Beatriz Barreres Sanchez architecture
00.
INDEX
01. house desIGNING 02. construction developMENT 03. urban planning 04. urban intervention 05. FURNITURE DESIGN 06. RESUME
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01.
HOUSE DESIGNING
“Architecture is not just a tree, should grow in agreement with its surroundings� Toyo Ito
Suntracking house
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Sustainable housing projec
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UNTRACKING South-West Facade OUSE
White Brick facade
For the design of it, we have take into account Passive climate systems in a 95% of the whole project, and 5% of Active ones.The criteria was to create a comfortable house for every season, controlling the resources and adapting the hose behavior for every moment of the year.The spaces are located in average positions where the sun is going to light indirectly during the whole day.
General Section and Cross Ventilation Orientation: The house areas follow the sun track, so each one of the activities developed inside of the house, will receive the accurate amount of sun depending on the location of it, and the average time that the activities will use along the day.
1. The hot surface of the roof, heat the air, which goes up, producing convection air currents that suck the air from inside the house, improving the cross ventilation.
2. The gravel roofing, with high thermal inertia, stores cool air at night and releases it during the day, keeping the house cold.
Geometry: the shape of the house as we said, follows the track of the sun, so the volumes are distributed in order to get a better orientation, to Absorb the sun light they need.
2. The upper windows are opened so hot air can escape.
3. The solar shading protects the house form direct solar radiation. So we get indirect light form south. 31º
Cross ventilation: The roofing geometry is curved to evacuate the heat and produce cross ventilation, improve the behavior of the house at hottest seasons. Sun control and Covering protection. We have a system of coverings elements to protect the south walls, in order to reduce the heat absorbed at summer time but, increase it at winter.
35º
29º 29º 23º
25º
4. Cool air flows through the house, cooling it down.
5. The house cools down at night and owing it high thermal inertia, 7. The hot air inside the house is sucked up and remains cool through the following day without consuming any escapes. As it cools the house, the air heats up Sustainable housing project energy. The cool air form the north side of the house penetrates into and rises. Suntracking house the main room form the back courtyard cooled with a pond, refreshing the air inside.
8. The pond helps to reduce the temperature of the air. Sustainable housing project
Loundry
Pond
Instalations room
Swimming pool and pond: At south we have one, for leisure time and swim. Next to the Main bedroom we have a minimal pond to humidify the air at summer nights and contribute to temperature reduction.
Suntracking house
Open courtyard
Sustainable housing project
Activity Schedule. Space organization in order to catch the maximun Sun Light.
EAST ELEVATION Main Room Closet
Healthy Housing Award 2012
Wine Cellar
Bathroom Toilet
Closet
Auxiliar Room
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(workshop)
pa ne ls
Kitchen Fo ld
ab le
Suntracking house
20º
ab
Fo ld
22º
25º
Dinning Room
garden
SOUTHWEST ELEVATION
le
pa
ne
ls
wa
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Living Room garden
Swimming pool Terrace
West
East
Hall Main Entrance
Acces garden
Healthy Housing Award 2012
SOUTH ELEVATION Healthy Housing Award 2012
Healthy Housing Award 2012
We have replace conventional solar panels, for articulated suntracking panels. They are twice Suntracking panels. expensive but the energy we could got with them, is a 200% more than static panels. This sort of photovoltaic octagons, are always facing the sun, like sunflowers fields. Located on the top of We have replace conventional solar panels, for articulated suntracking panels. the roof,are thetwice shadeexpensive they project but helpsthe to reduce thewith surface, reducing in a great They energythe weheating couldofgot them, is a 200% percentage, the temperature inside of the house. more than static panels. This sort of photovoltaic octagons, are always facing the sun, like sunflowers fields. Located on the top of the roof, the shade they project helps to reduce the heating of the surface, reducing in a great percentage, the temperature inside of the house.
They are always facing the sun
“ They are always facing the sun �
Suntracking panel
Suntracking house
Living room
Dining room and kitchen
Suntracking house South-East Facade Summarizing, the spaces are located in average positions where the sun is going to light indirectly during the whole day. To control the radiation amount, and avoid the use of blinds, we have place sun shelters at south facade, that at the same time are used to heat water. It runs through a system of pipes inside of the structure, that feed a tank where the hot water is collected, for sanitary use. At east facades we have integrated a system of green gabions, where plants can grow, to improve the quality of the air at this area. At south facades white bricks helps us to reduce the temperature, reflecting the sun rays.
