JAIME SHEEHAN ARCHITECT
Jaime Sheehan CONTACT Architecture graduate Barcelona (Spain); January 6th, 1993 Nationality: Spanish and American Calle Ayala 43, Madrid, 28001 j.sheehan.tejero@gmail.com +34 649 075 375
PROFILE I am an architect who excels in his dedication and willingness to work hard. I am motivated and can adapt easily, allowing me to respond in an organized and responsible way to high-pressure deadlines. I have a particularly strong 3D modeling and rendering skills. I am proficient in many computer programs and can learn quickly new ones. I am specialized in the construction and graphic design, as well as document layouts.
REFERENCES George Koukourakis 2016 Project manager at CBD architects · gpkoukourakis@gmail.com Alphonso Peluso 2016 Professor at the IIT · peluso@iit.edu Andrew Tinucci 2015 Studio professor at the IIT · atinucci@iit.edu Fernando Espinosa de los Monteros 2015 Architect, Co-founder of EM&A · espinosadelosmonteros@ema-arquitectos.com
EDUCATION
COMPUTER SKILLS
Illinois Institute of Technology - IIT (Chicago) 2015 - 2016 Bachelor of Architecture Exchange Program · Fifth year
Autocad
Universidad Politécnica de Madrid (Spain) 2011 - 2017 Bachelor of Architecture · Four years · Member of the Student Council · School board member
Revit
Penn State University (Pennsylvania) Summer 2010 College Credit Program · Course of “Introduction to Architecture” · Course of “Introduction to Painting”
Illustrator
I.E.S. Ramiro de Maeztu de Madrid (Spain) 2008 - 2011 · High school diploma on Science & Technology · Academic award
LANGUAGES
SketchUp Rhinoceros Grasshopper Vray ArcGis InDesign Photoshop Climate Consultant Microsoft Office
Spanish Native
English Fluent
Italian Advanced
French Advanced
PROFESSIONAL EXPERIENCE CBD Architects (Chicago) Jul 2016 - Dec 2016 Architecture associate EM&A (Spain) Summer 2015 Internship in an architecture studio Moneo Brock Studio (Spain) Summer 2014 Internship in an architecture studio InstantHouse (Italy) 2012 International architecture contest 4th edition · Honorable Mention Sika (Spain) 2012 Architecture contest, 17th edition Dolores Escribano (Spain) 2008 Art and design contest, 2008 edition
MISCELLANEOUS Architecture and Design Academy (Spain) 2008 - 2011 Exchange program with Italy and Canada 2009 - 2010 Camps in France Summer 2005/ 2007/ 2009 Camp in San Francisco Summer 2008 Stays in Milan, Genoa and Turin (Italy) Summer 1993 - 2015
PROJECTS INDEX
STUDIO IX
STUDIO VIII
STUDIO VII
STUDIO VI
STUDIO V
STUDIO IV
INSTANTHOUSE
STUDIO IX
Professor: José Glez. Gallegos Location: Madrid, Spain Program: Social condenser Foodies: people passionate about anything related with food or drink. They are devoted to find out all about new restaurants and latest culinary trends. As cars are disappearing in Madrid, new free spaces are created ready for occupation. The proposal colonizes an old car’s infrastructure. The building serves not only to satisfy the palate, but also to have the best views of Madrid, allowing the foodies to share their experience on social networks. The building stands with matrix of light columns in the Bailén’s bridge and allows to distinguish the previous bridge. The spaces inside the building are formed by modular platforms. All this is sewn by a vertical path that joins the spaces creating the “Promenade” along the building.
Model pictures
Model pictures
Main Elevation Level 11
Sliding window
Level 1
Level 2
Level 3
Level 4
Level 5
Level 6
Level 7
Level 8
Level 9
Level 10
Level 11
Level 12
Frosted glass
Tramex of 35 x 35 mm
EPDM’s joint
Column of 30 x 30 mm
Constructive Section IPE 300
Axonometric view
STUDIO VIII
Professor: Lluis Ortega Location: Buenos Aires, Argentina Program: Interior renovation With a carving system we generate new spaces in a conventional building. This creates a three-dimensional network of communications. To do so a path is generated from each entry point and goes up parallel to the facade. These spaces create a series of projections inside the building offset to a lower level and allowing a diagonal vision. After the projections generate the maximum number of connections to create the largest possible routes. This layout tries to fit in the structure’s frame. In the system they can be distinguish different spaces. They need no walls or any type of enclosure, as they are defined by the ramps, stairs and holes. This generates highly diverse areas that enrich the building.
