of Downtown LA have expe-rienced unpredictable levels of growth and decline between 2004 - 2008. So predicting future populations based on current data and past precedence would prove tricky indeed. If similar fluctuations occurred within the future programmatic constitution of the Cultural Center it would prove difficult to create a space able to accommo-date both present and future demands. In order to create maximum flexibility the previously created floor plates were divided again in order to allow them free rotation about the two structural towers. The circular fields of rotation that formed were then used to shape boundaries, creating four abstract polygons, which are spaced verti-cally at 12’ increments. When stacked(1) and connected(2) the final polyhedron form is created. The connecting lines become a map of the structural steel elements, maintain-ing the facade’s structural integrity. Square mullions are applied to the unfolded(3) polyhedral form to stabilize the glass and create the final skin articulation(4).
0’ 36’
triangulated shell form
combined
unfolded shellmullion system
C
AA
A
H
Downtown Population
2004 2006 2008
Gallery
Concert
Cafe
Public
Hypothetical ProgramFluctuation
Gallery
Concert
Cafe
Public
Gallery
Concert
Cafe
Public
12’
Rotational Plate
StationaryPlate Rotational
Plate
24’
Stationary
Plate
Rotational
Plates
RotationalPlates
2.
3. 4.
CivicCenter
BunkerHill
HistoricDowntown Little
TokyoToy
District
WarehouseDistrict
FashionDistrict
SouthPark
DowntownCenter
JewelryDistrict
1.Chinatown
ElPueblo
A winning entry to a competition for a temporary, three night installation as part of downtown Salt Lake City’s official New Year’s Eve celebration. The competition called for a prismatic, interactive installation on a $300 budget. Our entry aimed to provide a reminder of a warm summer day during the freezing January nights. Three boxes measuring 4’x4’x4’, 3’x3’x3’ and 2’x2’x5’ with open bottoms were con-structed. Transparent plastic sheets holding various colors of water were attached to each box. At the top of the boxes spotlights were placed to light the boxes and project the flowing lighted colors on the passing visitors. Hanging from an existing metal walkway the boxes they were placed at different heights to allow everyone a chance to walk under the lights and to reach up, set the lighted water in motion and be transported back to a warm Summer day.
Summer CubesSalt Lake CityEve Competition
Location Salt Lake City, UtahTeammates Nathan RussellSemester Fall 2009Type Installation