Ana C. Bordons Portfolio by Ana Campos Bordons

ANA C. BORDONS PORTFOLIO ‘16

ARCHITECTURE + DESING

CURRICULUM

COMPETITIONS HOUSING MASTERPLAN IN CHILE XXV PLADUR IBERIAN COMPETITION TEMPORARY HOUSING FOR SURFERS

ACADEMIC PROJECTS HOUSING WITH COMMUNITY SPACES MUSEUM EXTENSION HEALTHCARE CENTER PHILOSOPHER’S RESIDENCE LAKESIDE STUDENT’S RESIDENCE REHABILITATION

WORKSHOPS CÁTEDRA BLANCA CRUZ Y ORTIZ WORKSHOP ANDALUCÍA-CUBA INTERNATIONAL SUMMER WORKSHOP

HANDMADE

CONSTRUCTIVE DETAILS

Personal data

Education

Workshops

About me

Name: Ana Campos Bordons Date of birth: 20 June 1991 Place of birth: Seville (Spain) ID number: 77819971T Address: Nuttall Street, London, N1 5LL Telephone number: 07856752812 E-mail: anacbordons@gmail.com

2009 - 2015 ARCHITECT. 6-years course of study at the Higher Technical School of Architecture of Seville. Average of 7.2 out of 10 points in my studies, Final Project: 8/10.

14 Sept. - 25 Sept. 2015 “Cátedra Blanca Cruz y Ortiz”. Urban intervention. Revitalization of the area around the bridge El Cachorro, Sevilla (100 hours).

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

20 July - 26 July 2014 International Summer Workshop “Progettare il paesaggio storico urbano” Narni, Italy (75 hours).

After obtained my degree in Architecture, I’ve started a platform with a partner, “AZZAR”; we’re currently orientated to visualizations of architectural projects, whereas open to different ideas.

Languages

Professional Experience

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).

Spanish Native language.

Oct. 2015 - In progress Foundation member “AZZAR architects”

Publications and expositions

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

Software skills Proficient: AutoCad Adobe Photoshop Adobe Illustrator Adobe In Design Sketchup + VRay Advanced Revit Architecture Rhinoceros Grasshopper Ecotect Intermediate VP Clima Cypecad

- Realization of visualization works for architectural projects. Sept. 2015 - Nov. 2015

Work at “CHSarquitectos” in Sevilla, Spain. Tasks:

- Collaboration in the International Competition for a Masterplan of 1.470 social houses in “La Pampa de Alto Hospicio”, Chile. THIRD PRIZE. Feb. 2015 - April 2015 Spain. Tasks:

Internship at “estudioheliopausa” in Sevilla,

- 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. Sept. 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, historical 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. 2013 - July 2013 Cesena, Italy. Tasks:

Internship at “Studio PAVE Architetti Associati” in

- Work in a requalification project of the neighborhood “La Fiorita” in Cesena, development of several design proposals focused on architectural barriers.

November 2015 Publication of the project “(IM)BALANCE” in RETHINKING collection #001 Architecture competitions “Temporary housing for surfers in Tarifa”. Seville, RETHINKING & RU books, Nov. 2015, ISBN: 978-84-941838-8-1. October 2015 Exposition of the final carrer project “Alternativa sostenible al desarrollo residencial en las periferias” at the Higher Technical School of Architecture of Seville. September 2015 CÁTEDRA BLANCA. Exposition of the project “Cómo salir de Sevilla sin ser un fugitivo” at Valentín Madariaga Foundation in Seville. June 2015 XXV PLADUR IBERIAN COMPETITION. Exposition of the project “Teoría de conjuntos” at “Museo del traje” in Madrid. FIRST PRIZE at the Installation Category.