Paths formation
Levels Axonometric view inside
Interior view 1
Interior view 2
Interior view 3
Interior view 4
Main Section
Studio VII
Professor: Andrew Tinucci Location: Chicago Program: Hotel The hotel emerges at the riverfront. Through an organic shape it simulates growth of a root and generates a connection to the landscape. Due to the lack of green areas in Downtown, the project has a greenhouse. To get a better relationship with nature, each plan has its own green areas, including bedrooms, creating barriers between the inside and outside. The wood-structure, consists of prefabricated panels facades and 4 internal ribs. The facade opens holes that lets in light and create a similar atmosphere like a forest. The curved shape allows the facade of the tower end up being the greenhouse covering; while the ribs of the other tower down forming the hearth.
Level -2
Level -1
Level 0
Level 1
Level 5
Level 15
Terrain Render
Lounge 3D section
Patio Render
Model pictures
Sección fugada
STUDIO VI
Spatial organization
3D section
Professor: Blanca LLeó Location: Japan Program: Samurai village Based on Akira Kurosawa’s movie The 7 Samurai, I project a Social Condenser for 3x7 Samurai. I start analyzing the movie’s scenario, and after that I project my own Samurai’s village. The community is organized in small groups of residences that share a Samurai activity: horse riding, katana, bow, martial arts, ninja, zen, and arts & crafts. The village consists of two axes. The first axis is parallel to the existing roads and the second is perpendicular to the slope. I classify the Samurai’s family into 7 different types, and to each type I create a house. All residences are based on the same module and it’s combination creates the Social Condenser.
Nombre: JAIME SHEEHAN TEJERO
House collage
House plan
Nº de expediente: 11391
Asignatura: PROYECTOS 5
Village collage
Model pictures
Village plan
Village section
Village organization
STUDIO V
Professor: Ruiz Cabrero Location: Monegros desert, Spain Program: Train platform For an annual music festival in Monegros’ desert we have designed a new train station between Madrid and Barcelona. As the train station is used only once a year, we placed it near a footpath, previously blocked by the railway tracks. The station is composed of two underground tunnels divided by a steel grid. The first tunnel goes under the railway tracks and connects with footpath, and the second one is the subterranean access to the platforms. Each one has a different type of natural roof lighting that emphasizes each space and gives a dramatic meaning to the whole design. Location plan
Tunnel plan Tunnel image
Tunnel cutting
Platform collage Longitudinal sections
Cross section
STUDIO IV
Professor: Ruiz Cabrero Location: Barcelona, Spain Program: Cultural program The exercise proposes to investigate the construction of a public space in the sea of Barcelona, from punctual actions related to the production of artistic and cultural events. It will be a restructuring of to gain the “edge of the sea” as place for the public use. Using Voronoi’s geometric formula we generate a set of perfectly piled up rocks and producing an abstraction of them we optimize the system opposite to that of the breakwater, connected one to the other. An organizational phenomenon is elaborated then across the geometry of the rocks by a variety of scales and natural forms. Design process
Main section
Structure render
Construction system
Interior collage Floor plan
Structure cutting
INSTANTHOUSE CONTEST Location: Milan, Italy Program: Hall of residence
Through savings and sustainability, we propose a space disconnected of common architecture and lifestyles; encouraging to be the place which the user considers the most comfortable and interesting. By controlling different factors such as heat, noise, lightning, the user is invited to interpret his own space. There are many different skins, giving rise to different sensations depending on the space occupied. It is built mostly of wood and organized by a module with the intention of a cheap and easy construction. The project has the ability to create unexpected situations for the user and dumping all the experiences to the huge public spaces that will create a better environment of creativity and production for the scientists who are living at the “Patchwork home�.
