Renata Varj達o Stefanelli
PORTFOLIO | CV Architecture _Urbanism
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CURRICULUM RESEARCH DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING DIGITAL FABRICATION CNC MILLING WORK EXPERIENCE ACADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE DIGITAL FABRICATION ECOTECT RHINO NVIRONMENTAL ANALYSIS RHINO ARDUINO PROCESSING GRASSHOPPER IMPURE CURRICULUM DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING CNC MILLING ARDUINO COMPUTATIONAL DESIGN WORK EXPERIENCE ACADEMI ORMATION GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT RHINO ARDUINO PROCESSING GRASSHOPPE ORM FUNCTION BEAUTY DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING CNC MILLING WORK EXPERIENC CADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT RHINO RDUINO PROCESSING GRASSHOPPER IMPURE CURRICULUM DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASE UTTING WORK EXPERIENCE ACADEMIC FORMATION PARAMETRIC ARCHITECTURE ENVIRONMENTAL ANALYSIS PROCESSIN RASSHOPPER IMPURE CURRICULUM DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING CNC MILLING ORK EXPERIENCE ACADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE RESEARCH ENVIRONMENTA NALYSIS DIGITAL FABRICATION RHINO PROCESSING GRASSHOPPER BEAUTY CURRICULUM DESIGN ASSOCIATIVITY ATERIALITY 3D PRINTING LASER CUTTING CNC MILLING FUNCTION FORM MODERNISM CONTEMPORARY COMPUTATIONAL ESIGN GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT RHINO ARDUINO PROCESSING GRASSHOPPER IMPUR
INDEX
INDEX PERSONAL INFORMATION Curriculum ................................... 02
RESEARCH 2011 | Biodigital Architecture... 04 2011 | Design Associativity....... 05 2011 | Calculation Tool ............. 06 2011 | Materials System ........... 08 2011 | Environmental Analysis 09
DIGITAL FABRICATION 2010 | 3D Printing ...................... 10 2010 | Laser Cutting ................... 12 2010 | CNC Milling ..................... 13
WORK EXPERIENCE 2010 | TOK&STOK ...................... 14 2009 | Wall Street Bar ................ 15 2009 | B4 Lounge ........................ 16 2009 | Interior Design ................ 17
ACADEMIC FORMATION 2011 | Recycling Skin .................. 18 2007 | Concordia Hall ................. 20 2007 | Brás Urban Proposal ....... 22
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EDUCATION
MASTERS DEGREE
Insitute for Advanced Architecture of Catalonia | Barcelona, Spain 2010 | 2011 Master in Advanced Architecture | Self Sufficient Buildings
GRADUATION
Pontificia Universidade Católica de Campinas | Campinas, Brazil 2003 | 2007 Architecture and Urbanism
HIGH SCHOOL
International School Nido de Aguilas | Santiago, Chile 1998 | 2002 American & International Baccalaureate [IB] Diploma
PROFESSIONAL EXPERIENCE Architect
Felippe Crescenti Jul 2010 | Sep 2010 (3 months) São Paulo, Brazil Projects of Department stores in Brazil
Internship | Junior Architect
João Armentano Aug 2007 | Dec 2009 (2 1/2 years) São Paulo, Brazil Preliminary, Executive and Construction phases of commercial and residential architecture. Know-how developing interior design projects.
Internship
Gema Design May 2007 | Jul 2007 (3 months) São Paulo, Brazil Product Design. Experience in creating objects of signaling and merchandising for bank agencies.
Freelancer
Auto CAD 2D plans and 3D model making May 2007 | Jun 2010 (on-going projects) Development of 2D plans and electronic model for interior, residential, and urban planning projects in collaboration with other architects.
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CURRICULUM
M.Arch Renata Stefanelli São Paulo - Brazil renata.stefanelli@gmail.com Tel. 55 [11] 9604.8822 21 | Apr | 1984
WORKSHOPS
BIODIGITAL ARCHITECTURE
June, 2011 -UIC | Barcelona, Spain Tutors: Alessio Erioli [Co-de-iT ] | Aref Maksoud [MAG LAB] - Learning parametric features of 3D Studio MAX®, form generation, management, renderings and animation.