Sustainable housing project
Sustainable housing project
Healthy Housing Award 2012
Healthy Housing Award 2012
Sun shelter - Heat water
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02.
consTRUCTION DEVELOPMENT
“Primary forms are beautiful forms, as they have a clear reading.” Le Corbusier
Shelter vivac This Project is located in Pyrenees and it is though for mountaineers. That means the project has to accomplish some specific requirements. The programme or zoning of the shelter is a kitchen, a storage area, living room and resting room. In addition another technical requirements are needed for example light and energy. All the construction process has been though with premade materials and due to the topography and location of the shelter all the parts have to be able to been transported by helicopter and build in less than a day which made the design process really specific and complex. The structure is made by 12 wood arcs for the biggest dome and with 6 for the smallest one in order to create a compression system. In the big one there is a skyline that provides light and ventilation. To achieve energy a solar panel is placed in the smallest dome faced to the south with the optimum inclination, 36 degrees. In addition to get a high isolation a special material used for boats was selected: polynum. In addition to make visible the shelter from far distance a red colour is used in the biggest dome to contrast with the white snow that covers the area most of the year, helping the mountaineers to locate the refuge.
Es.C1: Support and anchorage in the ground adjustable steel beam stainless steel (0.30 x0, 30X0, 015). Anticorrosion treatment. Es.FS6: Support floor finish and reduced noise impacts. Crosslinked polyethylene foam polyethylene film Es.FS6: Fixing. Aluminum Bolt (0.20 x0.015) anticorrosion treatment Es.FS1: Structure and Isolation. Sadnwich structural aluminum panel (SIP) (variablex0.12) Es.FS2: Finished. Cement composite panel of wood particles agglomerated finish Variable (0.03). Wrinkled Es.FS3: ladder mesh finish tramex of GRP Stair Tread (1.00 x0, 30X0, 025). Painted Es.FS4: Securing steps GRP profile anchor for fixing of rungs (0.30 x0, 03 0.005). Unfinished Es.FS5: Securing GRP steps. Fasteners: Stainless steel screw (0.55). Es.E1: Support structure (esf. 1). Laminated wood structural arch (0.16 x5, 9x0, 05). Glued Es.E2: Support structure (esf. 2). Laminated wood structural arch (0.16 x3, 8x0, 05). Glued Es.E2: Support access ladder hollow structural profile GRP
(0.12 x1, 10x0, 05). Unfinished Es.S1: Support of the outer sphere + Stabilizer structural stainless steel ring (0.07 x0, 2x0, 05). Anti-corrosion treatment. Es.S2: Support of the outer sphere + Stabilizer structural stainless steel ring (0.07 x0, 2x0, 05). Bonding Es.S3: Union structure. Stainless steel joint Es.S4: Part union / support. Glued laminated beam Es.S5: Union structure. Embedment of stainless steel. CT1: Fastening of the partition. Perfileria CW channel and galvanized steel studs (75 (100) x50x0, 60) 0.005. Unfinished CT2: Acoustic insulation + thermal insulation and soundproofing. Variable mineral felt (0.04). Sn finish CT3: Avoiding cracks in the joints. Board of uncoupling. Silicone caulk. 0.005 CT4: Fastening of wood-cement panel Anchor: steel screw (0.55) CT5: Interior finish. Light Cement wood panel (variable0, 01) Coating C1: Structure 1. SIP structural sandwich panel (0.7 x 1.9 x0.05).
