ARCHITECTURE PORTFOLIO selected works [2017- 2020]
Ilaria Pugliese
ILARIA PUGLIESE [1996-NOW]
I’m a 23 years old Architecture Student from Milan, Italy. I graduated from Politecnico di Milano, where I attended the BSc, and also studied at ETSAVallés UPC BarcelonaTech. I’m currently enrolled in the MSc programme "Architecture and Urban Design" and in the "Alta Scuola Politecnica" masterclass at Politecnico di Milano.
CURRICULUM vitae Contact (+39) 348 7149541 ilaria.pugliese6@gmail.com Milan, Italy
EDUCATION 01/2019 - NOW
Double degree program restricted to 150 students selected on the basis of merit. Additional to the degree programme, Alta Scuola Politecnica consists of ad-hoc courses and the development of multidisciplinary projects.
Issuu
LANGUAGE SKILLS
09/2018 - NOW Native
ITALIAN ENGLISH
Advanced TOEIC score: 865
SPANISH
Advanced ERASMUS+ OLS: C1
FRENCH
Basic
CATALAN
Basic
TECHNICAL SKILLS AutoCAD Sketchup Revit Rhinoceros Grasshopper Photoshop Illustrator Indesign QGIS Microsoft Office
AWARDS/ COLLABORATIONS
Collaboration with the online magazine “ObjectsMag” www.objectsmag.it/author/ilariapugliese
MSc in Architecture and Urban Design Politecnico di Milano
09/2017 - 06/2018
Erasmus+ Programme Universitat Politècnica de Catalunya|ETSAV
09/2015 - 09/2018
BSc in Progettazione dell’Architettura Politecnico di Milano
Thesis Project: “Mare di Cambiamento” with relator Marco Biraghi and co-relator Carlo Gandolfi [110/110] 09/2009 - 07/2015
Scientific High School Liceo Scientifico Vittorio Veneto, Milan [94/100]
PROFESSIONAL EXPERIENCES 01/2018 - 06/2018
Agencia de Ecología Urbana | Intern Barcelona, Spain
Participation in the Agency’s projects, data-processing, construction of georeferenced databases (GIS), calculation of indicators and analysis of urban settings. 01/2015 - NOW
Ripley Group | Hostess and Event Assistance Milan, Italy
WORKSHOPS 21/11 - 01/12/2019
Recourse Shanghai |Tongji University
Alta Scuola Politecnica workshop “Recycling COncrete for a Soft Urban Regeneration in Shanghai” at Sino-Italian Center for Sustainability (SICES) of Tongji University
Project selected and exhibited for RI-FORMARE PERIFERIE 2018-2019 w w w. r i f o r m a r e m i l a n o . p o l i m i . i t
Alta Scuola Politecnica Politecnico di Milano & Politecnico di Torino
13 - 24/01/2020
Milan International Architectural Workshop |Politecnico di Milano
M4 New Metropolitan line as an urban platform for knowledge, culture and health. Workshop with Cany Ash, co-founder of Ash Sakula Architects, one of the UK’s leading housing and regeneration architects 3
4
CONTENTS index
.Social Housing 01. Porta Romana Village Milan, Italy [09/2019 - 01/2020] Politecnico di Milano |Thematic Studio
Professors Isabella Inti - coordinator, Riccardo Mazzoni, Irene Toselli
02. The Coherence of Structure
Yazd, Iran [03/2019 - 07/2019] Politecnico di Milano |Architectural Design Studio
Professors Marco Bovati - coordinator, Arian Heidari Asfhari, Mauro Nicoletti
03. Interior d’Illa: a community inside
Barcelona, Spain [09/2017 - 01/2018] Universitat Politècnica de Catalunya - ETSAV |TAP VI Profesores Enric Massip-Bosch - coordinator, Xavi Matilla, Manuel SánchezVillanueva
.Cradle to cradle 04. School of Domes
Ingall, Niger [09/2018 - 01/2019] Politecnico di Milano |Construction and Sustainability Design Studio Professors Alessandra Zanelli - coordinator, Lorenzo Belli
05. Container House
Lecco, Italy [03/2017 - 07/2017] Politecnico di Milano |Construction Design Studio
Professors Elisabetta Ginelli - coordinator, Mario Maistrello
06. Salvem Collserola
Collserola, Spain [03/2018 - 07/2018] Universitat Politècnica de Catalunya - ETSAV |TAP VIII PUD Professors Coque Claret, Dani Calatayud
5
01.