GRASSHOPPER I | II
Feb, 2011 -SEED| Barcelona, Spain Tutor: Rodrigo Carbajal
EXTRAS 2004 | 2005. - Director of Academic Center for Architecture & Urban Design Rodrigo Lefèvre – PUC-CAMPINAS. 2003 | 2004. - Organization of Lecture Rodrigo Lefèvre, I & II Week of Architecture & Urbanism Puc-Campinas. 2002. - Class representative of Senior Year. 2002. - NHS society member.
LANGUAGES PORTUGUESE
native speaker
ENGLISH
fluent speaking and writing
SPANISH
fluent speaking and writing Academic formation in both English and Spanish from childhood in schools like UAS, FDR and Nido de Aguilas, living abroad in Uruguay, Peru, Chile and recently Spain.
COMPUTER SKILLS AutoCAD SketchUP Rhino Grasshopper Ecotect Impure 3D MAX Processing Adobe Photoshop Adobe Illustrator Adobe InDesign
advanced advanced advanced intermediate intermediate intermediate basic basic basic basic basic
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Biodigital Architecture
2011 | UIC - Barcelona, Spain. Collaboration: Michelle Lavayen Tutors: Alessio Erioli [Co-de-iT ] | Aref Maksoud [MAG LAB]
DESIGN PROCESS
COMPONENT
FORM EXPLORATION
TOPOLOGY
PATH
During a 3 day workshop a Dancing Facility was designed with the use of 3D Studio MAX®. The design process consisted of a component generation, which through copy and transformations created a form, and once managed, a topology. Through the use of animation and editing tools, thickness and movement were given to the pavillion.
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Dancing Facility
RESEARCH
Design Associativity
2011 | IaaC - Barcelona, Spain. Collaboration: Liliana Viveros Diaz, Michelle Lavayen. Tutor: Luis E. Fraguada [LaN Architecture]
Building Component
The goal of the assignment was to study the relationship between information, design and fabrication and implementing that data flow into a physical object. We developed a definition to create a data machine that influences a design informed by external climatic or ambient data. More specifically, we worked with a building component (a skin) that changes its behavior based on climatic forces such as solar radiation. Having as a base one Cerda block of Barcelona, an inflated mesh was designed with the use of Kangaroo to create a skin on top of the buildings.
In this example, we tried to figure out the best orientation for solar radiation capture/absorbance of the skin according to its shape and surface. This eventually would help calculate wich is the best posibility for greater amount of energy production (kwk). The tools used where Rhino, Grasshopper, Kangaroo, Weaverbird, Geco and Ecotec.
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Calculation Tool
2011 | IaaC - Barcelona, Spain. Collaboration: Liliana Viveros Diaz, Michelle Lavayen. Tutor: Luis E. Fraguada [LaN Architecture] The purpose of this project was to create a tool that would help design according to energy. The project contains the use of Grasshopper, DIVA and Geco to help in the design process; integrating architecture, design and sustanability. The goal of the assignment is to create a calculation tool to obtain the amount of kwh/day a surface can produce with the use of solar pannels.This tool is useful to provide design strategies, since it calculates according to the form and location of the building. Defining parameters such as solar radiation, day and time of the year, location, height and connecting points to the ground, we can change the form to fit into the most appropriate response for a specific weather and energy conditions.
Energy Production Calculation 1. In order to start using the tool, you have to set a series of Control Point curves with the shape that you want to give to your mesh. Reference the curves to Grasshopper and loft them. Convert the surface to mesh and divide 20x20 for more detailed calculations. Before running the calculations, make sure the vector normals are looking up with mesh decompose and mesh display. 2. We connect a vector using DIVA and put the latitude and logitude of Barcelona. Then, set the bounds, domain components and gradient to have a graphical representation of the changing insulations through the day. Yellow being the higher value to blue lower value.
