ARCHITECTURAL ASSISTANT PART II | ALICE DEL SORBO by Alice Del Sorbo

ALICE DEL SORBO | PORTFOLIO ARCHITECTURE ASSISTANT PART II

Alice Del Sorbo alice.delsorbo@gmail.com +393480321437 www.alicedelsorbo.com

INDEX

• MArch 2 (2018/2019) University of Portsmouth - School of Architecture | ARCHITECTURE & LANDSCAPE STUDIO - THE REDEVELOPMENT OF A FORMER ABANDONED INDUSTRIAL CITY “The new Olivetti’s village” (Ivrea, Italy) • MArch 1 (2017/2018) University of Portsmouth - School of Architecture | SOLVE STUDIO - FIND AN ENVIRONMENTAL, SOCIAL AND ECONOMICAL SOLUTION FOR THE CITY OF ELEUSIS “How to SOLVE Eleusis” (Eleusis, Greece) WORK EXPERIENCE • HNW (2019) | Chichester, United Kingdom •

PROAP (2016/2017) | Lisbon, Portugal

•

Architetto Del Sorbo Srl. | Rome, Italy

• BA3 (2015/2016) University of Portsmouth - School of Architecture | STUDIO 2 - THE FUTURE OF SOCIAL HOUSING “Elms House” (Winchester, United Kingdom) •

PERSONAL INTEREST

- TRAVEL - PHOTOGRAPHY - ARCHITECTURE

MARCH 2: THE REDEVELOPMENT OF A FORMER ABANDONED INDUSTRIAL CITY

THE

OLIVETTI’S VILLAGE IVREA | ITALY

I N T R O D U C T I O N This project deals with the urban context of the city of Ivrea, Piedmont, Italy. Ivrea was an important point for Italy during the industrial development in the 20th century and it accommodated the main headquarters of the Olivetti company, an IT/ICT company that developed from the 1930’s until the 1960’s. The owner of the company, Adriano Olivetti, a man with exceptional managerial skills and of multidisciplinary interests, during the years of company growth, offered to finance urban development for the city several times. The company had a major impact on the city since a big part of the South-West area was transformed into an industrial area with a village specifically dedicated to Olivetti’s workers: housing, offices, schools, nursery, canteen, etc. Olivetti, during these years developed a deep interest in urban design. He orchestrated many different studies for the development of the city, collaborating with Italian architects, for the proposal of a new Master Plan. Today, unfortunately, after the decline of the IT company, Ivrea stands in a retrograde condition. A good part of the buildings created for and by Adriano Olivetti are abandoned, but in good condition and full of potential as it is showed in the section of this project dedicated to the study of the site . Due to its potential, and its successful industrial architecture, in the summer 2018, the city was selected as a UNESCO World Heritage Site, and was named “Ivrea, industrial city of the 20th century”.This nomination of the city was the initial idea for the development of my final university project. This city is ready to receive new developments and needs implementation and organization of Olivetti’s original Strategic Plan integrated with the needs of today’s society. This thesis project will focus mainly on the study of the renovation of the Olivetti village, through new uses connected with IT and all subject recalling the past use of the buildings. The purpose of the project is to create a strategy on a masterplan scale level for the reconnection of the abandoned Olivetti’s village to the existing city and its community, moving to a more smaller project scale that will include the study of missing activities in the city that can develop a strategy for an interaction between the new community of Ivrea and the existing one.

SITE ANALYSIS

IVREA’S LANDMARKS

OLIVETTI ‘S BUILDING | 1970’ | IN USE

IVREA, PIEDMONT, ITALY

OLIVETTI VILLAGE

AREA: 30.19 km2 ELEVATION: 235m

BUILDINGS USE | TODAY

DEMOGRAPHIC TREND ANALYSIS: YEAR

1901 1930 1950 1965 1990 2005 2018

POPULATION

11,000 15,100

15,000

29,150 21,000 23,000

35,500

1850-1950

1950-2015

2015-TODAY

? AGRICULTURE

INDUSTRY

CRISES

BUILDING IN USE - 27%

BUILDINGS STATUS | TODAY

FAIR - 22.5%

OVERAGE 22.5% POOR - 15%

PRIMARY SOURCES: 1600-1800

BUILDING IN UNDERUSED - 2O%

OLIVETTI ‘S BUILDING STATUS | TODAY | ABANDONED

TODAY?