The methodology I’ve acquired at this university aims at practicing design and construction technique, including detailed knowledge of structures, analysis of building system and energy efficiency. I’m aware that nowadays language skills are essential in working life. For that reason, I’ve spent 10 months living in Italy, studying, and after that a few months in Romania, doing an internship. 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’m especially interested in the role of architecture in our society, proposing strategies to enhance the ecological, social and aesthetic quality of the built environment. I’m really keen on investigate more about ecological criteria, recycled materials, energy efficiency...

Co COMPETITIONS

3rd PRIZE

Co HOUSING MASTERPLAN IN CHILE 1.470 VIVIENDAS EN ALTO HOSPICIO

THIRD INTERNATIONAL PRIZE

The aim of the project is to organize the city, drawing the life of the new neighborhood until the way to inhabit the house. We started extending the roads of the Alto Hospicio urban grid and establishing new growing patterns, supported in that grid. The blocks are delimitated by traffic routes, and inside them, we create a fabric of homogeneous plots, where the dwellings will fit. These houses are clustered around squares, which will be, the activity, relation and community services core. The neighborhood is generated with the grid of squares of different sizes, linked with pedestrian and traffic streets. This general ordination and their inner organization, configures a range of scales and relationships which go from the house to the block, and from the same to the neighborhood and the city.

General section. Public space

Masterplan. Connection with the city 1470 dwellings + public spaces + community services

Block type

Roads

Square

Pedestrian streets

Plots

Courtyards

Dwellings

Type block with central square

Dynamic typology. Extensions

Dynamic typology. Axonometry Single family house On housing, we have two typologies of dwellings. The one which is repeated more, is the dynamic type; a house for a single family which has the possibility of be extended by its own inhabitants. In a city as Alto Hospicio, were important two things, the low density character, in order to follow the city grid; and the self-construction component, due to the variability of the families and their low purchasing power. Whereas we have a second type of dwellings, the statics ones; these are multifamily houses, located in blocks of four levels, with a ground floor for shops and community services. These houses are located in the limit of the neighborhood, as a “barrier”, to separate the city from a high-speed road and the desert.

Phase 1 Ground floor

Phase 1 First floor

Phase 2

Phase 3

Dynamic typology. Extensions

Year 2015 Location Alto Hospicio, Tarapacá, Chile Collaboration CHSarquitectos

María Isabel Blanco Ana Campos Paula Quijano Organization MINVU.Ministerio de vivienda y urbanismo.Chile

Phase 1. (52’5 m2) Services core + dinning - living room + 2 bedrooms

Phase 2. (68’2 m2) + 3rd Bedroom or living room

Phase 3. 73’3 m2 + 4th Bedroom or living room

1st PRIZE Co XXV PLADUR IBERIAN COMPETITION

“TEORÍA DE CONJUNTOS” FIRST NATIONAL PRIZE (INSTALLATION CATEGORY)

The competition encouraged the rehabilitation of a spanish farmhouse “El Cortijo del Fraile”, located in the natural park Cabo de Gata - Níjar. Turning it, into an Horticulture research center and a Lanscape interpretation center. The project we propose, begin on the premise that we understand both centers (lanscape interpretation and horticulture) as two independents buildings which work with two different eco-efficient systems. The first one is hosted by the existing building of the farmhouse, and due to the thickness of its walls have a proper energetic working. Whereas, the second one, the horticulture research center, is designed from the energy efficiency. That’s why it has several solar chimneys, which have the function of cooling the laboratories through the ventilation that it’s produce in the same. On the other hand we were pretending with the intervention to create a contrast between the new and the old building.