C2: Structure 2. Stainless steel strap. (0005) Anticorrosion treatment. C3: To rest. Foam mattress roller (polyurethane and polymeric) (1.9 x0, 70x0, 15). Textile C4: Laminated Wood Panel 0.03 sandcich Varnishing C5: Lightweight plywood panel finished texil + (0.03 xvariable) + textile coating C6: Wooden sandwich panel cement (0.03 xvariable). C7: Lockers. Lightweight plywood panel. EF1: Exterior Sheet. Exterior finish of fiber reinforced polyester (GRP) variable 0.05. Bright red, pink gloss, gloss white EF2: Anchor Profiling: Profile for U-clamp finished GRP (0.025 x0, 020x0, 05) 0.003. Matt White EF3: Thermal protection. Thermal insulation of high density polyethylene laminated aluminum 0.08 EF4: Leaf interior trim Interior plywood sandwich panel Variable 0.08. Varnishing EF5: Union. Aluminum screw. (0.8-10x 0.05). Anticorrosive treatment. EF6: Union. H aluminum profile. (0.2 to 0.06 xvariable) 0.05. Anticorrosive treatment.
ES.S2 ES.E2 ES.S1 ES.S5 ES.E1 EF2
LEYENDA: Es.C1:Apoyo y anclaje en el terreno viga metálica regulable de acero inoxidable (0,30x0,30x0,015). Tratamiento anticorrosión. Es.FS6:Fijación. Perno de aluminio (0.20 x0.015)Tratamiento anticorrosion Es.FS1:Estructura y Aislamiento. Panel estructural sadnwich de aluminio (SIP) (variablex0.12) Es.FS3: Acabado de escalera malla de tramex de PRFV para huella de escalera (1,00x0,30x0,025). Pintado Es.E1:Soporte de la estructura (esf. 1). Arco estructural de madera laminada (0,16x5,9x0,05). Encolada Es.E2:Soporte de la estructura (esf. 2). Arco estructural de madera laminada (0,16x3,8x0,05). Encolada Es.E2: Soporte de escalera de acceso perfil estructural hueco de PRFV (0,12x1,10x0,05). Sin acabado Es.S1: Soporte de la envolvente exterior + Estabilizador de la esfera Anillo estructural de acero inoxidable (0,07x0,2x0,05). Tratamiento anticorrosión. Es.S2:Soporte de la envolvente exterior + Estabilizador de la esfera Anillo estructural de acero inoxidable (0,07x0,2x0,05). Encolado Es.S3: Union estructura. Articulación de acero inoxidable sin acabado Es.S4:Pieza union/soporte. Viga de madera laminada encolada Es.S5: Union estructura. Empotramiento de acero inoxidable. Sin acabado EF2: Anclaje Perfilería: Perfil en U de PRFV para sujeción de acabado (0,025x0,020x0,05) 0,003. Blanco mate
Es.FS1
Es.FS3
PROCESO DE MONTAJE
ES. E2
Montaje en obra Montaje en taller ES.C1 ES.F6
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03.
URBAN PLANNING
green city This area is located in Alicante and has an irregular topography. It used to be an almost empty area with a really irregular topography. The problems with this part of the city were the disconnection with the rest of the area and the lack of residences. The main idea is take advantadge of the views’s area and introduce a structure road connect to the rest of the city. First ideas are: -Connecting green areas -Respect schools, and publics buildings ( in red) -Building in gap areas -Studying the growth area To achieve all the the goals a new bycicle and pedestrian network is developed in order to connect the whole area with the rest ot the city. Since the area has been mostly occuped by public spaces and buldings it was neccesary to keep this idea of public area by designing a kind of house block with a public space in the ground floor and residential use in the rest of the floors To make continue the green areas of the city a big green space is proposed as an axis of the neighbordhood occuped by urban gardens and urban orches, so it is not just a green area but also a place where neighbours can meet and develop and idea of community.
I2. PLANO DE ESADO FISICO DE LOS TERRENOS
Circunstancias relevantes
2 MEMORIA
Circunstancias relevantes
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04.
URBAN intervention
“We are not more than a small part of a big stage. It is society that makes the city in which we live. As architects, we are just middlemen “ B720
FLOWER SQUARE
Architect’s work has changed. Our system too, that’s reason why an architect has to show the benefits and the necessity of their job. This is the context where the Flower Square has been developed improving the reality, the social reality of a city. In this specific context Tardeo activity -which is a meeting of many people in the square on Saturday morning to take “tapas and cañas (beer)”- gave us the opportunity to take advantage of a polemic situation by developing a real project that really can improve the situation between the different agents. In one hand the bars, and the Central Market are getting an economic benefit of Tardeo activity increasing their business by selling tapas and beers, the star product of Tardeo, in the other hand the neighbours have to suffer the consequences of this activity in their square: the bad management of waste.