BUILDING NOT IN USE - 53%

GOOD - 52%

SITE LANDMARKS OLIVETTIâ&#x20AC;&#x2122;S BUILDINGS NORTH: CITY CENTRE | INHABITED | IN USE SOUTH: EX INDUSTRIAL AREA | ABANDONED | NOT/UNDER USE

SITE NOW

SITE PREPARATION

CONNECTION BETWEEN SITES

CONNECTION WITH THE SURROUNDING

DEMOLITIONS

INTEGRATION WITH LANDSCAPE

PROPOSED SITE ACCESS

NEW PUBLIC SPACE

SITE DEVELOPMENT

LOCATION | CENTRE OF MAIN ROAD

USE | DIRECT CONTACT WITH MAIN ROAD

CONCEPT | REGENERATION OF THE SURROUNDING AREA Train Line

Existing buildings on site

Key frontages

Main Road

Secondary Road

Primary view-port

River Boundary

CONCEPTUAL DEVELOPMENT

POLYTECHNIC OF IVREA

IVREA

55 MINUTES

REUSE OF PART OF EXISTING EX INDUSTRIAL BUILDINGS TROUGH EDUCATIONAL PURPOSES. CREATING A NEW UNIVERSITY CAMPUS ON SUBJECTS RELATED TO IT SERVICES.

1 HOUR 4 HOURS

1880//1980: FROM AN IMPOSING INDUSTRIAL CITY

1 HOUR

MILAN

FEB

MAR

CITY IN USE

APR

1) The Olvietti’s buildings dedicated to the production centre, at the moment abandoned, will have a new use with educational scope, creating an IT University in honour of Adraino Olivetti and of their previous use.

MAY

JUN

POLYTECHNIC TURIN

TRAIN ROUTE

POLYTECHNIC MILAN

4) Create better transport connections with the surrounding city, as well as with Milan and Turin, the second most important Italian cities after Rome.

NOV

5) Increase green wedges and reuse of green spaces for public activities. Create an integration between nature and urbanism.

JUL

AUG

SEP

OCT

DEC

6) Redefine the city boundary, including extra agricultural areas to intensify and increase local production and introducing, in connection with the IT faculty, new agricultural experimental technologies. 7) Organise building and spaces for possibly hosting major events and create activities and services around this.

PROPOSED ACTIVITIES

POLYTECHNIC MILAN

POLYTECHNIC IVREA (Ollivetti’s Foundation)

TOTAL STUDENTS: 44,269

EXPECTED STUDENTS: 8,500

STUDENTS // Faculty of Engineering: 32,328

TOT STUDENTS // Faculty of Engineering: 10,000

STUDENTS // FACULTIES OF INTEREST: 5,000 (10%)

TOT VOLUME X STUDENTS: 51,217m

VOLUMES X STUDENT IN USE NOW: (all faculty of Engineering) 200,000 m2 VOLUMES X 10% STUDENT: 30,932m2

TOT VOLUME X LABS:10,020m2 TOT VOLUME: 61,237m2

TOTAL STUDENTS: 33,275 STUDENTS // Faculty of Engineering: 21,050 STUDENTS // FACULTIES OF INTEREST: 3,500 (17%) VOLUMES X STUDENT IN USE NOW: (all faculty of Engineering) 122,000 m2 VOLUMES X 17% STUDENT: 20,285m2

The strategic location of the city of Ivrea will help the development of not only a University but to create a education network between Ivrea, Milan and Turin. In Milan and Turin there are already located two of the most important universities in Italy: the Polytechnic of Milan and the Polytechnic of Turin. These two universities, of a scientific nature, already have computer science and engineering faculties, but their faculty buildings are located in peripheral areas, far from the main faculty building. The idea of this permanent strategy is to move the faculties of Computer Science, Computer Engineering, Electrical Engineering, and Electronic Engineering from the two polytechnics and decolonize them in Ivrea and create a new cultural centre for Informatics, Electronics and Engineering.