The working of the solar chimneys changes according to the time of the year. So, in summer, the air is cooled while passing through the trees located behind the building, and once filtrated by the chimneys, it will go up due to the differences of pressure and the Venturi effect. Meanwhile in winter, also due to Venturi, the cool air it is capturated by the chimneys and warm it thanks to the interior walls that work as solar collectors. As an strategy to unify both buildings, we will disponse a skin that runs in a continuated way these two corps, and at the same time, it regulate the bright intensity in the different spaces. This skin, can be materialized in an interior form through PLADUR plates, with them, we conform a wall which gives dignity to the most representative spaces in which weâ&#x20AC;&#x2122;re intervening. Furthermore, this skin will be also showed in an exterior form; in the facade of the new building with the coating, and in the meetings of both edifications with something lighter, a metallic pergola. We propose an innovative use for the PLADUR plates (plaster plates) as an alternative to the traditional continuous clatting.It is a solution that reaches an accurate handling of the light, providing a whole spectrum of lights and shadows, which will be controlled in function of the differente colocation of the system. This system itâ&#x20AC;&#x2122;s extremely versatile when working in rehabilitation.

Year 2015 Location Níjar, Almería, Spain Collaboration Alberto Beiroa

María Isabel Blanco Rocío Blanco Ana Campos Organization Pladur

Co TEMPORARY HOUSING FOR SURFERS IN TARIFA

Longitudinal section

â&#x20AC;&#x153;(IM)BALANCEâ&#x20AC;? EXPOSITION IN MADARIAGA FOUNDATION, Sevilla, 2015

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

Dwelling. Floor The module it’s semi-buried, due to the low visual impact, and the benefits of the passive conditioning, given the fact that the soil is a great thermal regulator. It has an horizontal window across the long facade, and a skylight in 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. The structure of the dwelling is really simple, it’s form by two elements, a wall in which are concentrated all the services and installations, kitchen, bathroom, ventilation shaft and storage space. And a diaphanous space, with a flexible floor, which consists in a big bed susceptible of grow or decrease according to the needs of the users.

Dwelling. Longitudinal Section

Dwelling. Cross Section

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

Organization

Ana Campos Clara Sotillo ReTHINK!NG Platform

Th THESIS

Th HOUSING WITH COMMUNITY SPACES

“ALTERNATIVA SOSTENIBLE AL DESARROLLO RESIDENCIAL EN LAS PERIFERIAS” EXPOSITION IN THE SCHOOL OF ARCHITECTURE OF SEVILLE, 2015

Community orchards FREE USE SPACES

Community gardens

Public gardens

That’s why, these dwellings include; huge green spaces, shops, community spaces... and the majority of them are public and can be crossed by the city, improving the relationships with the neighborhood. Definitely, it’s searched to create a community life which, without intended to be self-sufficient, it wants to have their own management organism and to inhabit in a more clean and ecofriendly way.

Dwellings for 2/3 people

Dwellings for disable people

Dwellings for 2/3 people

This housing project aims to propose a new city image, which contributes diversity and at the same time returns something to the city.

Sketch.View from the main avenue

Solarium

Parking access

Type floor 1 - Elevation +5’00/ +11’50/ +18’00/ + 24’50 m

The project has taken into account the passive strategies in the design of the buildings with the idea of accomplish a much more efficient complex. To begin, it has been chosen linear blocks with orientation North-South, which favour a better thermal conditions in the interior of the houses, furthermore, this situation is also ideal for having cross ventilation in Seville. Because of the planning legislation, it has been decided to create a “fake facade” which has additional uses to the houses, serve as a connection, and it’s aligned to the main street. This work is characterized by the emphasis that it has been put in create a community live. In the ground floor there are different services like kindergarten, gym, cafeteria, study room, laundry, community room, shops... Also we have community orchards or free use spaces in the main facade, mixed with experimental apparments; in those spaces the residents can plant flowers or veggies, but as well, organize different activities like, yoga classes, workshops, parties... Lastly, the ground floor is public and can be completely crossed by day, allowing the relationship of the residents of the complex with the neighbours from closer buildings which come the use the services.Green spaces are really important in this project, their design correspond to logical criteria of spatial planning and to the paths of the users.