PORTA ROMANA VILLAGE Milano-Cortina legacy Location Milan, Italy Date 09/19 - 01/20 Designed with Yoana PenelovaPetrova, Veronica Vaccari Academic Politecnico di Milano| Thematic Studio Professors Isabella Inti, Riccardo Mazzoni, Irene Toselli The construction of the 2026 Olympic Village is part of the wider regeneration project of the Porta Romana Railway Yard. The project is aligned with an overall regeneration of seven yards in the city, as in the 2030 City Development Plan. However, the Olympics program proposed a retrofitting of the village into a residential campus for students, while the PGT Milan 2030 stated a minimum 44% of residential total volume in the yard allocated to social housing. The project criticizes the idea of a monofunctional district suggesting a flexible masterplan able to adapt to different scenarios of city growth. The retrofitting makes the Olympic Games as an occasion to provide the city with a new inclusive housing intervention, that follow the principle of social and functional mixitĂŠ. The mix is organized into linear and tower buildings. In the linear ones with commercial and services at the ground floor. In the tower providing a different range of flats sizes. This flexibility in typologies and common spaces allows a better adaptation in the reconversion. As the future of the yard is the future of the city, the first legacy is the park: a green infrastructure to prevent the area from further privatizations. A park made of a system of longitudinal strips with different thematizations where a central hill realized with the excavated soil provides connection along the axis from Parco Agricolo Sud and Piazza Trento. The reclamation of the yard will take place in different times following the longitudinal pattern of the future park, becoming part of its structure as temporary landscape for the citizen. 6
7
Connecting to the city grid
Densifying important nodes
8
Preserving memory of the yard
Create mix-use functions
9
Milan - The Global City PGT & Neighborhood Park
Milan - The European Capital PGT & Neighborhood Park
House Price Index House Price Index 130
120
110
Milan - Stagnant Growth New Neighborhood & Park
100
90
‘10
‘11
‘12
Existing dwellings
EXISTING DWELLINGS
‘13
‘14
New dwellings
NEW DWELLINGS
‘15
‘16
‘17
‘18
‘19
Total dwellings
TOTAL DWELLINGS
Milan - No Growth New Neighborhood & Park
10
9 sqm * 70 single rooms 12 sqm * 630 single rooms
d to
ed to social
164.000 sqm
volume for the
Don’t require kitchen 4:1 bathroom ratio
Porta Romana yard 216.614 mq
total gloss floor area needed
RENT-CONTROLLED HOUSING
footprint area 93.613 mq (50%)
51.850 sqm
Social Housing 34.850 mq Agevolata 25.570 mq
OLYMPIC VILLAGE PLAZA
OVP 1.180 sqm
RESIDENTIAL ZONE OPERATIONAL ZONE DINING HALL
FREE MARKET RESIDENTIAL 62.950 sqm
FREE MARKET NOT RESIDENTIAL 62.950 sqm
Min. public green area 93.613 mq (50%)
Milan 2030 program
22,1
RZ 15.950 sqm
Canone moderato 4.000 mq Canone sociale 5.280 mq
needed OV pro
green space
Ordinary rent-controlled 17.000 mq
OZ 10.900 sqm DH 2.400 sqm
Winter Olympic Games program 11
4
14 13
1
5
3
2
6 9
7
8 10 11
12
Olympic Village masterplan
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14.
Olympic Village entrance Olympic Village plaza Olympic Village residences Metro station Commercial center Plateau square Train station Pedestrian bridges Green bridge “The crossing park” Dining hall pavillions Reclamation landscape Sport stripe Sport center
Striped Park
GREEN SPACE
123.300 sqm
98.300 sqm
57%
Reclamation Land 25.000 sqm
PUBLIC SPACE
51.000 sqm
23%
BUILDING GROUND SURFACE
24.100 sqm
12%
INSTRUMENTAL AREA
17.6000 sqm
8%
Squares
40.000 sqm
Pedestrian paths
11.000 sqm
Residential area
14.000 sqm
Commercial area Sport area Dining area Station area
5.500 sqm 2.300 sqm 1.400 sqm 900 sqm
12
4 5 18
16
1
6
3
2
7
17
8
9
10 11 13
12
14 15
Milan 2030 masterplan
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18.
