A N A L U I Z A G R A D U A T E ARCHITECTURE & U R B A N I S M P O R T F O L I O
CONTENTS 2 Ana Luiza Leite Academic & Professional CV URBAN DESIGN
8 Liquid City Lighting Concept Spring 2016 Thesis - Miami, Florida
LC LC
24 Parque Eco/Urbano Spring 2015 - Barranquilla, Colombia
40 Urban Agriculture Design Fall 2015 - Miami Design District, Florida
50 The Hub: ULI Hines Competition Spring 2016 - Atlanta, Georgia
60 Marine Bench ARCHITECTURAL DESIGN
Fall 2013 - Miami, Florida
64 Madeira Apartments Spring 2014 - Downtown Miami, Florida
M DEIRA
APARTMENTS & OFFICES
74 Daedalus Winery Fall 2014 - Lake Wales, Florida
84 eMerge Innovation Center Summer 2014 - Wynwood Miami, Florida
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ACADEMICS C O N TA C T
ANA LUIZA PEREIRA LEITE
analuiza01.11@gmail.com - (305) 781-0349 789 Crandon Blvd. Apt. 1505 Key Biscayne, FL 33149
Miami, FL 8/04 - 6/08
New York University BA Economics, BS Media & Communications GPA- 3.75 Gulliver Preparatory School International Baccalauratte Diploma
2016
Graduate Architectural Thesis of the Year
2015
McLamore Memorial Scholarship Merit in Landscape Design
2014-2016
Center for Urban Community Design Award
2013-2016
School of Architecture Full Academic Scholarship
2012
NYU Cum Laude
2011
Essay published in NYU's 2011 Mercer Street Languages Fluent in English, Portuguese, and Spanish - Basic Italian Architecture & Design Software Proficient in AutoCAD, SktechUp, Photoshop, & Indesign and knolwedgeable in Illustrator, Revit, & Ecotect Additional Software Proficient in Excel and knowledgable in GIS & SPSS
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- Resume
RECOGNITION
New York, NY 9/08 - 5/12
University of Miami School of Architecture Master of Architecture GPA- 3.95
SKILLS
Miami, FL 9/13 - 5/16
ARCHITECTURE AND URBANISM
Charettes May 2016 Master of Real Estate Development Flagler St. Keystone Charrette - Collaborated with Graduate Urban Design & Real Estate students, outside consultants, and propety owners to redevelop and adapt key historical buildings along Flagler Street, a prominent historic commercial street in Donwtown Miami. May 2015 Haiti Initiative Final Design Charrette - Participated in week long charrette with all involved faculty, outside consultants, and BARR Foundation representatives to finalize the proposals for the Arcahaie Region. Robert A. M. Stern Architects Architecture Intern with Paul Whalen Studio - Worked for 6 weeks on a luxury multi-family residential project in Beverly Hills, building physical models for client meeting and assisting with schematic design floor plans in Revit. - Was part of a 3 person team for a 2-week design study for potential synagogue, helping pull precedents, design building in SketchUp, and prepare final booklet. - Participated in intern design day, working with a team to produce a master planned community in Southern China. UM Center for Urban & Community Design Miami, FL 9/13-5/16 Research, Design, and Administrative Assistant - Worked together with the School of Engineering and Miami-Dade County on new Resilience Initiative to identify and design resilient housing in historic neighborhoods like East Little Havana. - Actively participated in the Haiti Initiative, an 18 month planning proposal for the Commune of Arcahaie funded by the Kellogg & BARR Foundations. - Produced the three master plans of the towns in the Commune (Arcahaie, Luly, and Corail), four overall proposal maps, and colored renders of key public buildings.