View from the communication core

The project has three facades clearly different. The main facade has an expositive character, which pretend to contribute with something to the city and give indentity to the residential complex; for this reason the composition has been thought like a set of large volumes, striking. It’s intended to be easily perceived from a vehicle which travels at a high speed, but also from a pedestrian, because it’s very permeable too, inside the facade are happening a lot of activities, and all this movement make it a living facade, with which the city dialogues and relates to. The second facade, the one with the galleries, it’s more intimate, more for the community, and it’s oriented to the gardens of the complex. The most interesting thing about this facade is the movement that it’s generated in the same, the broaden spaces which are created at the entrance of every apparment (thanks to the exempt galleries) produce a lot of meeting places or opportunity spaces for the neighbourg, spaces that the user can appropiate of for hang out the clothes, take out a table and a pair o chairs and chat, play with the kids... Finally, the third facade, south oriented, is the most intimate; however it’s also though for giving a determinated image to the street, because it has a clearly composition of fulls (slatwalls) and emptys (terraces), the difference with the others it’s that this facade it doesn’t relate with the street. The slatwalls are swing panels, with a caracteristic bronze color, and which can be opened and closed whenever the user wants, making the image of the building flexible and variable.

Dwelling for 1/2 people TEMPORARY HOUSING

Main facade

Dwelling for 1/2 people TEMPORARY HOUSING

Community gardens

Public gardens

Dwellings for 2/3 people

Longitudinal section Dwellings for 4/5 people

Dwellings for 2/3 people

Solarium

Parking access

Type floor 2 - Elevation +8’25/ +14’75/ +21’25/ + 27’75 m

Side facade

Dwelling type 1 (2/3 people) S= 74’30 m2

Dwelling type 2 (4/5 people) S= 97’80 m2

We can perceive two kinds of appartments in the project: The ones from the residential blocks, which are thought for a typical nuclear family and at the same time it will be break down in two types; allowing to take in different types of families, one with three bedrooms, and the other with two bedrooms. The second kind are the appartments from the hybrid block, which are rental housing; those are a category more experimental, and are thought for one person or a couple. In this block, we have one floor appartments and one floor community orchards, they go alternated. In addition, in the first floor, we can find six houses specially designed for people with reduce mobility, as well as parking lots for the same.

Dwelling type 3 (1/2 people) S= 38’10 m2 “Day zone”

Dwelling type 3 (1/2 people) S= 38’10 m2 “Night zone” View from a window of the experimental type The advantage of these small appartments is that they are very flexible, there is a big open space which can be use as kitchen- dinning- living room, and a mobile partition (which acts like a wardrobe) separates it from the bedroom and the bathroom.

Year 2015 Location Entrenúcleos, Sevilla, Spain Lesson Thesis Professor Rafael Casado

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.

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. The main elements of the museum proposal are the followings: The 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, thatâ&#x20AC;&#x2122;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. 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. The 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. 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.

Year Location Lesson Professor

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.)

First floor

Year 2014 Location Manuel del Valle Avenue

Ground floor plan

Lesson Professor

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.

Longitudinal section

Cross section

Pr PHILOSOPHER’S RESIDENCE LAKESIDE WALDEN “GEODESIC DOMES”

Site plan

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: 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. 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.

Year 2014 Location Walden, Concord

EJ 3

Module. Ground floor

EJ 3

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.

10 (m) 1 E=1/75

Module. Section AA’

Module. Section BB’

10 (m) E=1/75

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

Wo CÁTEDRA BLANCA CRUZ Y ORTIZ

“CÓMO SALIR DE SEVILLA SIN SER UN FUGITIVO” EXPOSITION IN MADARIAGA FOUNDATION, Sevilla, 2015

This project is located in a marginalized area of Sevilla, it’s boundaries are the riverside, the bus station and one the most important bridges of the city, the point of the proposal is to revalorizate this area and connect it to the city center. Through the analysis we define the strategies to follow in the plot, which are: Use the strategic localization (Urban gate), City dump to the river, and Remove the marginalization character.

