VIVIANA PIUMATTO
P O R T F O L I O
“Architecture should speak of its time and place, but yearn for timelessness.” FRANK GEHRY
VIVIANA PIUMATTO viviana.piumatto@gmail.com +39 328 934 2705 / viviana-piumatto-511993190 /vivianapiumatto /viviana.piumatto /vivipiumy
BIRTH DATE 12.12.1994 ADDRESS Giovanni Giolitti square, n. 6 Villar San Costanzo - CN 12020 Italy GRADUATE IN ARCHITECTURE At Polytechnic University of Turin 2019 - Master degree 2016 - Bachelor degree LANGUAGES Italian - English French - Spanish
ABOUT ME I was born in Cuneo, northern Italy, in 1994. Ever since I was little, I liked mostly mathematics and drawing. Growing up, I attended a scientific high school, without forgetting my drawing dedication. In architecture I found the right balance between both sides of my being. For me, being an achitect is the best way to use 100% of my skills. INTERESTS Hand drawing Photography Volounteering (Red Cross, Local events organization) Travels (pleasure, study and working, volounteering) Mountain trekking Reading
EDUCATION 2019
Master’s Degree in Architecture Construction City Polytechnic University of Turin Final grade 105/110
2016
Bachelor’s Degree in Architecture Polytechnic University of Turin Final grade 105/110
2013
High school scientific degree valid both in Italy and in France MASTER THESIS Title: Regeneration of marginal Alpine territories: the case of Maira and Grana valleys Classified as “Honors Thesis” Supervisors: De Rossi A., Bottero M. Abstract: Sixty percent of the Italian territory is defined as marginal area. Marginal areas are borderline
territories, sparsely populated and, apparently, fragile. Although, in a sustainable development perspective, they are a perfect field to test innovative policies and new age economy. The Internal Areas National Strategy, carried out thanks to the cohesion policies department, has dealt with intervention programs for borderline territories, using both innovation and local traditions since 2014. The present study, pilot area of Piedmont region for the program, presents an excellent situation for a critical reinterpretation of the territory. This work offers an integrated analysis of economic evaluations and territorial policies, in order to give an overall framework of the present study, with the purpose of laying the foundations for future investments in a cohesion perspective.
Link: https://issuu.com/vivianapiumatto/docs/tesi_la_rigenerazione_ delle_aree_interne_montane__ ABROAD EXPERIENCES Erasmus+ EU Programme Countries 09.2017 - 01.2018 Full Master semester UPV-ETSAV Polytechnic University of Valencia Valencia, Spain Workshop “Habiter le Panier” 01.2016 - 05.2016 Urban regeneration of a Marseille district Marseille, France History and design studio class 10.2014 - 01.2015 Design class with project in the city of Budapest Budapest, Hungary
SKILLS Teamwork Organisation skills Teambuilding and leadership Critical thinking Problem solving Conceptual and schematic design Vivid graphic presentation SOFTWARE PROFICIENCIES Adobe Photoshop Adobe Illustrator Adobe Indesign Autodesk CAD software Autodesk BIM Revit Sketchup + Vray Rhinoceros Grasshopper Microsoft Office Microsoft Project LANGUAGES Italian English French Spanish CERTIFICATES Certificator for building Certificate of Energy Performance IELTS 6.0 European Computer Driving License
Vista assonometrica
University Students dorms
Pianta piano terzo - 1:200
MOSCA BRIDGE DORMS
Pianta piano secondo - 1:200
Pianta piano primo - 1:200
Mountain hotel + public library
Pianta piano terra - 1:200
VISO LANDSKAPE
Double private flat + bookshop
NYARI PAL HOUSE Pianta piano interrato - 1:200
Inserimento del volume del nuovo edificio nella via
Suburb regeneration
MOTOR SPEEDWAY PARK
Suburb regeneration
URBAN FOOD LAB
Public University
GREEN CAMPUS
PRIVATE BUILDING
PUBLIC BUILDING
URBAN PROJECT
NYARI PAL HOUSE
LOCATION Budapest (Hungary) PURPOSES • Two living units for Paztor family and one for the butler • A public library with a pub and a conference room • Separate entrances
PROJECT TYPE Private building YEAR 2015
DESCRIPTION The building has both commercial and residential spaces, with a double high spaced book café and three living units. The library occupies the basement and the ground floor. Downstairs, a bar and a conference room receive the customers in a cozy space, lighted by large white frosted windows. Upstairs, the setting offers bookshelves, tables and the reception desk. Regarding the private spaces, the entrance, hidden at the bottom of a long corridor, has the aim of giving some privacy to the owners. At the first and the second floor, there is the Paztor family apartment: a double floor flat with a private green courtyard. The living room on the first floor, lighted by the big windows towards the garden and by the big bowed window towards the street, develops around the key points: the fireplace and the helicoidal stair. The butler’s apartment is connected through an hidden door to the master’s flat, however it has a private entrance. On the higher floor, there is a young-based flat, projected for the Pasztor’s son. The setting is suitable for a young life, it gives the opportunity to organize parties and to host friends. Although, it gives to Joszef, the Pasztor’s son, a young artist, the opportunity to work in his own atelier.