PA S T P R O F E S S I O N A L
Univeristy of Miami School of Architecture Miami, FL 9/14-5/16 Teaching & Research Assistantships - Professor Sonia Chao 2nd Year, Undergraduate Architecture Design Studio - Professor Armando Montero,: 3rd Year Undergraduate (Comprehensive) Studio - Professor Joanna Lombard,: 2nd Year Architecture & the Environment - Professor Ricardo Lopez, HABS Design Elective - Professor Erik Firley, Alternative Housing Models Research for Publication Analytic Partners New York, NY 6/12-8/13 Analyst - Consulted for global consumer packaged goods and food processing corporations in the US and Latin America. - Worked in small consulting teams to collect and process data, build marketing mix models, develop strategy and insights, and craft presentations for clients. - Collaborated with clients analytics team to provide business insights and actionable recommendations using diagnostic testing and forecasting scenarios. Ogilvy & Mather New York, NY Summer/11 Digital Planning Intern, Neo@Ogilvy - Worked on Time Warner Cable account assisting planners with all aspects of media planning and buying, from strategy to trafficking, to reporting and billing. - Participated in Final Project where five teams of eight presented 360 campaigns for client British Airways, leading the research and strategy for my team. p.5
“
LET'S GO ON A JOURNEY – – TO THE ENDS OF THE EARTH AND THE OTHER SIDE OF THE STREET, AS FAR AS WE NEED TO GO TO GET AWAY FROM THE FAMILIAR AND ROUTINE. GOOD OR BAD, SCARY OR WONDERFUL, WE NEED UNRULY PLACES THAT DEFY EXPECTATIONS. IF WE CAN'T FIND THEM WE'LL CREATE THEM.
Alastair Bonnett Unruly Places (2014)
LC LC
LIQUID CITY LIGHTING CONCEPT Graduate Thesis - Spring 2016 Miami, FL Allan Shulman Advisor
RIGHT Miami Bridge Lighting Festival Render
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RE-IMAGINING PUBLIC LIGHTING IN MIAMI The universe that opens up with every rotation of the Earth is one that has captivated mankind from the very dawn of existence. Today, sadly, it is a birthright on the verge of extinction. Light pollution, however, is an issue that is well within our power to correct. The goal of this thesis is two-fold to propose a
thought-provoking lighting concept for Miami-Dade County and at the same time challenge the existing routines, tacit procedures, and habitual perceptions on the value and quality of lighting in the first place. A liquid city is one where life moves fast, cash flows easily, and where people and places are always adapting. In
Miami, where the nightlife is as vibrant as the endless sunshine, should not lighting be an extension of the citys character and aspiration. Organized into 7 categories, the Liquid City Lighting Concept focuses as much on technology and management as it is does on design. So let us take a journey, into the future of urban lighting!
P R O T E C T IV E , P R O - A C T IV E , & E ME R GE N C Y L IGH T IN G O R G ANI C, T R O PI CAL, & R I CH LI G HT I NG
CONSI STE NT, LOGI CAL, & SAFE LI GHTI NG
N E T WO R KE D , A D A P T IV E , & R E S P O N S IV E L IGH T IN G
A Q U A T IC & R E S IL IE N T L IGH T IN G
LOW-I MPACT , PASSI V E , & E CONOMI C LI G HT I NG
CO LO RFU L , S O C IA L , & FE ST I V E LIGH T IN G
ABOVE Liquid City Lighting Concept Diagram RIGHT Density & Zoning Overlay Map and New Resulting Lighting Levels by Density & Zoning
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- Liquid City Lighting Concept
LIGHT LEVELS BY DENSITY Parks
0-30%
Estate Density
30%
industrial
35%
Low Density
40%
Ports & Utility
50%
Medium-Low Density
60%
Office
70%
Medium Density
75%
Medium-High Density High Density
85% 100%
Density & Zoning Overlay
Lighting Level by Density & Zoning
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A Network of Lights
ABOVE Networked Lighting Map and Biscayne Boulevard Adaptive Lighting Render Series LEFT Miami21 Lighting Standards Addition by Transect
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Environmental “Dark Areas”