Interior collage
skin
selection
light
noise
stim
Types of layer
heat
rain
climbing plant
shelves
wood shaving
folding screen
wire netting
wood
glass
plants
stim
rain
climbing plant
visibility
3D construction section
Building section
shelves
confort
wood shaving
heat
folding screen
wire netting
noise
wood
glass
plants
promenade
privacy
Floor plan
SKILLS INDEX
THE CITY & THE ENVIRONMENT
ADVANCED MODELING
CONSTRUCTION TECHNOLOGY III
JAIME SHEEHAN TEJERO, Nº: 11391 PRÁCTICA 11 Escala: 1 / 10m
DIGITAL FABRICATION
ENERGY CONSCIOUS DESIGN
CONSTRUCTION TECHNOLOGY I Rastrel galvanizado Tablero chapado hidrófugo
Teja L=30cm
Capa aislante
Cercha de madera
Ladrillo Pastelero 3x25x25cm
Rastrel de madera 3x3cm Baldosín catalán
Remate de madera barnizada
Canalón Bovedilla, h=14cm
Voladizo L<70cm
The city and the environment Functional analysis
Professor: Ester Higueras Location: Tielmes, Spain Program: Landscape analysis
Vocation of use of the soil
The main objective of the course is to understand, analyze and evaluate the relationship among the city, the country, the environment and the landscape; a comparison between the anthropic environment and the territorial medium will be established to discuss the most appropriate uses for each one. The target is to define a criteria of bioclimatic suitability and improvement of the urban landscape, through proper planning of public spaces and buildings.
Hydrographical map
Hypsometric map
Radiation map
Sunlight and shade map
Vegetation map
Geotechnical and geological map
Advanced modeling
Professor: Alphonso Peluso Location: Program: 3D modeling, Grasshopper This course focus on 3D modeling of complex geometric components in architecture and design. Concepts explored concentrate on the advancement of digital design as an iterative process. Various modeling types covered are Explicit Modeling, Nurbs Surface Modeling, Parametric Modeling, and Generative Components and Response Modeling. Output will utilize digital fabrication methods as support of the iterative design process.
3D printed models Grasshopper files
Digital models
Construction Technology III Professor: Ramรณn Araujo Location: Program: Construction project
5.25
2.80
0.60
0.20
2.80
0.40
The practice involves the development of an architectural construction project for an entire building to a level as close as possible to the project implementation. The goal is to design a building based on the consistency between design and construction. The course aims to give advanced constructive solutions to be applied in any building. Therefore, the project is about a reformulation of the Cocoon House of Paul Rudolph. The project is designed to be radical in its construction. All components have been modulated and prefabricated. This reduces the cost of the building, simplifying and speeding up the construction.
Digital fabrication
Professor: Alphonso Peluso Location: IIT campus Program: Carbon fiber facade We explore the design and fabrication of components in contemporary practice. We investigate through the design and prototyping of a custom component. Behavioral models of components using simulation and analysis tools (flow, system dynamics, etc.). Use of CAD tools to model components for production (modeling for CNC considering toolpaths and jigs). Use of CAD tools to analyze properties of components. Material properties and related fabrication constraints. Current fabrication processes. All this to produce a carbon fiber facade in a 1/1 scale. Facade process Digital file
Carving the mold
Molding the carbon fiber
Preparing the carbon fiber
Working model
Final model
Energy Conscious Design Professor: Matthew Herman Location: Houston, TX Program: Carbon fiber facade Dry bulb temperature
Dew point
Relative humidity Sun path
Direct normal radiation
Diffuse horizontal radiation
Wind speed
Radiation rose Heating degree hours
Cooling degree hours
Precipitation
Cloud cover
Standard effective temperature
Thermal stress
Wind rose
We studied Houston climate through diverse software (Grasshopper, Ladybug) and we tested 27 energy model variations in addition to the baseline through eQuest. We got a building with a 24% of energy savings and that has an affect on the money and marketing of it. lt is also more conscious with the environment while it is complying with all the current standards. The building provides a comfortable space far both clients and workers as well. The target is to learn useful skills for future designs ad understand better all the energy concepts. Also to develop the tools to change a buildingâ&#x20AC;&#x2122;s energy conÂsuption and how to get savings in every single design.
