Portfolio Ana Campos Bordons

ANA C. BORDONS PORTFOLIO / ‘15 ARCHITECTURE + DESING

Cv

CURRICULUM

Co

COMPETITIONS TEMPORARY HOUSING FOR SURFERS IN TARIFA

Pr

ACADEMIC PROJECTS THE HERBERT F.JOHNSON MUSEUM EXTENSION HEALTHCARE CENTER PHILOSOPHER’S RESIDENCE LAKESIDE WALDEN STUDENT’S RESIDENCE REHABILITATION

Wo

WORKSHOPS WORKSHOP AND STUDY TRIP ANDALUCÍA-CUBA INTERNATIONAL SUMMER WORKSHOP

Dr

HAND DRAWINGS

De

CONSTRUCTIVE DETAILS

Personal data

Education

About me

Name: Ana Campos Bordons Date of birth: 20 June 1991 Place of birth: Seville (Spain) ID card: 77819971T Address: Aldolfo Suárez, Seville, 41011 Telephone number: 0034 - 639539389 E-mail: anacbordons@gmail.com

2009 - 2014 5-years course of study at the Higher Technical School of Architecture of Seville. At present I have an average of 7.15 out of 10 points in my studies.

This year, after finish my fifth course at the architecture school, I am developing my final project meanwhile doing an intership at estudioheliopausa. The methodology used at this university aims at practicing design and construction technique, including detailed knowledge of structures, analysis of building system and energy efficiency.

Languages Spanish Native language. Italian C1. Certified in Italian as a foreign language“CELI 4”. Università di Perugia 2013 English B2. First Certificate in English. Cambridge University 2014 Romanian A2. Basic level.

Software skills Proficient: AutoCad Adobe Photoshop Adobe Illustrator Sketchup + VRay Advanced Adobe In Design Revit Architecture Ecotect VP Clima MS Office

2012 - 2013 “Facoltá di Architettura di Bologna”. Erasmus- Study scholarship for 10 months, Bologna,Italy.

Professional Experience Feb. 2013 - Jul. 2013 Italy. Tasks:

Internship at “Studio PAVE Architetti Associati”, in Cesena,

- Work in a requalification project of the neighborhood “La Fiorita” in Cesena, development of a design proposal focused on architectural barriers: Scale drawing of the net, photographic campaign and the analysis of their characters (materials, surfaces and structures). Sep. 2014 - Nov. 2014 Internship at “Urban INCD Proiect”. National Institute of research and development in construction, urban planning and development, and sustainable territories in Bucharest, Romania. Tasks: - Work in the analysis plans of the Masterplan of the city of Arad: Urban structure, green spaces, storical areas, protected buildings... - Work in the project of the “Academia Oamenilor de Stiinta”, in Bucharest, detailed drawing of the floor plans, facades and the sections of the building. Feb. 2015 - In progress Internship at “estudioheliopausa”, in Sevilla, Spain. Tasks: - Work in the Reformed Project of final state of work of a single family home in Palomares, Sevilla. Modification of the working drawings in CAD and the constructive and descriptive memory. - Work in the adequacy of the fire protection project of a gymansium in Dos Hermanas, Sevilla. Photographic campaing, in-situ measurements and design of the new fire protection facilities project.

Workshops 12 May. - 16 May. 2014 “IV Taller de Proyectos y Viaje de Estudios Andalucía - Cuba”. Urban regeneration. Comprehensive intervention in the neighborhood of Jesús María, La Habana (75 hours). 20 Jul. - 26 Jul. 2014 International Summer Workshop “Progettare il paesaggio storico urbano” Narni, Italy (75 hours).