+ 10’00. Gazer Square

Apart from that, we understand that the new office tower and the shopping center of César Pelli, together with the power of the Expo’s reminiscenses and the future projects in the Cartuja, will create a new hotspot which will despolarise Sevilla. This point will be the key since it can be considered as the link between these two poles. All this makes us understand, that the project must be done through an urban intervention and not as a punctual action in the parcel, we will work then in a city scale. So, this proposal tries to solve some of the most problematics aspects, in order to make this area of Seville have the importance a place in such a privileged situation deserved. Regarding traffic, we propose unlinking the entrance and the exit to the actual bridge’s in two separated roads, two lanes are kept in the entrance, making the same route, however, the way out formed also by two lanes, will be redirected until the bus station.

Site Plan

+ 4’50.

Associations terrace

+ 4’00.

Cafeteria/Bar terrace

+ 3’00.

Lineal Park

+ 2’50.

Skatepark

+ 2’50.

Footbal fields

+ 2’50.

Rehabilitated bridge

+ 2’50.

Another important fact it’s that we propose to locate lots of parking area on the other side of the river, closer to Pelli’s Tower and te comercial center, and seeting free much more space for the pedestrian in this side of the river, which is so close to the city center.

River

Year 2015 Location Sevila, Spain Collaboration María Isabel Blanco

Antonio Bonilla Ana Campos

Organization Cruz y Ortiz/Vazquez Consuegra

There is a big effort to make predominate pedestrians areas to roads. To begin, the board of the bridge will be rehabilitated; the lanes for the car and the buses will be reduce, increasing the space for the pedestrian. On the other hand, the pavement of the new square, homogeneized and pursue, the idea of the vehicle feeling that overrun a space which it’s not from them, it’s from the pedestrian, making them thereby go slowly. About the uses, we considered that we should keep the existent uses but giving them the importance they deserve, making dissapear all the barriers and fences that were pulling away ones from the other.

“Midnight in Sevilla”

“Un paseo para recordar”

“Viernes Santo”

There are so three main uses, a sportive area with skatepark and football fields, a comercial and restoration area, and spaces for associations.

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. 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.

Wo WORKSHOP AND STUDY TRIP ANDALUCÍA-CUBA “JESÚS MARÍA. ALTERNATIVA AL DESARROLLO CULTURAL DE LA HABANA”

System of green spaces

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. 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.

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 with 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. 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.

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

Sketch. Harbor avenue

Harbor avenue

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.

Landscape proposal

General view

Year 2014 Location Parco del Nera, Narni, Italy Collaboration Marco Alfidi - Biagio Barra Ana Campos - Andrea Certomà Liliana Marcelo - Silvia Tardella Eleonora Tomassini - Antonio Valle

Ha HANDMADE

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

Ha WORK MODEL

“EFFICIENT SKIN” EXPOSITION IN THE SCHOOL OF ARCHITECTURE OF SEVILLE, 2015

This model was made for the project of a new facade for the School of Architecture of Seville. The main target of the proposal was to reduce the solar incidence in the classrooms which came through the windows, given the fact that thata facade it’s oriented to the south. The project emerge from the idea of separate the new skin from the existent facade, breaking the schemes and the established proportions, and giving space to the dinamism and the diagolanility. The point it is to create a tridimensional facade that generate an interesting play of lights and shadows.