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- Liquid City Lighting Concept
Marine Navigation
ABOVE Coastal & Marine Navigation Map and Coconut Grove Marine Render LEFT Environmental Dark Areas Map and Passive Riverfront Lighting Render
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6 ft of Sea Level Rise
Solar Road Stud Light
Solar Street Lamps
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- Liquid City Lighting Concept
Evacuation Routes
Hospital Hurricane Shelter
Emergency Wayfinding Lighting
ABOVE Emergency Lighting Map and Render of Emergency Road Studs LEFT Sea Level Rise Map and Resilient Lighting Strategies
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Succulent Lighting Potential Sites
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- Liquid City Lighting Concept
ABOVE Renders of Cooling Skyline Effect and Bioluminescent Landscape in Coconut Grove LEFT Tropical Lighting Map and Bioluminescent Tree Render
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Social & Installation Lighting Potential Sites
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- Liquid City Lighting Concept
ABOVE Renders of Bridge Light Festival and Dark Sky Night LEFT Social & Installation Lighting Map and Wynwood Walls Light Art Render
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- Project Name
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PARQUE ECO/URBANO Vernacularology - Spring 2015 Barranquilla, Colombia Adib Cure With Jianwei Li
RIGHT Aerial Perspective Render
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PART I - MAPPING INFORMAL SETTLEMENTS Vernacularology is an upper level design studio that explores informal urbanism and architecture and its connection to vernacular design. The first part of the studio was all about documentation and mapping. Our site, Las Flores, is an informal neighborhood in Barranquilla, Colombia. Located at the northernmost tip of the city and sandwiched
between the Cienaga de Mallorquin lagoon and the Magdalena River, it is the only neighborhood in the city that faces out to the water. Not only does it directly engage with important and protected ecosystems, but it also serves as the unofficial gateway to the whole country through the mouth of Colombiaďƒ¸s most important river.
Our mapping efforts included on-site surveying, which was then converted into GIS data, and on-site drone photography to see into parts of the neighborhood hidden from view or too dangerous to access.
ABOVE Maps of Barranquillaďƒ¸s Greenspace, Future Land Use, and Future Transportation RIGHT Barranquilla Figure-Ground
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- Parque Eco-Urbano
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- Parque Eco-Urbano
Google Satellite
Drone Aerial
ABOVE Diagram of Documentation Methods LEFT Mapped vs. Unmapped
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1944
1965
1983
2001
ABOVE Maps of Land Use, Pavement, House Heights, and Neighborhood Growth RIGHT Photos from Site Visit
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- Parque Eco-Urbano
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PART II - LANDSCAPE INTERVENTION After documenting and analyzing the biggest challenges facing Las Flores, we were asked to propose a project that would serve as a positive catalyst for the community. The biggest threat to Las Flores is the construction of a new Super Port just north of the neighborhood and two new highways that will link
this port to the outer ring connector of Barranquilla. These highways would cut right through protected mangrove. Believing that the neighborhood is developing succesfully over time, our main goal was to re-connect it to the rest of the city and ensure it survives the completion of the Port.
Our idea was to create an ecological park that works with the highway infrastructure and that encourages residents from Las Flores and the wider city to engage together with the beautiful natural environment that the city has too often ignored in its growth.