3D concept and localisation
Function concept
The main aim of the project is to build a new building without impact on the style of Nyari Pal Street. To do this, we keep the round shape and reverse it with a big bowed window, and in addiction, we keep the private entrance on the left side of the facade.
library book cafĂŠ conference and reading room WC private entrance
Section
Ground floor - library
Basement floor - book cafĂŠ, conference and reading room, wc
3D concept and localisation
Function concept Pasztor family flat butler’s unit Pasztor’s son flat private stairs and lift
Section
Paszor flat is composed by an open space with living room, kitchen, a bathroom and a big terrace, linked with the garden through an exterior stair. At the second floor there are an office and three bedrooms, each one with private bathroom and walk-in wardrobe. The butler’s unit is a studio flat, whereas the upper flat is composed by an open space living room, an artists atelier and two bedrooms.
First floor - Pasztor living space and butler’s unit
Second floor - Pasztor office and bedrooms
Second floor Pasztor’s son flat
VISO LANDSKAPE
LOCATION Ostana (Piedmont Alps - Italy) PURPOSES • New building respecting the Alpine architecture of the village • Mountain hotel built according to the tourist requests • Public library available to the local population
PROJECT TYPE Private building YEAR 2015
DESCRIPTION According to the municipality, the area where the project has to be made is in the centre of the village and requires to have both private and public use. In fact, the project presents a mountain hotel, run by a private business, and a public library. The accesses to the building are studied on four different stages, this is to give it the right shape, according to the other typical buildings next to. The library is a double high space, where you can sit and read. The hotel is designed to be used by hikers, so it is composed by a reception, a breakfast room and four bedrooms. The first bedroom is a dormitory with eight beds and common bathrooms, and then there are two double rooms with a loft. Finally, there is a suite room designed for luxury tourism. All bedrooms are reachable by the lift or by external stairs, according to the tradition of the place.
MAIN AIMS ACCOMODATION: hosting the growning tourism INNOVATION: renovation of Alpine architecture LANDSCAPE: promotion of natural landscape UPGRADING: mending and renewing urban fabric SERVICES: new services for the community ACCESSIBILITY: development of the area practicability
Project ways of accessibility
Ground floor
3D volume concept
First floor
North vi
South view
East view
Second floor
iew
West view
Section
Technologic section
Third floor
Structural 3D
Section
MOSCA BRIDGE DORMS
LOCATION Turin (Italy) PURPOSES • Re-use of an industrial abandoned area in the centre of Turin • Spaces for university students, offices and an apartment complex • University student dorms with all the facilities linked to students needs
PROJECT TYPE Public building YEAR 2016
DESCRIPTION The project aim is to create a university student dorms in a masterplanning project, designed in a green sustainable way. To reduce light and heating costs, the volume of the building tries to keep the rooms warm in winter and not too lighted in summer. On the basement floors, there is a 77 car places parking, while on the ground floor there are all hobby rooms such as the library, a video and gaming room, a music room and a gym. On the higher floors, there are single and double student rooms with shared kitchens and study rooms, while in the southern part of the building there are single and double little apartments. On the roof, designed as green area, there are meeting places for students, covered by a photovoltaic canopy.