I am aware that nowadays language skills are essential in working life, that is why I took the First Certificate Exam last year, which I passed succesfully. I have spent 10 months in Italy, because I obtained an student grant, and after that I was living in Bucharest for a few months, doing and internship, there, I also had the opportunity of improving my spoken level of english. My favorite hobby is travelling, and I would really like to broaden my work experience and learn about other cultures. In the field of the architecture I am especially interested in the role of architecture in our society, I believe in the design as a tool that can significantly improve the living conditions of people, proposing strategies to enhance the ecological, social and aesthetic quality of the built environment. I am really keen on investigate more about ecological criteria; work in relation to our environment, recycled materials, sustainability, energy efficiency...

Co COMPETITIONS

Co TEMPORARY HOUSING FOR SURFERS IN TARIFA (IM)BALANCE

Longitudinal section

This work is about a reinterpretation of the current seaside picture, the idea is to create something that being artificial looks natural, but without pretending to be natural; this is made alluding to the collective imagination, giving reminiscence of some past ages, like the abandoned bunkers in the beach or the ruins of a roman city. This idea of the ruins looked very appealing to us, framed in this context of the surfer willing to be a part of the environment, and we understand this settlement as some kind of citadel for the surfers, some sort of deconstructed buildings, streets, public spaces... At the end only remains the floor and the low part of the first level, and this is the image that we want to pass on, the structure, the skeleton.

Site plan

Continuing working in the same line of the mimicry with the landscape and a low visual impact, appeared logical to inhabit another level, as a lower level of this citadel, for this reason we buried the modules; also it has a lot of benefits as a strategy for the passive conditioning of the modules, given the fact that the soil is a great thermal regulator.

The module is form by two elements, a wall in which are concentrated all the services and installations, like the kitchen, the bathroom, a ventilation shaft and a storage space; and a diaphanous space, with a flexible floor, which consists in a big bed susceptible of grow or decrease, inasmuch as it’s possible to subdivide the bed pulling out the boards according to the needs of the users.

Dwelling. Floor

The module it’s semi-buried 1’30 meters but it has an horizontal window across the long facade of the house, and also a skylight with the same direction, these elements, plus the fact that one part of the ceiling can be opened and slide under the fix passable ceiling, makes the space inside to look wider and brighter.

Dwelling. Longitudinal Section

Dwelling. Cross Section

Year 2014 Location Tarifa, Cádiz, Spain Collaboration María Isabel Blanco

Organization

Ana Campos Clara Sotillo ReTHINK!NG

Pr ACADEMIC PROJECTS

Pr THE HERBERT F.JOHNSON MUSEUM EXTENSION THE INNER LIGHT

The design criteria used in the treatment of the extension is based on the respect to the built work and their legacy, when Ming Pei designed the museum, he wanted to create a building that didn’t want to be there, because in his opinion is stealing the beautiful views to the user of this area. That’s why it’s forming interstices and large volumes of air, it’s a “landscape collector”. Following this line, the extension is buried and the roof is covered with light vegetation, creating a flat surface where different uses and activities could happen, the idea also include the possibility of set up temporal exhibitions in the open air, inasmuch as the gallery space is just below.

Main elements of the museum proposal

The scheme of the addition is pretty simple, the extension has been located to the south, and a new communications core has been created in order to segregate the circulations. In general terms the addition hosts the new exhibition spaces and the lecture room, and the old building receive the old galleries and the services uses.

1. Sequence The extension consist on a museum in one room, a big room with a double height and courtyards which define the way to follow, in this proyect the easiness in the orientation is very important, that’s why has been created a main path. But there is also a secondary path for the user who come to see the old galleries and after decide to see too the new ones.

Year Location Lesson Professor

2. The glass box The showroom where are located the Asian and Pacific galleries, has four elongated skylights inclined to the southward, whose mission is to bring to the arts works the natural light in an indirect way. 3. Ramps The courtyards serve to generate the museum sequence, given the importance of that fact and the opportunity of a double height, comes out the idea of create a new walk experience trough the ramps. 4. The section The new museum is conceived as a buried box, simple, modest, a new base for the building, which try to not transform as far as possible the old building, and to not interact (in a formal way) with the preexistences and their facades, for this reason the idea is playing with the ground level.