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RESEARCH 3. Using the plug-in Geco that links Ecotect to Grasshopper, we connect the same surface and set the controls of export mesh to ecotect and eco sol cal, attached the weather file of Barcelona. Setting an eco day of the year and connect the month, day and hours reference in the DIVA vector used in the beginning. Having the same calculations of Diva in Ecotect creating more specific values of radiation received. Values that will use in the last step to do the calculation of the energy
produced. 4. We decompose the mesh to recognize every square of the grid and manage the openings independently, then connect the DIVA vector (sun) created in the beginning. The result is a list of generic data, we managed that list with a domain of major and minor apertures for the openings, connected to sliders to be changeable. 5. When we get the amount of solar radiation it comes in units of Wh/m2, then convert it into kwh/m2, then find the average value and multiply with the mesh area divided by the photvoltaic solar pannel efficiency to get the total Kwh produced by the mesh in one day.
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Material Systems
2011 | IaaC - Barcelona, Spain. Collaboration: Duygy Kirisogglu, Liliana Viveros Diaz, Nasim Sehat. Tutors: Claudia Pasquero, Marco Poletto [EcoLogicStudio]. The aim of this research project was to test the material strength with the optimization of its elements. More specifically, to find a material that would acquire rigid properties and organize itself after combining it with another material like polymers as binders in aggregation processes.
Fibrous Structures This specific condition is useful in order to replicate the minimal path structures and experiment of Frei Otto. Several tests were made until the most successful material was fiber and caramel. It accomplished the requirements of passing from liquid state applying heat and once dry, became a rigid structure combined with the fiber. The benefit of this research is the possibility to apply to temporary structure, for its strength and its biodegradable character of the materials.
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RESEARCH
Environmental Analysis
2011 | IaaC - Barcelona, Spain. Tutor: Spyros Stavoravdis
Through the use of Ecotect it is possible to analyze best design conditions based on the sun path, spatial visibility of a building, wind flow, temperatures, and even best choice of material for inhabitants confort.
Visual representation of luminance in a space according to dimensions and positions of the openings and wall painted colors.
Solar Access Analysis>Incident Solar Radiation for a Specific period with Cumulative Values on a 5x5 grid.
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[1pm]
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3D Printing
2010 | IaaC - Barcelona, Spain. Collaboration: Carolina Libardi Tutor: Tomás Diez [Fab Academy] Cobogó is the name for hollow elements, originally made of concrete or ceramic, created in the 20th Century. Its name derives from the initials of the surnames of three engineers that worked in Recife, Brazil: Amadeu Oliveira Coimbra, Ernest August Boeckmann and Antônio de Góes. These elements follow the same principle of the old wooden elements of Moorish architecture: solution to the closure of structures.
Creation of a Lego Brick based upon a previous design, with limitations to keep its eight corners and two connecting cylinders to create a wall system. Since cobogós are hollow, they allow the passage of light and ventilation. We decided to use it as a reference to our brick not only for the hollow sections to spare material but also believing that it would be structurally strong since it is already used in architecture.
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To create the brick we constructed five solids with different decoration patterns of cobogós with dimensions 21.67x21.67x2mm, to keep the boundaries required for the material not to break. After constructing the mosaic pattern wall containing 6 bricks on the x-axis and 3 on the z-axis, we used Boolean Union to create a single solid. Then all other surfaces were created, by copying the first and then rotating it on the same edge. Finally we joined them by using Boolean Union.
DIGITAL FABRICATION
Digital Fabrication: The Cobogó Brick [A trip from modern brazilian architecture to 3D Printing]
To prepare the file to print, delete all the construction elements, leaving only the finished brick. Move the obejct to the point 0,0,0 and deleted the unnecessary layers leaving only Default and Layer 1 – where the brick was categorized. At that moment the brick was ready to be exported as a .stl file, and sent to be printed in a 3D printer.