24% savings
JAIME SHEEHAN TEJERO, Nº: 11 PRÁCTICA 11
Albardilla cerámica prensada, p=5%
Construction Technology I
Mortero de agarre
Plots
Professor: Juan C. Palacios Location: Escala: 1 / 10m Program: Construction details
Escala: 1 / 10m Baldosa armada antideslizante (40x40x3cm)
Estrivos para esfuerzo cortante ø12cm
JAIME S PRÁCTIC
UPE 140
Armadura superior, ø12cm Redondo de negativos, ø12cm #10cm
Soldadura
JAIME SHEEHAN TEJERO, N: 11391 PRÁCTICA 8
Escala: 1 / 10m
JAIMEEscala: SHEEH1 PRÁCTICA 10
Plots Baldosa armada antideslizante (40x40x3cm)
Knowledge of the basic principles of architectural construction and building systems: support system (foundations and structures), and external building envelope (walls and roofs), highlighting the relationship between form, materials and processes necessary to define constructively an architectural idea, applied to the architecture of the graphic lifting techniques at all stages.
IPE 140
Capa aislante
Bovedilla, h=14cm
Armadura inferior, ø20cm
Albardilla cerámica prensada, p=5%
Escala: 1 / 10m
Mortero ignífugo
Cámara ventilada Ladrillo Pastelero 3x25x25cm
Placa cerámica hueca
Mortero de agarre
Rasilla (3cm) Rastrel galvanizado Estrivos para esfuerzo cortante ø12cm
UPE 140
Baldosín catalá
Tablerosuperior, chapadoø12cm hidrófugo Armadura
Soldadura
Redondo de negativos, ø12cm #10cm
Teja L=30cm Ladrillo Plt 14 Placa de anclaje Sumidero
Hormigón expandido
Bovedilla, h=14cm
Varilla de acero soldada Ladrillo Pastelero 3x25x25cm
Capa aislante Ladrillo Plt 14
Cámara ventilada
Ladrillo Pastelero 3x25x25cm
Ladrillo hueco 12 x 18 x 25 cm IPE 140
Capa aislante
Enlucido
PlacaLadrillo cerámica hueca L.C.V. Palau
Sumidero Rastrel de madera 3x3cm
Cercha de madera
HA /20
RHS 100x50x4
Mortero ignífugo
Placa de Pladur
L 100x60x8
SHS 50x4
Baldosín catalán
SHS 50x4
Ladrillo hueco 12 x 18 x 25 cm
Remate de madera barnizada
Bovedilla, h=14cm
IPE 140Revoco de mortero
HA-25/P/30/Ia
Cajón de persiana
Mortero ignífugo
L 100x60x8
Bovedilla, h=14cm
Losa de Piedra e=3cm
Canalón
IPE 140
RHS 100x50x4
Junta de dilatación
Carpintería de madera
Bovedilla, h=14cm
Mortero de agarre
Chapa metálica Bovedilla, h=14cm Mortero ignífugo Placa de Pladur
Vidrio de doble hoja
Voladizo L<70cm
Grava
L 100x60x8
Capa aislante
SHS 50x4 Ladrillo hueco 12 x 18 x 25 cm
Papel de traza Capa aislante
Escala: 1 / 10m
DETALLE EN PLANTA
Escala: 1 / 10m
Grava
Escala: 1 / 10m Ladrillo Pastelero 3x25x25cm
Capa aislante Papel de traza
Bovedilla, h=14cm
Alfeizar corto con goterón
Chapa metálica Ladrillo Pastelero 3x25x25cm Enlucido de yeso
Placa de Pladur
Tabiquillo palomero Ladrillo L.C.V. Palau
Escala: 1 / 10m
Escala: 1 / 10m Escala: 1 / 150m Ladrillo L.C.V. Palau
12,00
3,15
0,80
Escala: 1 / 150m
0,30
0,30
5,85
0,80
3,00
Pilar 0,80 0,30
Zuncho
0,80
0,30
3,15
6,00
Pilar
Solería general prensada Ladrillo 14 x 28 x 2 cm
Armadura ø16mm 9,00
Zuncho Bovedilla
Bovedilla, h=14cm
Armadura ø16mm Viga
3,00
Bovedilla
Manta de fibra de vidrio, e=50 mm
Viga
Manta de fibra de vidrio, e=50 mm
Vigueta
Planta Baja
Cimentaciones
Zapata
Escala: 1 / 5m
Vigueta
1
Zapata
2
3
Cimentaciones 4
Estribos ø12mm
1
2
3 Estribos ø12mm
Escala: 1 / 5m
4 Fase de Escala: 1 / 10m Hormigonado
Fase de Hormigonado