2014 University of Cornell Ithaca, New York, U.S.A. Projects V Javier Terrados

Pr HEALTHCARE CENTER The design criteria used in this work is based on the context; Seville is a city that gives light, characterized by courtyards and roofs. There is a deep interest in the study of natural light in this project, looking for a bright and peaceful atmosphere, while warm and intimate. The main idea given the difficult geometry of the plot is to create an elongated volume that is closed to the avenues of traffic and open to the neighbourhood, so receiving yards by lighting, proper ventilation, and specially, noise isolating. The meeting of the different geometries occurs through a large entrance atrium in triple height, which split the two main axes of the project, one that distributes such queries in two rows, and another that leads to the most complementary uses (staff, rehabilitation, minor surgery etc.)

Ground floor plan

First floor

Year 2014 Location Manuel del Valle Avenue Lesson Professor

Longitudinal section

Cross section

Sevilla, Spain Projects V Javier Terrados

The facades facing the district are fully glazed galleries seeking greater transparency to court chaired by the eucalyptus tree which already existed in the place and it was decided to keep. The curtain wall in solar-long facade is protected with continuous horizontal slats, with this, the perspective is being strongly marked, generating visual attractive and interesting for the waiting areas, while the entry is an almost ceremonial tour; to this end the paving of the square and its gardens are also designed.

This project, located in the forest where Henry David Thoreau lived for a couple of years, follows two different lines of work, related intrinsically to the figure of the philosopher:

Pr

Insight - Contemplation The dwellings are projected with the purpose of make a reinterpretation of the Thoreau Cabin as an individual space and a detachment of possessions and society. The geodesic domes, an element rooted in the collective memory in U.S.A., create a compact and ecological architecture, a thing necessary inasmuch as the place is located in a forest’s heart.

PHILOSOPHER’S RESIDENCE LAKESIDE WALDEN GEODESIC DOMES

Interaction - Action Another topic which receives a special importance are the paths or passages, the idea is to impulse the philosophers to explore the nature (not the learned paths); is intended to create an extensive architecture which encourage to discover something new every day, inasmuch as the nature is inconstant and dynamic.

Site plan

Year 2014 Location Walden, Concord Lesson Professor

Massachusetts, U.S.A. Projects V Javier Terrados

The green house effect plays a very important role here, there are two skins; the interior is the cabin, the minimum space need to live, and the exterior is the glass dome, the intermedium space, which works like a filter, so, in winter the temperature of the living space increases, whereas in summer with the right ventilation the temperature is reduced. The benefits of a geodesic dome are plenty, first of all the energy efficiency due to the form factor, which also produce homogeneity in the distribution of the light, sound and heat; it’s much more economic than a normal house, and it can be built without construction cranes, and within hours. Individual room Has been thought from the ergonomic, the final design it’s a diaphanous space based in a thick wall, curve, in which there are all the furnishings except the sofa-bed.

Pr STUDENT’S RESIDENCE REHABILITATION

The extension consist on two rectangular volumes connected among themselves and with the faculty building (the preexistence) through a glass body. The main aim of the project is to create a new entry, easily and quickly visible, so we have developed a flat square with a large ledge that clearly marks the entrance to the building, creating both a meeting place where relationships between people occur, and making it completely accessible for disable with ramps. We try to define a gradient of privacy in the new set. The existing building is the most private as it is dedicated to student residence, while the other two are public, in the building overlooking the entrance are included administration spaces, a public cafeteria for students and a private kitchen for students in the residence, in contrast, in the building behind the study rooms can be found, not so public. For the exterior we decided to continue the use of brick on the facades which are with the old factory to create a formal continuity, but a brick reinterpreted in a modern key, gray colour, and a different texture has been chosen. While this is completely different to the west facades, which are looking to enjoy the green space, the park, here we have clearly decided to open up, to glaze the entire wall, thus creating a contrast between the massiveness and heaviness of brick, and the lightness and transparency of glass. Year 2013 Location Cesena, Italy Lesson Projects IV Collaboration Alberto Beiroa Professor