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Laser Cutting
2010 | IaaC - Barcelona, Spain. Collaboration: Carolina Libardi Tutor: Tomás Diez [Fab Academy] To think about a bench is to think about several people and several uses. Some people read, others sleep, some sit and some eat. For the IaaCommunity Bench, we decided to keep it simple and working connecting all uses - a table bench. As the section of the bench was predefined to enable different proposals to connect, we defined that the top of the bench would be flat and the bottom would look like… a bench! The editing process begun by creating a cage with a number of control points. With the Control Points on, we repositioned the points to mold the bench to the form imagined by us. Afterwards we closed the interior surface by Duplicating Edges. Then to create a surface and finally close the bench, we used the command Loft. The next step was to use Contour to create sections of the object in X and Y axis, with individual layers on each axe. After creating the “ribs”, we created the interesections between the ribs in X and Y with the use of a Grasshopper script, in order to save time instead of copying and moving pipes one-by-one manually. After the intersections were made, we baked the axis individually and grouped each rib by using the TOP view and selecting each line separately. Using the Dot command we named each rib and grouped it with it’s piece so we would be able to move them around without getting the order of construction lost. We then rotated the ribs so they could be in the same direction. We trimmed each section in order to get the connection edges. Finally we used another script to engrave the numbers and our name in the pieces under a new layer. To finish the process we drew a rectangle with the dimensions of the wooden board and manually placed each rib inside in order to make the most efficient placement and less use of materials. Finally we created a layer Cut and renamed all the ribs on that layer. The file was then ready to be exported as a .dxf format.
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2010 | IaaC - Barcelona, Spain. Collaboration: Liliana Viveros Diaz, Maria Margariti. Tutor: Tomás Diez [Fab Academy]
DIGITAL FABRICATION
CNC Milling
As an overall analysis of Design Studio I “zero bar” project, the assignment claimed for a 3D model of Barcelona. Following the admistrative subdivisions of the city, a digital 2D CAD format map was created by tracing closed polylines for streets, blocks and buildings. It was decided that the entire city would be considered flat and only the topography of the most important mountains (Montjuic, Collserola, El Carmel) would be shown since the scale is 1:2000 and not all details would be seen.
The purpose of this task was to learn the process to fabricate on CNC Milling machine and also using the Rhino Cam tool in order to preview the file to print. The manufacturing process aims to successively reduce material from the stock model until it reaches the final shape of the designed part. To accomplish this, the typical machining strategy is to first use large tools to perform bulk removal from the stock, then use progressively smaller tools to remove smaller amounts of material. When the part has a uniform amount of stock remaining, a small tool is used to remove this uniform stock layer.
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TOK&STOK
2011 | São Paulo, Brazil. Felippe Crescenti Role in project: Executive Project Status of the project: Built Pictures: http://felippecrescenti.com Deparment store brand with numerous stores spread on national territory. Besides desigining specific furnitures for some “compact stores” the maisntask was to carry out the executive project for one of São Paulo’s main stores expansion. Compability with complementary projects such as lighting, fireman and facades, were made. Also detailing of interior ambients, flooring and finishing elements in accordance to brand’s standards.
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2009 | São Paulo, Brazil. João Armentano Role in project: Executive Project, Interior Design and Construction management Status of the project: Built Pictures: www.wallstreetbar.com.br
WORK EXPERIENCE
Wall Street Bar
Inspired on NY’s stock market, the bar simulates de stocks oscilation inside a market through the sales of its drinks. On 450m2 spread into 2 floors, leds and touch screens fill up the ambiance with the sound of a jukebox on the background, where the client can also choose the music on its touchscreen on the table. Tiles and bricks make up the relaxed for the bohemians. A special VIP snooker lounge is located on the 2nd floor. Walls are decatorated with grafitti by the artist Loro Verz. Detailing of all furniture such as bar, stools, libray and cashier; bathroom, lighting design, roofing and flooring; as well as construction p h a s e management.
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B4 Lounge
2009 | São Paulo, Brazil. João Armentano Role in project: Executive Project, Interior Design and Construction management Status of the project: Built Pictures: www.b4bar.com.br
B4 (before, as read) came as a project to become of one São Paulo’s lounge nightlife meeting point before partying. On clients demmand, the challenge was to restore a 2 floor area and creating a library, pool table, dj pickup space, whisky bar and its most attractive skull x-ray bar lighted by leds. The color theme predominates in blues, black, white and grays, abusing of the use of fabric and leds. Detailing of all furniture such as bar, libray and cashier; bathroom, lighting design, roofing and flooring; as well as construction phase management.
