Gabriela S. Perez Design Samples '10-'14
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Gabriela S. Perez Santos M.ARCH & M.S.C.E. in Construction Management University of Illinois at Urbana Champaign 105 S. Wright St. Apt. 307 Champaign, IL 61820 gabrielaperezarch@gmail.com perezsa2@illinois.edu 787.246.5410
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seeplane: Seaplane terminal dawntown miami competition
teat.rum: convergence Usitt Theater competition
tower garden: Stuttgart midrise-mixed use Earl prize nominee spring 2013
Burial Chapel: Philo. il EARL prize nominee
native cycle: native American culture center Earl prize nominee fall 2013
LIV-IN-CURVES
seeplane: Seaplane terminal dawntown miami competition Making a building that adheres itself to the airplane was the design’s main purpose. The importance of fomenting the spectacle of the arrival and launch of the sea planes was achieved through the building’s circulation and urban strategy. The building’s landscape design was composed of level of vegetation and materials that sought to merge the public and private circulations of the building while stimulating day and night activity. An urban strategy is achieved through ramps that connect to the adjacent buildings, welcoming the community to areas of mixed use. The See.Plane terminal was an entry for the DawnTown Miami 2010 Competition. The design was in collaboration with Luisel Zayas, Juan Carlos Baez, and José Parilla. I aided in the overall design development as well as designing the landscape and presentation diagrams.
Landing
Urban Landscape
Walkable Landscape
Vehicular Circulation
Pedestrian Circulation
Passenger Waiting Area Green Roof Area
Generator Plane
Waiting Area/ Terminal Aircraft Museum Parking
Vertical Circulation Passenger Check-in
Storage & Mechanical rooms Hangar Restaurant Control Room
Contour
Urban Landscape
Loading Dock View
teat.rum: convergence USITT Theater Competition 2011 Situated in Mayaguez, Puerto Rico, a town where most of its activities revolve around student life, the building’s form emerges from the linear redirected in such a way that in the course of arriving to the campus the elaboration of various ramps, the building in itself becomes the In the educational areas, specialized rooms aimed for hands-on learning of the technical stage set up areas, specialized dance and theory clases were
In the careful elaboration of the circulation through the building, it kept in
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CONVERGENCE
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tower garden: Stuttgart midrise-mixed use Earl prize nominee spring 2013 Stuttgart was once known for its stud horses and gardens, giving it its present name, which is a combination of the words stud and garden. It is situated in a valley surrounded by vineyards, providing wonderful views from various points within the city and our site. The site is located at a key junction within Stuttgart. A complex overlap of exchanges can be witnessed within this suburban fabric adjacent areas and travelers or visitors to the new high-speed rail station. The city is technologically advanced and environmentally conscious and we try to adopt those values while deliberating on its relationship to the past. The building takes form by growing out of a garden in its truest sense. The exterior and the garden are conceived as a continuous transformation from interior volumes into outdoor surfaces. The surface of the garden rolls down into the civic spaces as well as the exterior.
Max Height 50
Internal Facade Atrium Bow Truss: Steel Non-Insulated Double Pane Policarbonate Sheets of 20mmClear GlassPilkington K 1.2m x 2m Structural Glazing Thermo Span/ Double Skin Double Pane Insulation Cavity 12mm U value from 1.1 W/m2K to 2.8 W/m2K 2.25m x 3m
Eigth Level LVL 24m
Outer Facade Balconies 4m x 1.2m Area 5m2 Photovoltaic Panels palette Polycristaline Photovoltaic Panels 1,200m x 3,000m Unilux UltraTherm Triple Pane Glass Window approx. 1000m x 3000m Argon Gass Insulation 6mm U Value 0.21
Upper Lobby Level LVL -0m
Floor Plates
Housing Terraces Hotel 92 rentable rooms 8 swites 5m x 8m 40m2
Housing 72 apartments 2 penthouses 25 terrace units 118m2 to 150m2
Lower Lobby Level LVL -4.5m
Site Strategy Vertical Circulation
N Drop-offs
Pedestrian Circulation
Building Section Details
Facade Details Waterproofing Drainage Layer Earth Rigid Insulation
100mm Drop for Balcony Slab
Steel Planter Box
Sliding Doors (Double Leaf )
Planter Detail
20mm Polycrystaline Colored Solar panels 20mm thk Air gap. 40mm thk. Rigid Insulation
200mm Concrete Masonry Wall
Planter Detail
Wall Detail
Steel Gutter Polycrystaline PV Panels 20mm thk Air Gap & Water Barrier 40mm Rigid Insulation 300mm Concrete Roof Slab
Hotel Elevation & Terrace Section
Building Performance Measures Hotel Mechanical System The heating and cooling system employed for the HVAC utilizes a four pipe system. Two pipes supply hot and cold water to the fan coil units and two pipes return hot and cold water to the heat recovery unit. This kind of system as opposed to a two pipe system allows individual users within each room to change the temperature by two to three degrees higher or lower
Fresh Air Intake Heating Supply Cooling Supply Return Supply Radiant Heat Solar Panels Inverter Heat Recovery Unit
Energy Analysis
Window Detail
12.7mm Argon 3mm thk. Glass with low-e coating
The energy consumption was analysed using E-Quest, an energy simulation software. The graphs demonstrate that the energy use closely follows the weather data. The numbers were also compared to similar buildings of its kind in Stuttgart. It was found that the energy use was comparable and sometimes even lower.