Ground floor plan

Main facade

Ana Campos A. Moro - G. Malacarne

Wo WORKSHOPS

The district proposed for the regeneration is in the center of La Habana, in the bay and next to La Habana Vieja. It is a neighborhood with a big potential due to its strategic location and to a valuable industrial patrimony; whereas has several problems like bad integration with surroundings neighborhoods, residential area deteriorated and unhealthy, and a lot of contamination acustic and ambiental, as a consequence of the old factories in the area. The target of the proposal is to create an attractive focus of population, a cultural focus, responsible of this culture. The most important part of the project is the infrastructure system, giving continuity to some avenues which come from “Habana Vieja” to connect both areas, the aim is to make the neighborhood traversable and revalue other streets in the central part of the quarter, giving priority to the pedestrian. Another matter point are the public spaces o green spaces, the idea is to increase the number of vegetation in the neighborhood and tree lined streets, so, for counteract the contamination that was produced in the area by the old factories.

Wo WORKSHOP AND STUDY TRIP ANDALUCÍA-CUBA URBAN REGENERATION

For the regeneration of the bay have been proposed several services like commercials locals and restaurants, which will be located at the rehabilitated warehouses of the port. There is an intention of create some transparency between the bay and Jesús María, that’s why some warehouses will be deconstructed with the aim of produce clean visuals of the sea from the heart of the neighborhood.

System of green spaces

View of the seafront

View of the bay

About the industrial patrimony, several uses have been propose to rehabilitated it successfully, all of these focus in creating a cultural epicenter, which would include conventions center, workshops, rehearsal rooms, expositions pavilions, craft fairs... having special consideration which the area of the trains station and the factory Tallapiedra. The most important about this is to make the population of Jesús María participant of all of these new equipments, so that, they could grow economically.

Sketch. Crossing betwewn Factoria street and Arsenal street Year 2014 Location Jesús María, La habana, Cuba Collaboration Ana Campos

Yoel Núñez Enrique Rey Arleny Rodríguez

Spain avenue

Harbor avenue Sketch. Harbor avenue

We will work mainly in the Harbor Avenue; the idea is to turn the street into a tree lined promenade with pedestrian lane and cycle lane, in addition to the public transport. The fast trains will go underground as well as the fast traffic, the elevated rails will be conserved and reused for a lightweight tram for a local scale, and a promenade with cycle lane.

Wo INTERNATIONAL SUMMER WORKSHOP “PROGETTARE IL PAESAGGIO STORICO URBANO”

The city of Narni is located in a slope, with the old town in the higher part, and the train station in the lower part, the problem is that it’s sharply divided by the river Nera, which only has three bridges, very close one to the other. The target of this landscape project it’s the creation of an agricultural and sustainable parc, which will bring natura towards the city, through the Via Flaminia (romanian path), making possible the conection between the train station and the city of Narni. due to a new cable car. This aim of resolve properly the communications, also include a network of cycle lane along the river and the Flaminia. The proposal also includes the regeneration of the industrial core (caracterized by productions still active, like the linoleum factory) through the predisposition of a business incubator (school, textile museum) and public services strongly atractive (commercial activity, cinema) which will provide nourishment to the local area. It has been designed a wet area, like a big natural pool, in order to regulate the use of the floodplain, in this area we will located phytodepuration plants and growing flat, which we consider ideal for this context.