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WORK EXPERIENCE
Interior Design
2009 | SĂŁo Paulo, Brazil. Freelancer 2D plans | 3D models
Several projects done in collaboration with other architects or individually since the year 2007 using programs such as AutoCad, SketchUp, and Artlantis Studio.
Furniture design and deitaling, executive project and 3D model making. Residential 2D executive plans for reform with layout definition and complementary projects such as eletrical, flooring and roofing plans.
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Recycling Skin
2011 | IaaC - Barcelona, Spain. Self Sufficient Master Project Tutors: Vicente Guallart, Javier Peña, Rodrigo Rubio. The objective of the Design Studio is to transform one Cerda Block of Barcelona into a Self Sufficient Block. The concept of the project is to maximize open space by freeing the ground level to provide extra public spaces like plazas and green areas through floating circulation and farming terraces; connecting the new buildings to the existing, and giving back interactive spaces to the city.
> Existing Programme education residential industrial commercial offices parking empty space
current traffic circulation ±0 current pedestrian circulation ±0
= Proposed Programme education(library, medialibrary, public kindergarden) residential(student residence) leisure and culture(auditorium, sport center) commercial and services offices (information and research center for 22@) green space and urban farming parking (underground)
The site is sustainable when it is connecting the community, having all services accessible for its users. Different programs were organized according to better location for those activities and split between public and private. They consist of auditorium, library, media center, offices, residencies, commerce, services and education. Since this project is also concerned about the restoration of the existing buildings and how to implement new spaces that bring something new to the city, it is essential material recyclability in the choice of the materials for construction.
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wind
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natural resources
community
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ACADEMIC FORMATION
resources eficiency
sun
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Gathering all these characteristics, the main design intervention is to create a SKIN that and connects all buildings and provides an exchange of energy between them through: Control of evaporation
Heat regulation
Absorption sunlight
Water capture
The metabolic structure will serve to harvest water to produce energy, clean grey water for farming and public green areas, waste management, and solar photovoltaic panels on south side of the block where it can take advantage of the most of radiation. rain water collection
natural daylight
microclimate
EFTE
cross ventilation
hot air
solar panels
ice
serv
ion
greenhouse roof farming
ulat
circ and
student residence
vertical farming
student residence
windturbine facade
library medialibrary
microclimate
sport center
cross ventilation e 1:200
kindergarten
grey water treatment tanks
treatment tanks
commerce services
cool air
commerce services
existing bullding
parking
The skin provides a shading system on the facades according to the programs and greenhouse effect on the rooftops for farming. It serves as a shadow device for the existing buildings, and allows some light to pass through providing natural light inside the buildings.
The use of vegetation allows the water to be infiltrated into the soil, as well as the green roofs. The waste produced by the farm in the terraces will be used in biomass plant, to help generate green energy off-grid for the block, and to reduce the amount of waste sent to landfills, reducing environmental contamination. The skin will collect rainwater in order to clean and reuse in the services of the building and also for irrigating water for the green spaces and19   farming production.
Concórdia Hall
2007 | PUCC - São Paulo, Brazil. Trabalho Final de Graduação Tutor: Luis Espallargas.
The project attempts to rescue the cultural life of the neighborhood of Brás that was once known as the second film from São Paulo area, where there was the Columbus Theater among other showrooms.
Inaugurated in 1908, in the place of an old market, at the initiative of Coronel Pinto, Columbus theater was the scene of many works such as the Italian composer Pietro Mascagni, who ruled his opera Cavalleria Rusticana. The theater would live for 58 years when in 1966, as decadent - burst into flames. With strong historical context, the design of the Concordia Hall tries to bring back that spirit and artistic community to the industrial neighborhood of Brás. To adjust it to present days, the theater was designed with greater flexibility of use. With the premise of elements that can attract an audience of various ages the space was designed to house both a microphone show, a dance performance as well as a theater or an opera, and finally - a theater complex.