De CONSTRUCTIVE DETAILS

DETAIL 1

De CONSTRUCTIVE DETAILS HOUSING WITH COMMUNITY SPACES

1.01 Natural ground 1.02 Filter sheet. Fiber nonwoven geotextile, thk = 1.5 mm 1.03 Gravel pack Ø >25 mm 1.04 Polyethylene film 1.05 Concrete cleaning (HM-20/B/20/IIa) thk = 10cm 1.06 Waterproofing sheet of polymer modified bitumen 1.07 Separating layer. Polyester geotextile, thk = 1.5 mm 1.08 Reinforced concrete slab (HA 25/B/20/IIa) thk = 80cm 1.09 HDPE drainage tube d=18cm, thk=5mm and minimum slope = 5% 1.10 Lost formwork made of double airbrick, thk = 8cm 1.11 Draining sheet. HDPE membrane, thk = 0.60 mm 1.13 Concrete slab (HM 25), thk= 10cm 1.14 Concrete joint with profile sealing neoprene 1.15 Reinforced concrete basement wall (HA 25/B/20/IIa) thk= 35cm, exterior waterproofed. 1.16 Coated gypsum paste, thk= 1.5cm 1.17 Reinforced concrete pillar (HA 25/B/20/IIa), section 60x65 cm

DETAIL 3

2.06 Board of decoupling. Expanded polystyrene, thk= 2cm 2.07 Waterproofing sheet of polymer modified bitumen 2.08 Pavement. Porcelain stoneware, dimensiones 59’6 x 59’6 x 1 cm 2.09 Stainless steel handrail with protective metal mesh 2.10 Outdoor registrable accesible ceiling, thk = 35 cm 3.01 Glassfibre reinforced concrete panel - exterior sheet- thk=15mm 3.02 Ventilated air chamber, thk=70 mm 3.03 Connecters. Bender bar which join the GRC with the structure 3.04 Freestanding galvanized steel vertical structure 3.05 Glassfibre reinforced concrete panel - interior sheet- thk=15mm 3.07 PVC round gutter Ø = 10 cm 3.09 Linear sink, continuation of the pavement, thk=1cm 3.10 Fixed wood panel coated aluminium, color bronze

DETAIL 5

2.09 Stainless steel handrail with protective metal mesh 3.04 Freestanding galvanized steel vertical structure 3.13 Double glass sheet (4,6,4)mm 3.14 Anodized aluminium sliding window with PVC inner frame in white, with thermal break 3.15 Aluminium pre-frame, thk=20mm 3.16 Flashing conformed with stainless steel plate, thk = 2.5 mm

DETAIL 2

1.18 Terrazzo tile for exterior use, dimensions 40 x 40 x 2.5mm 1.19 Concrete slab (HA 25/B/20/IIA) thk= 10cm 1.20 Elastic joint of expanded polystyrene, thk= 3cm, Λ = 0,036 w/mk 1.21 Natural stone plinth, dimensiones 40 x 40 x 2.5 cm 2.01 Filled up of the reticular forged HA-25, thk= 35 cm 2.02 Insulation. Board of expanded polystyrene, thk=4cm, Λ = 0,036 w/mk. 2.03 Layer of river sand, thk= 4cm 2.04 Installation mortar, thk= 2cm 2.05 Pavement. Porcelain stoneware, dimensiones 59’6 x 29’7 x 2.5 cm 2.06 Foam board. Expanded polystyrene, thk= 2cm 3.12 Security exterior door, conformed by an aluminium frame with thermal break, thk = 46 mm

DETAIL 4

2.03 Layer of river sand, thk= 4cm 2.04 Installation mortar, thk= 2cm 2.11 Outdoor suspended accesible ceiling, thk = 20 cm 2.12 Indoor suspended accesible ceiling (plasterboard) thk = 33 cm 2.13 Anti-impact sheet of cross-linked polyethylene foam, thk= 5mm 2.14 Pavement. Porcelain stoneware, dimensiones 66 x 44 x 1 cm 3.05 Thermal insulation. Rigid foam glass panel silico aluminous, thk= 60mm, λ =0’04 w/m2k 3.11 Self cladding metal galvanized steel structure, finished with two plasterboard panels, each thk=13mm 3.13 Double glass sheet (4,6,4)mm 3.14 Anodized aluminium sliding window with PVC inner frame in white, with thermal break 3.15 Aluminium pre-frame, thk=20mm 3.16 Funky store polyester 4.06 Double glass sliding door (4,6,4)mm