Year

2014

Location Parco del Nera, Narni, Italy Collaboration Marco Alfidi - Biagio Barra Ana Campos - Andrea CertomĂ Liliana Marcelo - Silvia Tardella Eleonora Tomassini - Antonio Valle

Dr HAND DRAWINGS

Dr “DUTS MOTES DANCING IN THE SUNBEAMS” SUNSHINE. VILHELM HAMMERSHOI

Dr HAND DRAWINGS

Dr HAND DRAWINGS

De CONSTRUCTIVE DETAILS

LEGEND

De CONSTRUCTIVE DETAILS THE HERBERT F.JOHNSON MUSEUM EXTENSION

1. Topsoil (30 cm thick acts as a thermal insulator) 2. Filter sheet. Fiber nonwoven geotextile (100x2m roll, thickness = 1.5 mm) 3. Draining sheet. HDPE membrane (thickness = 0.60 mm, roll 20x2m, module height = 8 mm) 4. Board of decoupling. Expanded polystyrene (thickness = 4 cm) 5. Separating layer. Polyester geotextile (125x2m roll, thickness = 1.5 mm, d = 150gr/m2) 6. Waterproofing sheet of polymer modified bitumen LBM (SBS) - 50 G-FM (thickness = 4.2 mm) 7. Bituminous primer 8. Formation slope. Lightweight aggregate concrete (e.max. = 10 cm, d = 1200kg/m2, strength = 15MPa) 9. Top chord Pratt truss beam. Metal profile IPE 270 10. Straps base slab. IPN 270 metal profile. Anchored mechanically through metal truss beam angle plate bolted to the souls of both beams 11. Forged steel decking: - Slab of concrete HA-25 - Mesh d=4 200x300mm - Sheet MT60, thickness =1,2mm - Lower bars d=10 mm 12. Uprights and diagonal lattice beam Pratt. - Uprights UPN 200 - Diagonals UPN 100 13. Wall 1 foot perforated ceramic brick (24x11, 5x10cm) taken with cement mortar M5-A 14. False ceiling. Two plasterboard thickness = 1.5 mm each. 15. Bottom chord Pratt truss beam. IPE metal 270. Anchored to the concrete pile by a metal plate welded to the beam and the pillar screwed supported on a leveling mortar, e = 1.5 cm. 16. Partition of double hollow ceramic brick (8x24x10cm), taken with cement mortar M5-A 17. Reinforced concrete pillar of section 50x50 cm (HA-25/B/20/IIa) 18. Enclosure. Freestanding concrete panels made with white cement and shuttering tablet 7.5 cm wide. Executed by climbing system 19. Forged health (alveolar forged plate) - Edge (h) + compression layer (c) * width of the plate (s)= 16cm + 5cm*120cm - Weight (kN/m²) = 3,49 - Fire resistance = R120 - Length = 0 - 120 cm - Acoustic isolation = 52 Rw - Minimum length of support = 20 cm 20. Paving. Terrazzo aggregate made from white marble and resin 8mm thick part thickness = 4.5 cm 21. Air chamber floor slab 22. Gravel pack 23. Reinforced concrete pillar of section 80x80cm (HA-25/B/20/IIa) 24. HDPE drainage tube d=30cm, e=5mm and minimum slope = 5% 25. Reinforced concrete footing (HA-25/B/20/IIa) 26. Concrete cleaning (HM-20/B/20/IIa) thickness = 10cm 27. Natural ground 28. Skylight with150 x 125 cm panels with security double glass 12+8+12mm plus infrared reflector 29. Galvanized sheet folded, thickness = 2.5mm assembled on steel substructure 30. Extruded polystyrene insulation boards, thickness =6 cm 31. Enclosure. Freestandins concrete panels made with white cement and shuttering table 7.5cm wide. Executed by climbing system 32. Slab insulation of termination “Roofmate” with tongued edges, thickness = 6cm 33. Stainless angular steel profile of section 10x10cm 34. Steel post and beam structure of section 5x5cm 35. Galvanized sheet folded, thickness = 2.5mm assembled on steel substructure 36. Glass panels 4+6+4mm of dimensions 200x125cm, anchored with four hinges crampons