ELECTRICAL CONSUMTION
GAS CONSUMTION
Space Cool 16%
Misc. Equipment 16% Space Heat 30%
Neoprene Spacer
Vent. Fans 10% Area Lights 44%
Sectioned Aluminum
Pumps & Aux. 17%
Hot water 54% Misc. Equipment 13%
20mm Air Gap 40mm thk. Rigid Insulation
ELECTRICAL CONSUMTION 1200
900
200mm Hollow Block Concrete Masonry
800 1000 700 800
500
Btu
600 400 300
HDD
600
Therm Analysis
400
200 200 100 0
January
February
March
April
May
June
July
October
November
December
Natural Gas (Btu )
843.8
638.3
502.7
322.9
307.2
271.1
260.2
246.5
August
September 235.7
256.7
322.8
737
HDD
1064
925
409
440
106
17
0
0
119
409
726
901
0
GAS CONSUMTION 250
600
Inside 20Ë™ C
400 200
0 -200
100
-400 50 -600 0 Electricity (kWh) CDD
Months
January
February
March
April
May
139
125.6
139
151.1
193.5
209.4
229.1
June
0
0
0
43
3
118
276
July 225 483
August
September
October
199.4
179.5
138.6
251
83
5
November 139 0
-800
CDD
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kWh
Outside 10Ë™ C
Structure Residential Column and Flat Slab - 8m to 7m center to center - Column Cross Section (200mm x 600mm) - Fosters room flexibility - 8m to 7m Spans - 300mm Thickness
Skylight
- 20mm thk. non-insulated glazing - Polycarbonate Ultralite 500, Pilkington K
Hotel
Shear Walls and Flat Slab - Shear Walls 200mm thickness - 8m to 7m Spans - 300mm Thickness
Lobby
Column and Beam - 8m to 7m center to center - Column Cross Section (200mm x 600mm)
Basement
Column and Retaining Wall - 8m to 7m center to center - Column Cross Section (200mm x 600mm)
Burial Chapel: Philo. il EArl prize nominee summer 2013 For this non-denominational burial Chapel the principal intent was that of the path. The process of mourning was addressed as on of phases were the relatives left behind would go from the natural to the built thresholds as a precursor to mourning the life of a loved one. The Burial complex complies with a natural wooded area that receives you from the parking area, and then the path leads to the ground tombs and later to the chapel where the belfry serves as the guiding symbol. From that point the user must decide whether Togo up to the sight of life, the highest point within the project or to continue the path below to the Garden of remembrance separation from the surrounding world. In all, the complexes meant to be experienced by walking through the textures, and stages of grief.