DETAIL 6

2.13 Anti-impact sheet of cross-linked polyethylene foam, thk= 5mm 3.18 Solar protection. Tilt panel with slats, made of wood coated aluminium, dimensions 225 x 50 cm, color bronze 5.01 Decoupling board. Rockwool, thk = 4 cm, Λ= 0’036 w/mk. 5.02 Thin bricks for the concrete formwork 5.03 Conformed pending with a light aggregate concrete 5.04 Regularization mortar, thk=2cm 5.05 Waterproofing sheet of polymer modified bitumen 5.06 Separating layer. Polyester geotextile, thk = 1.5 mm 5.07 Insulation. Board of expanded polystyrene, thk=4cm, Λ = 0,035 w/mk. 5.08 Flooring “Filtrón”. Filter porous concrete slab, dimensions 60 x 60 x 4cm 5.09 Parapet, conformed with one foot of perforated bricks 5.10 Coated paster, screed and plastering, finished with white paint, thk= 1.5 cm

uctural scheme

- Lower bars 1 10 12. Uprights and diagonal lattice beam Pratt. LEGEND - Uprights UPN 200 - Diagonals UPN 100 1. Topsoil (30 cm thick acts as a thermal insulator) 13.nonwoven Wall 1 foot perforated ceramic (24x11, 5x10cm) taken with cement 2. Filter sheet. Fiber geotextile (100x2m roll, thicknessbrick = 1.5 mm) 3. Draining sheet. HDPE membrane (thickness = 0.60 mm, roll 20x2m, module height mortar M5-A = 8 mm) 14. False ceiling. Two plasterboard thickness = 1.5 mm each. 4. Board of decoupling. Expanded polystyrene (thickness = 4 cm) 5. Separating layer. Polyester geotextile (125x2m roll, thickness = 1.5 mm, d = 150gr/ 15. Bottom chord Pratt truss beam. IPE metal 270. Anchored to the concrete pile m2) by a metal plate welded to the beam and (thickness the pillar screwed supported on a 6. Waterproofing sheet of polymer modified bitumen LBM (SBS) - 50 G-FM = 4.2 mm) leveling mortar, e = 1.5 cm. 7. Bituminous primer 16.Lightweight Partitionaggregate of double hollow ceramic brick (8x24x10cm), taken with cement 8. Formation slope. concrete (e.max. = 10 cm, d = 1200kg/ m2, strength = 15MPa) mortar M5-A 9. Top chord Pratt truss beam. Metal profile IPE 270 17. IPN Reinforced concrete pillar of section 50x50 cm (HA-25/B/20/IIa) 10. Straps base slab. 270 metal profile. Anchored mechanically through metal truss beam angle18. plate bolted to theFreestanding souls of both beams Enclosure. concrete panels made with white cement and 11. Forged steel decking: shuttering tablet 7.5 cm wide. Executed by climbing system - Slab of concrete HA-25 - Mesh19. d=4Forged 200x300mm health (alveolar forged plate) - Sheet MT60, thickness =1,2mm Edge (h) + compression layer (c) * width of the plate (s)= 16cm + - Lower bars d=10 mm 12. Uprights and 5cm*120cm diagonal lattice beam Pratt. - Uprights UPN 200 - Weight (kN/m²) = 3,49 - Diagonals UPN 100 13. Wall 1 foot perforated ceramic (24x11, 5x10cm) taken with cement mortar - Fire brick resistance = R120 M5-A Length = 0 120 cm 14. False ceiling. Two plasterboard thickness = 1.5 mm each. 15. Bottom chord Pratt truss-beam. IPE metal 270. Anchored the concrete pile by Acoustic isolation = 52 to Rw a metal plate welded to the beam and the pillar screwed supported on a leveling - Minimum length of support = 20 cm mortar, e = 1.5 cm. 16. Partition of double hollow ceramic brick (8x24x10cm), withfrom cement mor- marble and resin 8mm thick 20. Paving. Terrazzo aggregatetaken made white tar M5-A part thickness = 4.5 cmcm (HA-25/B/20/IIa) 17. Reinforced concrete pillar of section 50x50 18. Enclosure. Freestanding concrete panels 21. Air chamber floor made slab with white cement and shuttering tablet 7.5 cm wide. Executed by climbing system 22. Gravel pack 19. Forged health (alveolar forged plate) - Edge 23. (h) +Reinforced compression layer (c) * width of the (s)= 16cm + concrete pillar ofplate section 80x80cm (HA-25/B/20/IIa) 5cm*120cm 24. HDPE drainage tube d=30cm, e=5mm and minimum slope = 5% - Weight (kN/m²) = 3,49 25. Reinforced concrete footing (HA-25/B/20/IIa) - Fire resistance = R120 - Length = 0 - 120 cm 26. Concrete cleaning (HM-20/B/20/IIa) thickness = 10cm - Acoustic isolation = 52 Rw 27. Natural ground - Minimum length of support = 20 cm 20. Paving. Terrazzo aggregate made from white marble and resin 8mm thick part 28. Skylight with150 x 125 cm panels with security double glass 12+8+12mm thickness = 4.5 cm plusslab infrared reflector 21. Air chamber floor 22. Gravel pack 29. Galvanized sheet folded, thickness = 2.5mm assembled on steel substruc23. Reinforced concrete pillar of section 80x80cm (HA-25/B/20/IIa) ture 24. HDPE drainage tube d=30cm, e=5mm and minimum slope = 5% 25. Reinforced concrete footing (HA-25/B/20/IIa) 30. Extruded polystyrene insulation boards, thickness =6 cm 26. Concrete cleaning (HM-20/B/20/IIa) thickness = 10cm 31. Enclosure. Freestandins concrete panels made with white cement and 27. Natural ground 28. Skylight with150 x 125 cm panels security double glass 12+8+12mm plus shuttering tablewith 7.5cm wide. Executed by climbing system infrared reflector 32. Slab of termination “Roofmate” with tongued edges, thickness = 29. Galvanized sheet folded,insulation thickness = 2.5mm assembled on steel substructure 30. Extruded polystyrene 6cm insulation boards, thickness =6 cm 31. Enclosure. Freestandins concrete panels made with white cement and shutter33. Stainless steel profile of section 10x10cm ing table 7.5cm wide. Executed byangular climbing system 32. Slab insulation34. of termination “Roofmate” with edges, thickness =5x5cm 6cm Steel post and beam tongued structure of section 33. Stainless angular steel profile of section 10x10cm 35. Galvanized sheet 5x5cm folded, thickness = 2.5mm assembled on steel substruc34. Steel post and beam structure of section 35. Galvanized sheet turefolded, thickness = 2.5mm assembled on steel substructure 36. Glass panels 4+6+4mm of dimensions 200x125cm, anchored with four hinges 36. Glass panels 4+6+4mm of dimensions 200x125cm, anchored with four crampons. hinges crampons

30 (cm)

Structural schem

02 01

03 02

04 03

10 09

06 05

11 10 12 11

07 06

13 12

08 07

14 13

15 14 15

33 34 35 36

Roof detail E=1/30 Roof detail Roof E=1/30

detail

16 17 16

18 17 19 18

20 19 20

De CONSTRUCTIVE DETAILS THE HERBERT F.JOHNSON MUSEUM EXTENSION

Skylight detail Skylight detail E=1/40

0 10

100

200

300 (cm)

21 22 21 23 22 24 23 25 24 26 25 27 26 27

100

200 (cm)

100

200 (cm)

Foundation detail E=1/30 Foundation detail E=1/30

Foundation detail

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

100 (cm)

E=1/10

CONTACT ME! Ana Campos Bordons anacbordons@gmail.com 07856752812

Azzar http://azzararchitects.com https://www.facebook.com/AZZAR.ARCH azzar.architects@gmail.com