LEGEND

LEGEND

GRC SELF-SUPPORTING PANELS FACADE (total=22cm) 1. Glass reinforced concrete shell-panel (exterior) thickness = 15mm 2. Air chamber, thickness = 70mm 3. Self-supporting galvanized steel Vertical structure 80x40x2mm (perimeter) and 80x40x1,5mm (interior) located every 600mm 4. Rigid board insulation foam glass thickness = 50mm 5. Glass reinforced concrete shell-panel (inside) thickness = 15mm 6. Connectors, diameter = 8mm, every 600 mm (horizontally) 7. Auxiliary galvanized steel frame 45mm 8. Two plaster plates, thickness = 12’5mm, each 25mm 15. Self-supporting galvanized steel Horizontal structure 80x40x2mm 16. Smooth galvanized steel guide attached to the frame with three self-drilling

1. Plywood panel (thickness = 1.8 cm) 2. Expanded polystyrene plates ( thickness = 4 cm) 3. Glued laminated timber plates (thickness = 12.8 cm) 4. Profile of plywood (9.4 * 16.8 cm) 5. Plywood panel (thickness = 2 cm) 6. Glued laminated wood plates (thickness = 9.4 cm) 7. Bolts (two per bar) 8. Double glazing with camera 12 + 4 + 12 mm 9. High strength polyethylene tube (diameter = 15cm) 10. Structure Douglas fir wood, treated to make it fireproof 11. Double glass chamber 8 + 4 + 8 mm 12. Profile and plywood fence 13. Mortar protection (minimum thickness 45 cm) 14. Floor Heating System (pipe diameter = 2 cm) 15. Expanded polystyrene plates (thickness = 8 cm) 16. Tubular steel profile, length adjustable for anchoring to the base (section = 6cm) 17. Concrete block 50 * 50cm, thickness = 10cm

WAFFLE SLAB (total = 40cm) (Recoverable Caisson) 9. Decoupling edge joint, flexible sheet adhesive crosslinked polyethylene, thickness = 3mm 10. Plinth ceramic 30x10x1’5cm 11. Stoneware ceramic tile 30x30x1’5cm 12. Cement mortar layer, thickness = 2cm 13. Print anti-impact cross-linked polyethylene, thickness = 3mm 14. Waffle Slab - Thickness = 31 + 4 = 35cm - Caisson = 80x80cm - Nerves of 10cm - Armed positive nerve bending (at least) two of 25mm diameter - Pillars of Steel HEB: 300 - Beams HA: H = 30cm B = 20cm - Materials: HA-30 / B / 20 / IIa and Steel B-400S 17. Thermal insulation, rigid expanded polystyrene panel e = 2cm 18. Anchor adjustable galvanized steel 19. False ceiling. Total thickness = 50cm (oversized for the passage of ducts facilities as in health centers is very restrictive regulations regarding ventilation) 20. Two Plasterboard of 1’5cm each CURTAIN WALL (total = 18cm) (Structural silicone, model 50-S polyhedra sky) 21. Aluminum Transom 50mm x 150mm 22. Upright Aluminum 50mm x 150mm 23. Laminated glass with camera, thickness = 32mm (6 + 20 + 6) dimensions: 2x2’5m and 2x1m, type parallel opening window 24. Support vertical tubular aluminum and stainless steel, section 65mm and 1800mm maximum spacing profiles 25. Photovoltaic Slats shadovoltaic colt system LS-4 - Width of blade: 350mm - Power: 27 w - Adjustable (motor control). Tilt 0 ° - 85 ° - Polycrystalline on clear glass (thickness 12mm) Item 26. Fastening and regulation of the slats, the ones passing by the carrier offering a continuous visual appearance.

De CONSTRUCTIVE DETAILS HEALTHCARE CENTER / PHILOSOPHER’S RESIDENCE

THANK YOU! Ana Campos Bordons anacbordons@gmail.com