HABITAT
INFRASTRUCTURE
HABITAT
HABITA
INFRASTRUCTURE
ABOVE Concept Diagrams
HABITAT
RIGHT Park Master Plan
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- Parque Eco-Urbano
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Regional Scale
Comparison of Parque Eco-Urbano to Super Port and Airport
Local Scale
Comparison of Parque EcoUrbano's Eco Center and Multi-Modal Transport Hub to Important City Buildings
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- Parque Eco-Urbano
ABOVE Pathway Process Diagrams LEFT Proposed Super Port and Comparative Scale Studies
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- Parque Eco-Urbano
ABOVE Renders of Eco Center LEFT Project Transect and Program Elements
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- Parque Eco-Urbano
ABOVE Highway Section Render
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URBAN AGRICULTURE DESIGN Self-Sufficient City - Fall 2015 Miami Design District, FL Vicente Guallart & Li Yi With Ariella Casinelli
RIGHT Isometric Drawing
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DESIGNING FOR A SELF-SUFFICIENT CITY Taught by the former chief architect of Barcelona, Vicente Guallart, this studio was all about what the future of cities will look like. Breaking down and studying the city by its unique systems, this studio was equal parts data collection, planning, and design. Part of this studio included a visit to Barcelona to attend
the 2015 Smart City Expo, collaborate with graduate students at IAAC, and visit the Valldaura Labs where students and professionals are testing the boundaries of digital fabrication and selfsufficienct design. Working with the developers of Miamiďƒ¸s Design District, our task was to rethink this neighborhood as a self-su-
fficient district. Teams of two tackled different components of urban design including energy, mobility, agriculture, environment, social interaction, waste, and manufacturing. Ariella and I developed a plan to ensure that 100% of all the vegetables consumed at restaurants in the district could be grown on site.
ABOVE Restaurants Popular Ingredients RIGHT Data Collection
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- Urban Agriculture Design
Annual Food Volume: 75 Tons Vegetables All Other Vegetables Root Vegetables Peppers Onions Legumes
Leafy Greens Herbs Gourds Mushrooms
Food Group
Food Subgroup
Ingredient
Yearly Consumption
Fruits
All Other
blueberries
204
7,000
0.16
1,267
Vegetables
Leafy Greens
cabbage
1,164
35,000
0.80
Fruits
All Other
strawberries
153
2,400
0.06
2,772
Vegetables
Leafy Greens
radicchio
1,164
12,000
0.28
Fruits
Citrus
lemon
7,321
2,995
0.07
106,483
Vegetables
Leafy Greens
endive
873
14,500
0.33
2,623
Fruits
Citrus
orange
3,778
2,995
0.07
54,959
Vegetables
Legumes
chickpeas
1,589
1,800
0.04
38,452
Fruits
Citrus
lime
2,598
2,995
0.07
37,784
Vegetables
Legumes
beans
1,444
4,600
0.11
13,679
0.07
Food Group
Fruits
Food Subgroup
Citrus
Ingredient
lime
Fruits
Tropical
avocado
Protein
Fish
Fish
Protein
Seafood
shrimp
Protein
Seafood
prawns
Yearly Consumption
Yield lbs/acre
Yield lbs/sq.ft.
Sq. Ft. Needed
Yield lbs/sq.ft.
Sq. Ft. Needed 1,449 4,226
13,740
Vegetables
Legumes
peas
6,000
0.14
5,244
3,233
45,375
1.04
3,103
Vegetables
Legumes
lentils
578
1,300
0.03
19,361
19,541
121,000
2.78
7,035
Vegetables
Onions
onions
7,010
35,000
0.80
8,725
945
2,995
722
Yield lbs/acre