Library Olympic Village legacy plaza North-east neighborhood Metro station Business center Commercial center Plateau square Train station Pedestrian bridges Green bridge “The crossing park” Exhibition pavillions Kiosks South-west district Industrial-creative hub Student housing Sport stripe Sport center
GREEN SPACE
117.400 sqm
55%
PUBLIC SPACE
51.000 sqm
23%
BUILDING GROUND SURFACE
30.000 sqm
14%
INSTRUMENTAL AREA
17.6000 sqm
8%
Striped Park
117.400 sqm
Squares
40.000 sqm
Pedestrian paths
11.000 sqm
Residential area
19.000 sqm
Commercial area Sport area Cultural area Business area Station area Kiosks
5.500 sqm 2.300 sqm 1.100 sqm 900 sqm 900 sqm 300 sqm
13
Sport Olympic Village plaza Residential green Discovery garden Playground Kiosks area Exhibitions
Axonometric view of the thematic linear strips
14
View from the green bridge
15
Plateau square with infrastructural node
2020
2021 30 km of tracks to be removed
1.7 km of wall to be eliminated
Bioremediation Treatment of the Olympic Village area
16
Social mixed north-east neighborhood
2023
Park hill construction area 45.000 m3 of soil needed
2026 100.000 m2 of reclaimed park
Olympic Village construction area 80.000 m3 of soil moved Phytoextraction Artemisia Princeps Brassica Juncea Miscanthus Poa Annua Raphanus Sativus
Phytoextraction Artemisia Princeps Brassica Juncea Miscanthus Poa Annua Raphanus Sativus 17
Full building plan
Module distribution of the tower M1 47 sqm
76 sqm
M3 ST Student housing Offices Services/commercial
24 sqm
96 sqm
M8 M7 M6 M5 M4 Social Housing M3
M5
M2
24 sqm
M1
96 sqm
M7 96 sqm
96 sqm
Social and functional mixitĂŠ
West elevation 18
BUILDI
ms
12 x 1 16 Module Student housing
During Post-Ol
2 BUILDING OCCUPANCY CAPACITY
1
2 LINEAR BUILDING 1. Linear building
Type rooms / Studentrooms housing 12module x 16 Athletes Module Athletic 1
common space 2 LINEAR BUILDING
for games and following along the olympics games
12 x 16 Module Athletic rooms
2
2
bedrooms edroom space
Post-Olympics (MIN) - 93 (-41%)
common space for cooking and studying
BUILDING OCCUPANCY CAPACITY BUILDING OCCUPANCY CAPACITY
-2 double bedrooms -1 bathroom -living room and kitchen
1 TOWER During Olympics (MAX) - 158 During the the Olympics (MAX) - 158 Post-Olympics (MIN) 93 (-41%) Post-Olympics (MIN) - 93- (-41%) Athletes Rooms - Apartment typologySocial Housing Typology Post-Olympics
12 x 16 Module Student housing
common space for cooking and studying
1 TOWER 1 TOWER Athletes Rooms - Apartment typology Athletes Rooms - Apartment typology
2 LINEAR 2 LINEAR BUILDING BUILDING 12
12 x 16 Module Student housing
Athlets apartment typology / CAPACITY Social housing typology BUILDING OCCUPANCY 12 x 16 Module Student housing Social Housing Typology Post-Olympics During the Olympics (MAX) - 158
2
common space for games and following along the olympics games
Athletes R
Athletes Rooms - Apartment typology
2. Tower
2 LINEAR BUILDING
1
1 TOWER
-2 double bedrooms -1 bathroom 1 TOWER -living room and kitchen
12 x 16 Module Athletic rooms
1
During the Olympics (MAX) - 158 Post-Olympics (MIN) - 93 (-41%)
2
common space for cooking and studying
common space for games common space for cooking and following along 16 Module Athletic rooms 16 Module Student housing x12 16x Module Athletic rooms 12 x12 16x Module Student housing and studying the olympics games -2 double bedrooms -1 single bedroom -common space
-2 double bedrooms -1 single bedroom common for cooking common space space for cooking -common space and studying and studying
common for games common space space for games and following and following along along the olympics the olympics gamesgames
-1 master bedroom -1 master bedroom -1 child bedroom -1 child bedroom -1 bathroom -living room and kitchen -1 bathroom -living room and kitchen Users during Olympics: Users post Olympics: -2 double bedrooms
-1 bathroom -2 double bedrooms -livingbedroom room and kitchen -1 single -common space
Social Housing Typology Post-Olympics
4 athletes
-2 double bedrooms -2 double bedrooms -1 bathroom -1 bathroom and kitchen -living-living room room and kitchen
Social Hou
3-4 persons family
Social Housing Typology Post-Olympics Social Housing Typology Post-Olympics
-2 double bedrooms -1 single bedroom -common space
-2 double bedrooms -2 double bedrooms -1 single bedroom -1 single bedroom -common -common space space
Users during Olympics: 4 athletes
-1 master bedroom -1 child bedroom -1 bathroom -living room and kitchen
-2 double bedrooms -1 single bedroom -common space
-2 double bedrooms -2 double bedrooms -1 single bedroom -1 single bedroom -common -common space space
-2 double bedrooms
Users -1 post singleOlympics: bedroom -common space 4 students
-1 master bedroom -1 master bedroom -1 bedroom child bedroom -1 child -1 bathroom -1 bathroom and kitchen -living-living room room and kitchen
-2 double bedrooms -1 single bedroom -common space
South elevation
1
2
Type plan
1 LINEAR BUILDING
19
02.