Masterplanning project university bunk tertiary centre apartment complex
Volume transformation concept
Buildings
System of public and private gardens
Road aces
Masterplanning project
The project is designed to be a sustainable re-use of an industrial area in the centre of Turin. The main aim is the design of an university dorms, where more than 200 students may live together, both in little apartments and in single rooms. Moving the volume, the light can better enter and create a cozy atmosphere. The roof is designed as a green space, it can be used by students as a meeting place. At the ground floor there are all the facilities like a library, a gym, a music room and a gaming room.
Ground floor
North view onto courtyard
Distributional system Rooms and apartments
Study rooms and library
Hobby rooms
Facilities
Building services
Floor example
Rooftop
Room type 1
Room type 2
Apartment type
Double room type
Technological section
1. Parapet - Aluminium covering - Waterproofing membrane 2 cm - Metal support - Insulation layer ISOLPARMA RF6 12 cm - Reinforced concrete parapet 2. Roof - Ground 47 cm - Filter layer - Culvert, drainfield DSE 40 4 cm - Polyester protection fabric - Anti-roots membrane 2 mm - Waterproofing membrane 2 cm - Textile layer 2 mm - Insulation layer ISOLPARMA RF6 16 cm - Vapour barrier - Concrete pitch 12 cm - Concrete and masonry deck 26 cm - Plaster 1,50 cm 3. Internal dividing wall - Plaster 1,50 cm - Bricks 8 cm - Acoustic insulation panels LM 85 1,20 + 4 cm 4. Double Glazing PVC window 4-16-6 5. External deck 1 - Stoneware Paving 0,80 cm - Floor heating and cooling system 10 cm - Acoustic insulation layer 0,20 cm - System screed 10 cm - Concrete and masonry deck - Insulation layer ISOLPARMA RF6 16 cm - Plaster 1,50 cm 6. External deck 2 - Porphyry for outdoor stones floor 4 cm - Concrete deck - Waterproofing membrane 2 cm - Concrete and masonry deck 7. Wall with the ground - Protection layer - Waterproofing membrane 2 cm - Reinforced concrete wall 28 cm - Waterproofing and protection layer 8. Floor with the ground - Resin floor 0,80 cm - Concrete underground layer 10 cm - Gravel crawl space 40 cm
The building is a reinforced concrete structure of six floors plus two basement ones. It presents four stairs and lift blocks as vertical linking and windproof reinforcement. The coating is composed by CORIAN panels used both in white and red colour. This material has low moisture absorption, and is resistant to environmental pollutants, humidity, and freeze-thaw conditions. The shadow study allows to understand how the volume can help with natural lighting and can contrast the summer room overheating.
Vertical structures
Horizontal structures
Structural 3D Building coating 3D
Shadows study for natural lighting
Shadows study on east surface
Shadows study on east surface
Technological section
1. Roof - Ground 47 cm - Filter layer - Culvert, drainfield DSE 40 4 cm - Polyester protection fabric - Anti-roots membrane 2 mm - Waterproofing membrane 2 cm - Textile layer 2 mm I - nsulation layer ISOLPARMA RF6 16 cm - Vapour barrier - Concrete pitch 12 cm - Concrete and masonry deck 26 cm - Plaster 1,50 cm 2. External wall - Plaster 1,50 cm - Cellular concrete bricks SIPOREX 24 cm - Insulation layer ISOLPARMA RF6 12 cm - Non-ventilated air 5 cm - CORIAN Dupont panels 1,20 cm 3. Internal deck - Stoneware Paving 0,80 cm - Floor heating and cooling system 10 cm - Acoustic insulation layer 0,20 cm - System screed 10 cm - Concrete and masonry deck - Plaster 1,50 cm 4. Floor with the ground - Stoneware Paving 0,80 cm - Floor heating and cooling system 10 cm - System screed 10 cm - Insulation layer ISOLPARMA RF6 10 cm - Waterproofing membrane 2 cm - Aerated concrete floor Iglu’ - Concrete underground layer 10 cm - Gravel crawl space 45 cm 5. Wall with the ground - Reinforced concrete base - Insulation layer ISOLPARMA RF6 10 cm - Waterproofing membrane 2 cm Gravel crawl space 30 cm
Shadows study on west surface
Shadows study on west surface South view onto courtyard
GREEN CAMPUS