This project is not just about public furniture, but also about waste management, about recycling. So the challenge was to design something that really could work in the square as public furniture and at the same time to be able to manage all the glass bottles produced during Tardeo activity, all of this without creating new waste. That was reason why the entire project was developed with cardboard tubes given by a private company to avoid new waste material and to allow working with a really cheap budget. Actually, the budget of the project for the city and for the citizens was zero Euros due to all the materials were given by different private companies and build by ourselves. The difficulties of the project were the design, which had to accomplish many requirements, the construction which was totally in our hands but also the management of the existing resources. It was absolutely necessary to make a studio of the different modules in order to show the benefits in waste management they could offer. It was possible to check and to show the successful of the project not just by the acceptance of the users but also for the level of cleanness in the square after the opening day.
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05.
Furniture design
FALA BOOK EXHIBITION
For this project an adaptable prototype was required. It will be used to present the work of different artists, and painters. In essence, it was an exhitibion for books, however those books were really special due to the fact that they did not correspond with the standard idea of a book. Some of them were too big and had to be presented in vertical or in an unusual way. These conditions made the design of the prototype more complicated due to the fact that an adaptable surface was required in order to allow the artist some freedom to present their work. The design had to be simple, so the books were the main focus of attention, and allow the artist to present the books in an adaptable way. Two kinds of prototypes were created: one completely flat, and the other with different inclinations so that the books can be presented in a vertical position. Every artist would have at least three modules to present all the books and the modules could be placed in many positions because of the shape of the prototypes: a hexagon Once the design was defined, it was really important to decide how the unfolding of the prototype was going to be in order to save the maximum amount of material, in this case, cardboard, and to achieve an easy attachment. Also the tolerance limits of the cardboard had to be taken into account in order to draw the plans. The room for the exhitibion was covered by dark, black marble which made the election of the colour really easy. All the prototypes were white so a landscape could be created with the reflection of the floor.
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06.
RESUME
Beatriz Barreres Sanchez beatrizbarreres@gmail.com Work authorization: Greencard
PROFESSIONAL INFO
I would like to work in a office where to apply my knowledge of construction, urban planning and social Architecture. I would also like to work in a team with different kind of profiles, because this always make to architect a richer and more interesting proccess. I could offer an open mind way of thinking Architecture, ability to work effectively as a part of a team or individually, capacity of adaptation, motivation and enthusiasm. I am skilled in many different sofware programmes related to architecture and design and I would not have any problem to learn new ones if it neccesary, even by myself. In a future I see myself working as a part of a team and I aim to achieve a project manager position.
SKILLS
Autocad 2015 Revit Architecture Rhinoceros SR4 Sketchup 3D Studio Max Adobe PhotoShop Adobe InDesing Adobe Premiere Adobe illustrator V-ray
LANGUAGES
English Spanish
University of Alicante (Spain) EDUCACION AND TRAINING
Architecture Recipient of Mec scholarship Expected graduate date: 2015
University of Amsterdam (Nederland)
FALA Exhibition EXPERIENCE
Worked as a freelancer
Developed the designs, technical plans, and participated in the hands-on construction of the models Worked with a set budget, taking into account the importance of lowcost projects without compromising the quality and integrity of the final product
Minor lighting Programme Architectural Technology Recipient of Erasmus scholarship
Leroy Merlin
2013-16 Project advisor
Advise on the appropriate licenses as required by the government Review budgets in order to ensure that the builders maintain our previously- established prices as provided to the clients
COURSES EDUCACION AND TRAINING
- Sustainable Architecture (50 h) - Urban landscape, Territorial landscape - Singular closures and roofing projects (English) - Restoration materials and techniques - Advertising design - Computerised design - 3D Studio Max and PhotoShop CS5 - Autodesk Revit Architecture (30h) - V-ray (20h)
Perform a quality review of the final product to ensure client satisfaction and company quality
2016 Manager Planning, organizing and controling the team in order to achieve particular g Recruiting, selecting, training, and developing employees