THE COHERENCE OF STRUCTURE Cultural center & Social housing Location Yazd, Iran Date 03/19 - 07/19 Designed with Rachel Lee Jia Yi, Tianqin Chen (masterplan), Camilla Vertua (cultural center & housing) Academic Politecnico di Milano| Architectural Design Studio Professors Marco Bovati, Arian Heidari Asfhari, Mauro Nicoletti
The project consists in the design of a cultural center and a housing complex in the Iranian city of Yazd, an outstanding example of a traditional human settlement where man and nature interact in a desert environment. The project is located in the Unesco buffer zone of the city, a belt surrounding the city centre, where the urban sprawl expanded. Therefore, if the plot is still strictly related to the historical centre and aligned with the garden of Bagh-e Dolat Abad, it faces a fragmented territory that surrounds it. Historical researches showed that the plot is the only piece left of a wider agricultural territory historically developed along a North-South axis passing through the city. Differently from the other agricultural territories, it has resisted during time, shaping the city around it. Thus, we identify a hierarchy of territories, conceived as a sort of structure of the lands around, as it shaped them. The other voids in the plot, as result of urban sprawl, are shaped by buildings, and they can be define as events, in-between spaces, transitional landscapes, the unfilled, terrain vague, or as conjunctures, characterized by a constant fluctuation in a state of constant incompleteness. According to this interpretation, we define for each of them specific design approaches, with the aim to “enlarge the structure�, joining to the existing one also those territories that are instead perceived as waste lands, ontologically expected to become something new and different.
Urban fabric
1975
1987
2000
Transport hubs
2009
Urban fabric
Historic area & Industrial Transport hubs Urban fabriczone
Historic area & Industrial zo Transport hubs Historic area & Industrial zone
The plot Agriculture land Urban fabric Desert
Qanat UNESCO Sites
Silk and Spice Road Railway
Qanat
Qanat UNESCO Sites
Silk and Spice Road Agriculture UNESCO Sites Railway Transport hubsSilk and Spice Road Agriculture The historical core and the surrounding villages Railway Transport hubs The developments since the beginning decades Agriculture The historical core and the surround of 20th century to 1980 Transport hubs The developments since the beginn The urban developments from 1980 to 2011 The historical core andcentury the surrounding of 20th to 1980 villages The urban and suburban sprawl from 1980 to 2011 The developments since developments the beginning from decades The urban 1980 of 20th century to 1980 The urban and suburban sprawl fro The urban developments from 1980 to 2011
The urban and suburban sprawl from 1980 to 201
20
Morphological analysis of the plot | 1965
Morphological analysis of the plot | 1985
21
The strategy
Hierarchies of territories as a system made of weft and warp
STRUCTURES
CONJUNCTURES
EVENTS WITH EXISTING USES
EVENTS
The warp become with time weft of new systems
STRUCTURES
CONJUNCTURES
EVENTS WITH EXISTING USES
EVENTS
Morphological analysis of the plot | 2015
Agriculture shapes the coherence of the structure 22
Masterplan of intervention: housing and cultural center 23
The cultural center: design process To limitate
To follow
To define
To limitate
To op
To follow
To follow
Tow
To limitateTo limitate
To follow To follow
To open To open
...toward the urbanity
Towards the Towards urbanity the urbanity
To open
To open
Towards the Towards agricultural the agricultural ...toward the park park
park
To gather
To gather
the urbanity Ground floor of theTowards cultural center |1:500
Towards the agricultural park
24
Library Museum Conference room Auditorium Cafe
Axonometric drawing of the cultural center
25
Ground floor A’
C’
A
C
B’
First floor
Section A-A’: the junction of stairs
B
Section B-B’: the library and public circulation
26
Second floor
Third floor
Section C-C’: intersection between auditorium and conference room
27
West elevation
East elevation
Cultural center view: linear museum passing over the main entrance to the conference room
28
Cultural center view: public passage from the exterior
Cultural center view: interiors of the museum seen from the public passage
29
The social housing C
B’ To fill following the direction of the plot
A
A’
To reinforce the existing transversal axis
To introduce a human-size scale in the plot
C’
B
Ground floor of the social housing | 1:500
30
AA’ urban section | 1:500
BB’ urban section | 1:500
CC’ urban section | 1:500
31
Ground floor plan typology 2 | 1:200
First floor plan typology 2 | 1:200
Second floor plan typology 2 | 1:200
32
Section typology 2 | 1:200
South elevation typology 2 | 1:200
North elevation typology 2 | 1:200
33
03.