LOCATION Turin (Italy) PURPOSES • Re-use of an industrial abandoned area in the centre of Turin • Creation of community spaces such as an university • Use of new sustainable technologies
PROJECT TYPE Public building YEAR 2017
DESCRIPTION The actual area is totally covered by an industrial building. The main purpose of this project is to use part of this building in a new way, in order to follow sustainability rules such as limit soil consumption. The project maintains an “L” shaped building, meanwhile the other parts are dismantled in order to give permeability to a part of the soil. The actual building keeps the general structure and the floors, whereas the external walls are dismantled too. The external new walls are curtain window walls that keep all the classrooms and internal spaces lightened, with a white shielding in order to face the summer heat load. Furthermore, the new design creates some spaces in order to give to the building winter gardens, suitable for students as halls and meeting places. The project owns sustainable elements like the iActive Biodynamic shielding, who helps to clean the city smog, and the photovoltaic glass roof. At the centre of the courtyard, there is a big auditorium, hosting approximately 260 people, with a bar and a big terrace. Under and next to the auditorium there is a big parking for workers, professors and students.
3D volume concept
3D functions concept
Auditorium 11% Professors offices 8%
Hall spaces 22%
Administrative offices 5%
Classrooms 19%
Library 11%
Functions graphic
Classrooms 24% Hall space photomontage
Ground floor
First floor
Second floor
Third floor
Shielding concept
Structural 3D
BB’ section
BB’ section
Technological section 1. Parapet - Aluminium covering - Waterproofing membrane 2 cm - Metal support - Steel parapet - Structure attack
2. Roof - Photovoltaic panels - Concrete layer 5 cm - Waterproofing membrane 2 cm - Textile layer 2 mm - Glass wool insulation layer KNAUF 6 cm - Glass wool insulation layer KNAUF 10 cm - Vapour barrier - Clay pebbles pitch layer 10 cm - Corrugated sheet profile in galvanised steel 10 cm - Protection plaster 1,50 cm - Ceiling Supersil Class A1 REI 180 Bifire 3. Internal dividing wall – REI 120 (Staircase) - Plaster 1,50 cm - Reinforced concrete 27 cm - Glass wool insulation layer KNAUF 10 cm - Plaster 1,50 cm 4. Internal dividing wall - Self-bearing sandwich structure panel 5. External wall b - Curtain wall with double Glazing windows Stahlbau Pichler 0,8-2,7-0,8 - Built-in solar shading - Fixing bracket metal support - Special concrete iActive Biodynamic Italcementi shielding 3 cm 6. Internal deck - Stoneware Paving 2 cm - Floor heating and cooling system 10 cm - Acoustic insulation layer 2 cm - Clay pebbles system screed 10 cm - Preexisting reinforced concrete deck 4 cm + concrete and masonry deck - Protection laster 1,50 cm - Ceiling Supersil Class A1 REI 180 Bifire 7. Floor with the ground - Stoneware Paving 2 cm - Floor heating and cooling system 10 cm - Clay pebbles system screed 10 cm - Glass wool insulation layer KNAUF 10 cm - Vapour barrier - Aerated concrete floor Iglu’ - Preexisting reinforced concrete base
Concrete
Detail between the glass roof and the lattice beam support
Concrete
Reinforc
Preexisting deck - first floor
C
C
R
Preexisting deck - secon
Preexisting deck -
Deck plan First floor
Technological section
8. Roof over non-conditioned space - Double Glazing windows Stahlbau Pichler 0,8-2,7-0,8 - Built-in solar shading - Lattice Beam support 9. Internal deck between non-conditioned space -Glass and metal parapet - Stoneware Paving 3 cm - Paving support 10 cm - Corrugated sheet profile in galvanised steel 10 cm 10. Internal deck over non-conditioned space - Stoneware Paving 2 cm - Floor heating and cooling system 10 cm - Acoustic insulation layer 2 cm - Clay pebbles system screed 10 cm - Preexisting reinforced concrete deck 15 cm - Protection laster 1,50 cm - Glass wool insulation layer KNAUF 6 cm - Ceiling Supersil Class A1 REI 180 Bifire 11. Floor with the ground in non-conditioned space - Ground 86 cm - Culvert, drainfield DSE 40 4 cm - Polyester protection fabric - Anti-roots membrane 2 mm - Waterproofing membrane 2 cm - Textile layer 2 mm - Clay pebbles system screed 10 cm - Glass wool insulation layer KNAUF 10 cm - Vapour barrier - Preexisting reinforced concrete base