1,871
100,000
2.30
815
Vegetables
Onions
garlic
1,986
5,000
0.11
17,305
330
100,000
2.30
144
Vegetables
Onions
shallots
1,519
11,000
0.25
6,015 3,959
Vegetables
Funghi
mushroom
625
1,089,000
25.00
25
Vegetables
Onions
scallions
818
9,000
0.21
Vegetables
Gourds
cucumber
665
20,000
0.46
1,448
Vegetables
Onions
cippolini
467
30,000
0.69
679
Vegetables
Gourds
pumpkin
443
40,000
0.92
483
Vegetables
Onions
leeks
234
14,500
0.33
702
Vegetables
Gourds
zucchini
332
16,800
0.39
862
Vegetables
Peppers
peppers
1,242
27,500
0.63
1,968
Vegetables
Gourds
calabaza
277
30,000
0.69
402
Vegetables
Peppers
chilis
1,180
30,100
0.69
1,708
80
Vegetables
Peppers
pepperoncini
186
30,100
0.69
270
Vegetables
Herbs
basil
627
12,000
0.28
2,276
Vegetables
Roots
potato
14,182
20,000
0.46
30,889
Vegetables
Herbs
cilantro
418
18,000
0.41
1,012
Vegetables
Roots
ginger
2,364
8,000
0.18
12,871
0.18
Vegetables
Gourds
squash
55
30,000
0.69
1,463
Vegetables
Roots
carrots
1,773
26,000
0.60
2,970
Vegetables
Herbs
mint
149
9,000
0.21
723
Vegetables
Roots
radish
1,477
6,000
0.14
10,725
Vegetables
Herbs
thyme
149
11,000
0.25
591
Vegetables
Roots
beets
1,182
25,000
0.57
2,059
Vegetables
Herbs
parsley
269
8,000
Vegetables
Herbs
rosemary
90
10,000
0.23
390
Vegetables
Vegetables
tomato
7,348
20,000
0.46
16,003
Vegetables
Herbs
chives
90
13,000
0.30
300
Vegetables
Vegetables
fennel
2,280
25,000
0.57
3,973
Vegetables
Leafy Greens
salad
11,058
25,000
0.57
19,268
Vegetables
Vegetables
kimchi
1,140
16,000
0.37
3,104
Vegetables
Leafy Greens
arugula
7,275
7,000
0.16
45,273
Vegetables
Vegetables
broccoli
887
8,000
0.18
4,829
Vegetables
Leafy Greens
collard greens
4,656
28,625
0.66
7,086
Vegetables
Vegetables
celery
633
54,000
1.24
511
Vegetables
Leafy Greens
lettuce
4,074
53,250
1.22
3,333
Vegetables
Vegetables
eggplant
633
20,000
0.46
1,380
Vegetables
Leafy Greens
romaine
2,910
25,000
0.57
5,071
Vegetables
Vegetables
asparagus
507
4,400
0.10
5,017
3,803
Vegetables
Vegetables
artichoke
253
5,500
0.13
2,007
Vegetables
Leafy Greens
frisĂŠe
1,455
25,000
0.57
2,535
Vegetables
Vegetables
broccolini
253
5,000
0.11
2,207
Vegetables
Leafy Greens
spinach
1,455
12,500
0.29
5,071
Vegetables
Vegetables
cauliflower
253
13,000
0.30
849
Vegetables
Leafy Greens
kale
2,619
30,000
0.69
p.43
Community Garden
Plot Garden Subdivided into plots and operated individually Coop Garden Managed through community group and distributed equally For-Profit CSA Farmer sells shares of harvest in advance
Rooftop Garden
Youth Garden Managed by non-profit or school for education
Flat-Lease Commercial farmer rents space from owner at flat-rate Owner Operated Owner or tenant uses own rooftop to grow Profit-Share Commercial farmer splits profits with property owner
Rooftop Greenhouse
Owned + Operated Sells wholesale to markets and restaurants Long Term Contract 10-Year wholesale contracts with supermarket chains Subscription Co-op model with subscription pickups Public Subsidy Government supported wholesale model
Vertical Farm
Faรงade Growing Develop unique conveyor belt systems to maximize sunlight along building facades
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Indoor Growing Use LED lights and Controlled Environment Agriculture to grow stacked plant modules
- Urban Agriculture Design
COMMUNITY GARDEN
ROOFTOP GARDEN
ROOFTOP GREENHOUSE
210,000 Sq. Ft.
110,000 Sq. Ft.
63,000 Sq. Ft.
15,000 Sq. Ft.