INTERIOR D’ILLA : A COMMUNITY INSIDE Public facility & Social housing Location Barcelona, Spain Date 09/17 - 01/18 Academic Universitat Politècnica de Catalunya - ETSAV | TAP VI Professors Enric Massip-Bosch, Xavi Matilla, Manuel Sánchez-Villanueva Sagrada Familia, one of the most iconic buildings in the world, has an architectural meaning strictly related with its role inside the urban context of Barcelona. It is possible to understand this context at two scales: the metropolitan scale, relation between the building and the city plan, and the local one, relation between the building and its immediate context. Sagrada Familia will be completed by 2025, and to allow for the completion of the Basilica several buildings must be demolished. The proposed strategy brings together the metropolitan and local scale, to provide a contemporary public space that keeps as possible the existing buildings and incorporates normal neighbourhood functions to devolve urbanity to a place that is becoming a tourist-only area. The idea is to intervene and use the possibility of buildings demolition of the actual urban regulation with different aims in the two residential blocks south of Sagrada Familia. In the block nearby the Sagrada allowing the necessity to accommodate the access to the Basilica, while in the southern one providing public services on the ground floor. The intervention focuses on the southern residential block by demolishing some buildings in bad state and proposing a social housing intervention following an infill development that reinterprets the Eixampla Vivienda typology. The new buildings allow accessibility in the interior of the residential block, creating a public circulation inside that connect with the public facility. The function of that facility will be a day centre for the elderly of the neighbourhood, located in the exindustrial warehouse inside the block that will be renovated. 34
35
Block of the intervention
Urban section 36
Masterplan 37
04.
SCHOOL OF DOMES Temporary school structure for the local community Location Ingall, Niger Date 09/18 - 01/19 Designed with Antonio Piga, Angelica Venzor, Camilla Vertua Academic Politecnico di Milano| Construction and Sustainability Design Studio Professors Alessandra Zanelli, Lorenzo Belli
The location of the project is In-gall, a town in the Agadez region of North-East Niger, Africa. It is known for its oasis and saltflats as for the Cure Salee festival. The aim is to create an adaptable space for the local community that can be moved like the nomads and located where it can be useful, a school for everybody. The construction is defined listening the place, the history of Tuareg, the local technics: in that way the action of “learning” starts since the first steps of its construction, executed by local people, through the rediscovery of local tangible and intangible knowledges. It was evident the necessity to have a massive structure to guarantee thermal inertia and resistance to the desertic climatic conditions, so the challenge of the project was how to make this massive structure easily reversible. Following the “cradle to cradle” philosophy for what concerns the ‘closed loop’ life cycle approach, it was developed a suitable construction solution. The technology adopted in the project consists of polypropylene bags filled with soil that, at the end of the build life cycle they will come back in the technical or biological cycle according with their nature. The final configuration of the school consists in three different size domes: circular pavilions with a domes roof technology. The bags filled by soil are the mass, while the dome roof is flexible made by a structure in local wood and covered by cushions of palm fibre and camel wool. 38
39
Localization: Ingall, Niger 0,5 km
Longitudinal section
40
Schematic plan
Community center Innovative areas Water towers
Different iterations of roof structure
41
Design principles Innovative learning Soil
Local materials
Flexibility and reversibility
x11 Polypropilene bags filled with soil to make walls
Soil comes back as soil
Traditional knowledge
Polypropilene comes back as polypropilene
Polypropilene bags
Eco-efficacy
Bioclimatic strategies
After their use, bags can be empty and the soil reused Materials Metabolism Life Cycle
42
ROOF TOP Palm-Fiber, tatami cuscions filled with camel wool.