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The choice of site was due to the heavy flow of people in the area, since this is a neighbor of the train station on Avenida Rangel Pestana Bras and is also underground parking in front of the Concorde Square, the main landing points of the visitors neighborhood. The proposed project is to highlight the permeability with the surroundings. To this end, the main entrance is through an extensive public area aimed at exhibitions.
ACADEMIC FORMATION A full program of two theater halls (1800 and 100 people respectively), an amphi-theater for 600 people, foyer, ticket office, restaurant and cafe, as well as workshops and rehearsal rooms. Metal frame, laminate and reflective glass on the facade are some of proposed materials for the project.
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Brás - Urban Proposal
2007 | PUCC - São Paulo, Brazil. Integrated Urban Planning Tutors: Araken Martinho, Ivone Salgado, Luis Espallargas, Ricardo Marques. Collaboration: Beatriz Bossi, Isabella Junqueira, Luciana de-Stefani, Melina Reis, Rahyja Afrange.
Urban planning for central region of São Paulo - Brás. The project consists of site analysis of land use, building heights and conditions, and historical aspects of the city. Proposals were made for revitalizing the region by implementing new public buildings, encouraging private sector investiment in the area and integration of São Paulo Railway station. The metro and train lines were moved to an underground facility, creating a boulevard
that reconnected the dirsputed neighborhood. New activities were proposed to bring back life to the region such as hotel, commerce, winery using old factories abandoned and even the old theatre destroyed once in a fire.
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Preliminary project done in group for the individual final work of graduation Bras - Concordia Hall - 2007.
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ACADEMIC FORMATION
RESEARCH
DIGITAL FABRICATION
WORK EXPERIENCE
ACADEMIC FORMATION
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= current horizontal circulation ±0 generated horizontal circulation ±0 vertical circulation floating circulation ±35
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SUMMARY
URRICULUM RESEARCH DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING DIGITAL FABRICATION CNC ILLING WORK EXPERIENCE ACADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE DIGITAL FABRICATION NVIRONMENTAL ANALYSIS ECOTECT RHINO ARDUINO PROCESSING GRASSHOPPER IMPURE CURRICULUM DESIGN ASSOCIATIVITY ATERIALITY LASER CUTTING 3D PRINTING CNC MILLING ARDUINO COMPUTATIONAL DESIGN WORK EXPERIENCE ACADEMIC ORMATION GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT RHINO ARDUINO PROCESSING GRASSHOPPER ORM FUNCTION BEAUTY DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING CNC MILLING WORK EXPERIENCE CADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT RHINO RDUINO PROCESSING IMPURE CURRICULUM GRASSHOPPER DESIGN ASSOCIATIVITY MATERIALITY 3D PRINTING LASER UTTING WORK EXPERIENCE ACADEMIC FORMATION PARAMETRIC ARCHITECTURE ENVIRONMENTAL ANALYSIS ECOTECT HINO ARDUINO PROCESSING GRASSHOPPER IMPURE CURRICULUM DESIGN ASSOCIATIVITY 3D PRINTING MATERIALITY ASER CUTTING CNC MILLING WORK EXPERIENCE ACADEMIC FORMATION COMPUTATIONAL DESIGN GENETIC ARCHITECTURE ESEARCH ENVIRONMENTAL ANALYSIS DIGITAL FABRICATION RHINO PROCESSING GRASSHOPPER BEAUTY CURRICULUM DESIGN SSOCIATIVITY MATERIALITY 3D PRINTING LASER CUTTING CNC MILLING FUNCTION ECOTECT FORM MODERNISM CONTEMPORARY OMPUTATIONAL DESIGN GENETIC ARCHITECTURE ENVIRONMENTAL ANALYSIS RHINO ARDUINO PROCESSING GRASSHOPPER IMPURE
M.Arch Renata Stefanelli S達o Paulo | Brazil Cel: 55 [11] 9604-8822 renata.stefanelli@gmail.com
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