56 Tons Food
28 Tons Food
337 Tons Food
126 Tons Food
6 Tons Fruit
39 Tons Vegetables
2 Tons Fruit
11 Tons Fish & Shrimp
26 Tons Vegetables
0 Tons Fish & Shrimp
2 Tons Fruit
26 Tons Vegetables
0 Tons Fish & Shrimp
VERTICAL FARM
2 Tons Fruit
113 Tons Vegetables
11 Tons Fish & Shrimp
ABOVE Location Map and Overall Production LEFT Location Map and Production by Typology
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- Urban Agriculture Design
ABOVE Isometric Drawing with Proposal
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ABOVE Rooftop Render RIGHT Vertical Farm Render
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- Urban Agriculture Design
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THE HUB AT MIDTOWN ATLANTA ULI Hines Competition Entry - 2016 Atlanta, GA With Divya Gossain (MArch), Johnathan Hrasar (MRED), Shuzheng Wu (MUD), and Kendra Plummer (MBA)
RIGHT Aerial Perspective Render
p.50
CONNECTING SOUTH MIDTOWN ATLANTA The Mid Town Alliance is making a concerted effort to revitalize the core of mid town. The current state of the area with cliff like towers and parking garages planted on a shore of asphalt is by no means pedestrian or bicycle friendly. To this end The Hub strives to create a welcome area to cyclists and pedestrians whi-
le also creating a dense urban fabric that is easily repeatable within the urban grid of greater Atlanta. Currently the biking route stops just short of I-75 as it approaches the Varsity diner. The Hub project extends the existing routes into lower Midtown by expanding the North Avenue bridge with a high speed biking lane that
skirts I-75 on the east side passing the torch and connecting to the bike routes at 5th street. Additionally the bike route also connects Midtown market to the new Museum of Transportation located above the MARTA Station.
ABOVE Overall Startegy RIGHT Master Plan
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- The Hub
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Regional Midtown Bike Plan
Regional Transportation
Hub Biking Plan & Velocity
Hotspots & Mobility Support
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- The Hub
Spring Street Section
Existing Condition
Proposal
Parking - 9’ Buffer - 3’ Bike Lane - 6’ Sidewalk - 12’
ABOVE Street Sections Before & After LEFT Mobility & Hotspot Maps
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Value and IRR Current Value Future Value
$39,622,583 $2,970,080,695
Unlevered IRR
44%
Levered IRR
52%
Total Build Out (Sq. Ft.) Retail
255,319
Housing
692,393
Office
589,635
Parking
266,248
Hotel
467,367
Bike Way
30,000
Museum
90,000
ABOVE Financial Summary RIGHT Phasing & Build-Out
p.56
- The Hub
Phase I - Attract & Connect Build Out (Sq. Ft.) Hotel
467,367
Retail
89,448
Bike Way
30,000
Office
149,648
Housing
412,084
Phase II - Densify Build Out (Sq. Ft.) Retail
50,999
Office
162,211
Housing
116,325
Parking
86,248
Phase III - Enrich Build Out (Sq. Ft.) Museum
90,000
Retail
114,872
Office
277,776
Housing
163,984
Parking
180,000
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Urban Precedent: Barceloneta Tyoplogy
The Barceloneta Neighborhood in Barcelona, Spain is known for its long and thin city blocks and bar buildings. Using this typology for The Hub Development not only increases density without significantly raising building heights, but it also helps create a more permeable urban fabric for pedestrians and cyclist alike.
ABOVE Housing Section Render RIGHT Market Square Section Render
p.58
- The Hub
Water Management Precedent: Piazza del Campo - Siena, Italy The site of The Hub development naturaly slopes towards the Torch Tower much like the Piazza del Campo slopes toward the Palazzo Pubblico’s Tower. Using this amazing public space as an example, a similar drainage system will be installed at the base of the tower to capture rainwater.
Grey Water Recycling for Irrigation
Exfiltration System
p.59
MARINE BENCH Drawing - Fall 2013 Miami, FL Joaquim Perez
RIGHT Night Render
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URBAN FURNITURE AND DIGITAL FABRICATION The goal of this project was to familiarize ourselves with new software and model making tools, in this case Rhino and laser cutting, while learning how furniture can serve as a piece of architecture in its own right. Miamiďƒ¸s iconic Marine Stadium has been in disrepair for more than 20 years. Inspired by renewed efforts to
restore the stadium, I chose to design a comemorative steel bench that would run the length of the first two rows of seating. The concept was both to reflect the ripples on the surface of Biscayne Bay in the form of the bench and to celebrate kinetic public art that is easily found around the the streets of Miami. While
the front of the bench would appear to be metal, each side cut would be painted in a unique color, so that as one moves across the aisle different colors begin to appear.