FUNNEL A structure made out of Acacia canes, supporting a waterproof polyester net.
ROOF STRUCTURE Made of Acacia canes and rope joinery, fixed by resin.
CANOPY Made out of Acacia and rope joints, fixed by resin.
MASSIVE STRUCTURE Polypropilene bags filled with soil
MASSIVE STRUCTURE Polypropilene bags filled with soil.
STRUCTURAL SUPPORTS Structural supporsts made of Acacia. Rope joints connect them
STRUCTURAL SUPPORTS Supports made of Acacia and rope joinery.
School pavillion components
Warka Water Tower components
Technical section | 1:50 43
Construction kit CLOVE HITCH
1
2
4
3
PLACING THE STRUCTURE
FILLING THE BAGS FROM THE BOTTOM...
... TO THE TOP
POSSIBILTY OF UNFILLING THE BAGS
44
ROOF Palm fiber textile Camel wool Palm fiber textile
U=0,35 12 cm 1 cm 10 cm 1 cm
WALL Polypropylene Camel wool Polypropylene
U=0,25 60,2 cm 0,1 cm 60 cm 0,1 cm
DOOR Palm fiber textile Camel wool Palm fiber textile
U=0,65 7 cm 1 cm 5 cm 1 cm
45
05.
CONTAINER HOUSE Prefabricated and off-grid single family house Location Lecco, Italy Date 03/17 - 07/17 Designed with Francesca Moschione, Francesca Prini, Selene Rini Academic Politecnico di Milano| Construction Design Studio Professors Elisabetta Ginelli, Mario Maiestrello
The project consists of a singlefamily house realized with containers as structural modules. The aim is the construction of a sustainable, cradle to cradle and off-grid house, enhancing the periurban house model, innovated with technological solution for energy efficiency and reuse of resources. The use of containers in building construction is representative of a closed material loop and constitutes a valid structural element for housing solutions. Prefabrication and dry assembly facilitate the construction process and the maintenance throughout building life cycle. Moreover, the choice of off-grid allows energy saving, adopting instead renewable energy sources. The house is articulated on two floors and made of four containers 20’ HC and three 40’ HC. The disposition of containers on the east and west perimeters creates a central space working as living room and connector between different rooms and between ground and first floor. On the south side the central space is defined by a bioclimatic greenhouse, that in winter maximize solar heat gains, while in summer thanks to fall planting acts as a barrier against solar radiation. The greenhouse works also as filter space in terms of relation with the context. Each bedroom has a space of expansion outside through a technological solution for the windows, defining a building with a flexible perimeter in continuous evolution. 46
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Bioclimatic greenhouse winter behaviour Inverno
Container modules combination
Bioclimatic greenhouse summer behaviour
48
49
06.
SALVEM COLLSEROLA Facilty against fires design and self-construction Location Collserola, Spain Date 03/18 - 07/18 Designed with TAP VIII PUD students Academic Universitat Politècnica de Catalunya - ETSAV |TAP VII PUD Professors Coque Claret, Dani Calatayud The project consists of a fire prevention and land management plan in the Collserola forest by introducing a system of silvopasture herds combined with other measures, thus reinforcing the prevention in relation to extinction. For maintaining all the hectares of Collserola, it will be needed 85 exploitations located in different points, that will give this service to their related municipalities. The project was carried out in collaboration with the council of Sant Cugat, which involved several meetings with the council. While the discussion with them was taking place, a prototype of the shed was auto constructed inside the university. The design gives lot of importance to its assembly, the less use of heavy machinery and the security while constructing it, giving fast construction time to provide Collserola park with 85 silvopasture exploitation system as fast as possible. The prototype realized has been made entirely with residual materials and donations from the local companies that provide us free material to start over. The construction of this prototype was carried out by 15 people, a very important communication and management challenge that required a strong group collaboration. The process carried out consists in the pre-assembling of wooden pillars and beams in a flat area. The ground was prepared to lay the foundation, made by means of solid concrete benches. The wooden pillars were raised and anchored to the foundation by metals, after that pillars were stabilized with props. The beams were placed with metal plates. These stabilized the structure and allowed the removal of the props. Finally, the facade and the roof were installed. 50
51
Construction kit
1
2
3
4
5
6
52
Axonometry of the shed in Collserola
Axonometry of the prototype realized 53
Construction in the making 54
55
Construction details 56
57