Deck plan Third floor
Deck plan Parking basement floor
e layer
e and masonry deck
ced concrete layer
Concrete layer
Concrete and masonry deck
Reinforced concrete layer
nd floor Concrete layer
Reinforced concrete layer
- third floor
Technological section - Auditorium
12. Parapet - Aluminium covering - Waterproofing membrane 2 cm - Metal support - Steel parapet - Structure attack 13. Roof - Waterproofing reinforced bituminous slated membrane 2 cm - Waterproofing membrane 2 cm - Textile layer 2 mm - Glass wool insulation layer KNAUF 6 cm - Glass wool insulation layer KNAUF 10 cm - Vapour barrier - Clay pebbles pitch layer 10 cm - Corrugated sheet profile in galvanised steel 10 cm - HEB Beam Support 26 cm 14. Internal dividing wall - Self-bearing sandwich structure panel 15. External wall - External laminate panel - Fixing bracket metal support - Waterproofing membrane 2 cm - Lightweight concrete layer Gyproc Aquaroc 1,25 cm - Steel structure - Glass wool insulation layer Isover Par Gold 9,5 cm - Fibrate Chalk Layer Gyproc Rigidur 1,5 cm - Steel structure - Glass wool insulation layer Isover Par Gold 7,5 cm - Plasterboard Chalk Layer Gyproc Habito Vapor 1,25 cm - Protection laster 1,50 cm 16. Skew deck - Sound-absorbing textile paving 2 cm - Corrugated sheet profile in galvanised steel 10 cm - HEB 500 Beam Support - Acoustic insulation layer 11 cm 17. Internal deck over non-conditioned space - Resin paving 2 cm - Self-levelling fillings 3 cm - Clay pebbles system screed 16 cm - Acoustic insulation layer 3 cm - Glass wool insulation layer KNAUF 6 cm - Glass wool insulation layer KNAUF 10 cm - Self-levelling fillings 6 cm - Prefabricated honeycomb ceiling 18. Floor with the ground - Epoxy resin paving 10 cm - Self-levelling fillings 10 cm - Waterproofing membrane 2 cm - Aerated concrete floor Iglu’ Cupolex 36 cm c - Support concrete deck
Prefabricated honeycomb ceiling elements 22 cm
URBAN FOOD LAB
LOCATION Turin (Italy) PURPOSES • Suburbs regeneration • Pursuit of a main theme • Design of private and public spaces strongly related with nature
PROJECT TYPE Urban project YEAR 2017
DESCRIPTION This urban project supports suburb regeneration with the central theme of Urban Food Lab, connecting commerce and innovation. The urban design is located at the future bottom of the Turin subway, so the area is becoming a strong connection point from the city to the countryside. Here, the project includes all kinds of economic word, such as industries, offices and university, commerce and tourism. In fact, there is a central market, an exhibition centre, a branch of university build to pursuit the theme of food, a vertical farming industry, offices, restaurants and food laboratories, and some new blocks of apartments. The project follows the baseline of non-consumption of soil, therefore we chose an ex industrial zone, where to create the right link between nature and city.
Building renovation concept
Renovating suburbs makes it possible to debate about what kind of changes to do . As reported on the right, we projected how to renovate an industrial area to create housing, leisure buildings and tourist ones. The changes can be simply summed up with the following actions: • Super-elevation • Alongside construction • Emptying
Green areas concept
The main theme of this urban project, as well as food, is about green areas. Regarding vegetable gardens, in a sustainable design we can not separate them from an housing project. They are thinked for all kinds of people and apartments, with the following typologies: • Roof vegetable gardens • Alongside vegetable gardens • Community vegetable gardens Private gardens are projected to be used by both single house and apartment inhabitants, along houses, on the roofs or on the terraces. Public green areas may include green parks, green playgrounds or simple meadows.