ABOVE Physical Model RIGHT Render and Process Diagram
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- Marine Bench
1. Measure 8-Seat Module
2. Sweep Wave Profiles
3. Add Steel Thickness
4. Cut Bench into 1.25" Strips
5. Create Railing & Attachment System
p.63
M DEIRA
APARTMENTS & OFFICES
MADEIRA APARTMENTS Skyscraper Studio - Spring 2014 Downtown Miami, FL Tommy Manuel
RIGHT Physical Model
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COMPLEX SYSTEMS AND WOODEN STRUCTURE The task for this project was to create a wooden structural system built with no more than 3 unique components that could be assembled into a structure no larger than 1' ft. x 1' ft. x 2 ft. Inspired by Japanese capentry and the inherent strength of triangular forms, my system uses 3 simple pieces that can be assembled into
1.
2.
a complex structure that is both easily scaleable and infinitely variable. Building from this structural study, we were then asked to develop a 30-story cross laminated timber (CLT) and glulam skyscraper in the concrete and glass heart of Downtown Miami. Rescaling my original hollow component to rise 2 floor levels, I
created a timber tower that pushes both the structural and aesthetic possibilities of wood construction. The Madeira Apartments and Offices rises roughly 400 ft. off the ground and features an exposed wooden skeleton and simple concrete base and core.
3.
Basic pieces
Flip and glue
Combine to form 3 more complex components
ABOVE Process Diagram & Structural Study Physical Model RIGHT Physical Model
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- Madeira Apartments
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New Structural System & Connections
Scaling Up Structure for Skyscraper
ABOVE Continued Process Diagram RIGHT Structure Diagram, Render, and Wooden Skyscraper Comparison
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- Madeira Apartments
Glass Envelope
Concrete Base & Core CLT Floor & Sheer Walls
Glulam Truss Skeleton
TALL W O O D : Sakyamuni Pagoda, China 220 ft.
HoHo, Austria Rüdiger Lainer 275 ft. Treet, Norway Bergen & Omegn 160 ft. tall
Treet, Sweden C.F. Møller 375 ft.
Madeira, USA 400 ft. tall
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Studio & 1 BR Floor Plan 0
5
10
20
30
4 BR Penthouse
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
4 BR Duplex
3 BR Duplex 2 BR 1 BR
1 BR Efficiency & Studio
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- Madeira Apartments
STUDIO & 1 BR 340-650 SQ. FT. SPA AND POOL DECK
RETAIL & OFFICE 9,370 SQ. FT.(tot retail) 3,240-3,280 SQ. FT.(office)
ZONE 7 ZONE 6 ZONE 5 ZONE 4
1 & 2 BR 950-1,120 SQ. FT.
ZONE 3
3 BR DUPLEXES 1,875-1,915 SQ. FT.
Z2
4 BR PENTHOUSES 3,254-4,202 SQ. FT.
ZONE 1
CANOPY BAR 10,140 SQ. FT.
ABOVE Render and Apartment Key LEFT Typical Floor Plans
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- Madeira Apartments
ABOVE Rooftop Lounge Render LEFT Interior and Pool Deck Render
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DAEDALUS WINERY Comprehensive Studio - Fall 2014 Lake Wales, FL Armando Montero & David Trautman
RIGHT Perspective and Aerial Renders
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BUILDING WITH EARTH The goal of this studio was to understand building systems and learn how to integrate them into a design. Daedalus Winery is a project inspired wholeheartedly on the environment in Polk County, Florida. Departing from the infamous labarynth in the greek myth of Daedalus, the structure burrows into and expands across the
sloping vineyard. The ground displaced from this sunken building, rich in sands and clays, is what becomes the rammed earth walls that envelope visitors as they explore every hall and corner of the winery. The first step of the design was to create a system to translate the emotions one feels within a labarynth into
concrete architectural elements. This included tunneling into the ground, working with right angles, and playing with light and shadow. The overall result is a winery that looks like is was carved right out of the vineyard itself.