Generating Diagrams
Paths shaping the Mass
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Remembrance Path
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Entrance Paths
Sight of Life Path
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5
Waiting Platform Path
Thresholds along Paths
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6
Floor Plans Top View
Ground Floor
Sublevel
Number of Burials 81 Ground Burials 120 Full body Wall Caskets 600 Urn Wall Placements Urn 12”x14”x12”
24”x14”x74”
Farewell Chapel 15 guests Main Chapel 90 guests
Bell Tower
Washrooms Flower Preparation
Hearse Parking/ Drop-off Storage
Pathway Axonometric Diagram
Section A
Scale 1/32” = 1’-0”
Section B
Scale 1/32” = 1’-0”
Section C
Scale 1/32” = 1’-0”
Aggregate Concrete Finish
#4 cont. reinforcement every 2’-0”
Compact Concrete Fill #4 cont. reinforcement for Casket Cases Rebar reinforcement anchoring casket cases Rebar reinforcement every 2’-0”
2#5 Dowel Bars
#4 cont. steel reinforcement every 2’-0”
Compact
2#5 Dowel Bars
Cast in Place side slab anchor
Cast in Place side slab anchor
Concrete Fill
#4 cont. steel reinforcement every 2’
Retaining Wall Footing Rebar 4#5 bars
#4 Transversal Dowel Slab Reinforce ment
Foundation Stir-Ups
6” Concrete Slab 4000psi over subgrade 95% compacted
#4 cont. steel Lower Reinforcement
2.5” Rainwater Gutter/ 1/2” Isolation Joint with grade sealant
Foundation Stir-Ups #4 cont. steel Lower Reinforcement 2.5” Rainwater Gutter/ 1/2” Isolation Joint with grade sealant
Plan
Section D
Scale 1/32” = 1’-0”
Section E
Scale 1/32” = 1’-0”
Garden of Remembrance
Burial Chapel
native cycle: native American culture center Earl prize nominee fall 2013 The ideation of this proposal for the UIUC Native American and American Indian Studies Complex came along as an exploration of the land. The Native American people felt that the land gave them their power and spirit while it also brought them together as a people. In this way the building seeks to be a building of the earth and for the earth. The connection between the sacred upper word, middle world, and lower world is continually explored through the clockwise circulation and continual framed views of the sky above. In all the building form and the experimentation of its richness of space is an ode to the curvilinear forms apparent in nature and the Native American’s dominion of the land and all of what it entails. The project also seeks to go even further and propose a new way of experimentation of the land by plaintive native corn in the way that the indigenous people planted it. The presence of corn within the landscape f the project will enhance UIUC’s originating principles towards stewardship in agricultural studies.
Concept Development N
Cahokia Mounds
Algoquian Tent Patterns
Movement
Corn as Revitalization of Culture
A Building of the Earth and For the Earth:
Spiral Sacred Hoop:
Clockwise Circulation:
Linkage to Morrow Plots:
Cahokia were one of the first Native American People to Inhabit the Great Plains Region. They were known for having a keen understanding of the land and manipulating the experience of it as a means of promoting worship.
In terms of rebirth or growth, the spiral represents the consciousness of nature beginning from the core or center and thus expanding outwardly. This is the way of all things.
In the Native American tradition, the direction of the east is the place where Spirit enters. Once entered, the space is inhabited clockwise, for that isthe sacred movement emulating the cosmos.
Native American’s mastery of the planting of corn symbolized their deeply rooted connection with the land and its spirit. There is a clear intent to revitalize the understanding of the land through native corn plantings.
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Ground Floor Plan 0
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40
Below Level Floor Plan 0
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Structural Layout
Section CC
Native American Complex Axonometric Upper World
Green Roofs: Xeriscape Native Plants
Cahokia Conmemoratory Mound: Culminates the connection of the Upper world and the Lower World
Post Beam: Steel Structural Grid Sloped Rain Garden: Allows light into lower level and aids in stormwater management
Louvered Facade: Sun Shading South and West
Lower World
Exterior Gathering Space: Simbolizes the Cahokia Woodhenge and serves as an external hearth for gathering. The connection of the Middle World with the Lower World.
Indian Corn Plantings: Bring the Morrow Plots presence into the site and commemorates the Native American Connection to the Earth and its ample offerings.
Facade Module
Exterior Gathering Space
Facade Design Corn, also known as Maize, was an important crop to the Native American Indian. Eaten at almost every meal, this was one of the Indians main foods. Native American Indians gave the Europeans corn seed and taught them how to grow corn. Native Americans of New England planted corn in household gardens and in more extensive fields adjacent to their villages. The Iroquois Legend of the Three Sisters Erney, Diana. 1996. Long live the Three Sisters. Organic Gardening. November. p. 37-40. Every child of today should know these three sisters and need them just as much as the little Iroquois boy did. For the little sister is the bean who needs the eldest sister to keep her from crawling along the ground. The second sister is the squash, who has bright yellow flowers and tends to run away across the field. The eldest sister is the corn. Her kernels can be dried and ground up to make flour for bread. When the corn beans and squash are eaten, they provide a very nutritious meal with everything a person needs to be healthy.
“Bridging the Gap� Corn plantings Stainless steel mullions Varied Color Tinted Fiberglass
Facade Module
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design is an opportunity to continue telling the story, not just to sum everything up. -Tate linden.