Masterplanning New buildings
Private gardens
Cycling way
Dora river
Agricultural fields
Renovated buildings
Sports area
Car way
Subway station
Collective vegetable gardens
New landmarks
Public green areas
Train way
Airport Park
Green areas concept
UNIVERSITY Classroms, Laboratories, dorms, facilities
RESEARCH Start-up offices, Laboratories, vegetable gardens
SOCIETY
Social Housings, Meeting places, Exhibition area
COMMERCE
Marketplace, Parking, Food market
PRODUCTION Waste management, Vertical farming, Crafts
EDUCATION HOUSING OFFICES AND TOURISM Restaurants, Offices, Coworking spaces
Agrohousing, Green Roofs, Collective Vegetable gardens
Food education centres, Sports Centre
Historical con
District plan Urban section
ncept
Exhibition area
The main theme of the present district is the connection between human beings and nature. The public buildings represent the way for humans to approach the landscape living in contact with green areas. The marketplace and the exposition area try to achieve the theme.
Marketplace concept
Connections concept
Housing
Historical photomontage
Soil retention analysis Unmanaged woods
High forest
Developing woods
High forest
Unmanaged wood
Developing woods
â‚Ź PER YEAR
Food market 3d
Green Urban Areas have lots of functions in a city, such as: In an highly built space, there is no storage space for water
A way of water storage is to install some tanks
Woods give the possibility to storage water just as tanks
1. Maintenance of the ecological-environmental equilibrium 2. Maintenance of the hygienic standards 3. Protection of the Territory 4. Centre for cultural, social, and recreational activities
It is possible to estimate the monetary value of the park calculating the amount of water stored by the park surface and multiply it by the equivalent tank cost
5. Centre for culture and didactics 6. Example of architectural aesthetics PARK MONETARY VALUE
â‚Ź PER YEAR Time schedule
Consequently, it is important to consider various ways to see green spaces in a city. In fact, in addition to its functions, green areas are indispensable for water management in a city, becoming an investment and a resource of money.
The project has been studied to be a long-term urban regeneration supported by public founds. Regenerating a suburb is a way to help population that live there: lots of public and social meeting points arise becoming the key points of the area. The districts of the master planning are supposed to grow in different stages of the project, like demonstrated below.
MOTOR SPEEDWAY PARK
LOCATION Valencia (Spain) PURPOSES • Maintaining of the old motor speedway • Urban expansion • New green zones
PROJECT TYPE Urban project YEAR 2018
DESCRIPTION Valencia is a city built around its historical centre, also grown along its river, Turia, nowadays transformed into a big park. The project area is a big unused area at the bottom of the river park, once used as the famous motor speedway. The aim of the project is to face the urban sprawl in the right way, using both green and public spaces and to improve viability and parks. Being at the bottom of the most important park in Valencia, the urban planning tries to integrate park and city buildings. In fact, the project grows among a big park defined by the old motor speedway, and it is connected with the city by two big green aces. The buildings are higher next to the urban zone among the project one, meanwhile they are lower approaching the park.
Existing area
New landmark
Connections
Road aces
Car accesses
Viability
Buildings
Green Areas
Visual p
G
Main Streets Secondary Streets Tertiary Streets Pedestrian Streets
Residential Buildings Companies Buildings Commercial on ground floor Existing Buildings
Park Green Areas Tree-lined Streets
Masterplanning
points
Green aces
City extension
Park study
Sports
Park
Project Photomontage
Building transformations
Bar and restaurants
Toilets
Facilities areas
Masterplanning 3D Commercial
Commercial
Section BB’
Public spaces
Residential
Companies Commerce
Section AA’
Section DD’
Section CC’
Thank you
VIVIANA PIUMATTO viviana.piumatto@gmail.com +39 328 934 270 5