Architecturalizing the Labarynth: Characteristics:
Translation:
mystery
light/dark
discovery
burrowing
order
right angles
obstacle
dead end
curiousity
tunnel
whimsical
ramp
ABOVE Concept Diagram RIGHT Main Floor Plan
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- Daedalus Winery
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- Daedalus Winery
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Looking North
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ABOVE Building Sections LEFT Building Elevations
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Top-coat cementious waterstop sealer to top of parapet Planting Growth Media
Drainage conduit
Drainage Aggregate Protection Fabric Waterproofing 3” Corrugated steel Deck with 5” light-weight concrete Glulam 18.75” x 17.875” Reinforced concrete lintel
Plate
4” Rigid Insulation
Rammed earth wall (8” on each side) 10M Bars @ 24” o.c. hooked to ftg.
Concrete Slab
Install appropriate damp-proofing
Foundation wall rebar
4” Dia. rigid perforated foundation drain
ABOVE Typical Wall Section RIGHT HVAC and MEP Isometric
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- Daedalus Winery
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- Daedalus Winery
ABOVE & LEFT Perspective Renders
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EMERGE INNOVATION CENTER Structural Studio - Summer 2014 Wynwood Miami, FL Denis Hector With Erik Broberg
RIGHT Night Render
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LONG SPAN STRUCTURE Inspired by Erwin Hauerďƒ¸s sunshade designs, the dramatic form of the Innovation Center embodies the weaving of resources, ideas, and disciplines that nurtures true innovation. The central cross-shaped building houses the incubators, sheltered beneath the soaring 350 ft. wingspan of the roof. With its crisscrossing pathways and stairs, bustling cafe, and diamond skylights, the atrium
is a piazza of the future, encouraging serendipitous encounters for all. Our first step to translate Hauerďƒ¸s design was to scale up and adjust for program. Then, using a soap bubble technique to find a minimal surface, we achieved the final hyperbolic paraboloid form of the roof. The structure combines a prefabricated post-tensioned perimeter with steel armature and
poured-in-place concrete filling in the center. Loads are transfered to the outer perimeter and down the 8 concrete egress cores and 12 intermediate columns.
ABOVE Concept Diagram RIGHT Program and Circulation Diagrams
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- Emerge Innovation Center
Program-207 K sq. ft.
Incubators-50 K sq. ft.
Traditional Office-76 K sq. ft.
Atrium & Cafe-15 K sq. ft.
Library-7.2 K sq. ft.
Media Spaces-5.5 k sq. ft.
Screening-4.5 K sq. ft.
Coworking-12 K sq. ft.
Maker Space-12 K sq. ft.
Education-10 K sq. ft.
Gym & Spa-10 K sq. ft.
Bar-4.8 K sq. ft.
CIRCULATION:
Business Circulation Public Circulation Business Elevators Public Elevators Public Stairs Egress Stairs
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A FULL SPECTRUM OF WORK SPACES
Images from top - Google Plex CA, Neuehouse NY, Projective Space NY, Ogilvy NY, Boora Architects OR, Pixar CA
RIGHT Floor Plan and Workspace Heat Map
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- Emerge Innovation Center
Level 5- Quiet Library, Gaming, and Recording Studio
Level 4- Incubator Offices & Workspaces
Level 3- Main Incubator Space
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Looking East
Looking North
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- Emerge Innovation Center
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ABOVE Interior Atrium Render LEFT Building Sections
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- Emerge Innovation Center
ABOVE Front Facade Render
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