POLYTECHNIC MILAN

2025: A GROWTH FOR THE ECONOMY OF THE CITY OF IVREA TO BRING BACK THE IMPORTANT VALUES OF BEFORE

Y S

CAR ROUTE

CITY NOT IN USE

EXISTING ACTIVITIES

2018: PROPOSING WITH CULTURAL EVENTS, EXPERIMENTAL EDUCATIONS, SCIENCE AND INTERNATIONAL FAIR

T E G I P L E

3) Create in there the new “Comunita’ integrating the southern area of the city with the northern one, through activities that engage the economical and social aspects of the city.

CITY USE TIMETABLE JEN

T R A R I N C

2) Reuse the units dedicated to housing, in part as student’s halls for the university students and part as hotels, since there is a possibility of an increase in tourism due to the recognition as a UNESCO World Heritage and give tourists the chance to experience accommodation in the building as the workers of Olivetti did.

TURIN

1970: TO A MAYOR ECONOMY CRISES

S P

REUSE

During the first term of this university academic year, a study was conducted for this research project to understand how many people were in discussion to move from Milan and Turin. About 8,000 students are enrolled in the engineering and computer science faculties between the two polytechnics. The final project, therefore, will develop with the intention of accommodate this number of students. However, it is necessary to think of a possible growth of the incoming student number and to design a possible territorial development.

SWOT ANALYSIS: THE CITY OF IVREA • • •

RESTAURANTS BAR CAFE’

• • •

HISTORICAL BUILDING MUSEUMS HISTORICAL LANDMARKS

• •

HOSPITAL PHARMACIES

• •

SCHOOL CULTURAL CENTRE

• • •

SUPERMARKET GROCERY SHOPS CORNER SHOP

• • •

CITY COUNCIL PUBLIC BUILDING PUBLIC OFFICES

• • •

POST OFFICE HOTELS BANKS

LI BRARY

CINEMA

FULCRUM POINT IN THE NEW CITY

LIBRARY

S PA

? WHAT IS GOING TO HAPPEN ON SITE?

LI BRARY

SWOT ANALYSIS: OLIVETTI VILLAGE

NEW BUILDING USE:

7 MINUNETS WALKING 5 MINUNETS WALKING

E SID

TIE

IVI

A IX

S OP SH K R WO

IA NT

? ITY CIL ING A F ILD BU

WHAT IS MISSING? • • •

SQUARE / OPEN PUBLIC SPACE LIBRARY SOCIAL SPACE

• • •

GAME CENTRE

• • •

STUDENT HALLS HOUSING HOSTELS

• • • • • • • • • •

LECTURE THEATER CONFERENCE ROOMS MAKING SPACES START UP AREAS SHARING WORK AREAS PERFORMANCE SPACES PRINTING ROOMS LABORATORY COMPUTER ROOMS STUDY ROOMS

• • • • • •

STUDENT UNION STUDENT OFFICES CANTEEN SPORT CENTRE OLVIETTI FAUNDATION UNIVERSITY GYM

USE OF GREEN • POINT OF INTERACTION COMMUNITY SPACE

FULCRUM POINT

1. AN ADDITIONAL BUILDING THAT WILL HAVE A SOLO FUNCTION NOT INTEGRATED WITH THE LIBRARY 2. BUILDING FOLLOW THE LANDSCAPE, BLENDING THEIR ESSENCE + FUNCTION WITH NATURE 3. A BIG ROOM WITH SHARING SPACES (ALL AGES PROJECT) 4. A TEMPORARY STRUCTURE TO MAKE IVREA SELF SUFFICIENT

LI BRARY

MARKET

ACTIVITIES SERVING THE UNIVERSITY AND THE CITY

The final decision to develop the library for the project, it was taken because of the initial purpose of the masterplan proposal for the new community of the city of ivrea. The ex Olivetti’s village will be turned in to a new university dedicated to IT, electronics, and mechanical studies and the Olivetti’s Library will be the new “Fulcrum” for the city that will join the new upcoming community and the existing community of the city of ivrea. The library will not be just a place of study, but a cultural place where artistic, social and cultural activities will take place. The idea is to create social spaces, related to study and reading, which not only students, but also an outsider can use.

CREATE A NEW SOCIAL SPACE FOR INTERACTION WITH THE COMMUNITY

Adults, retirees, mothers, young generation, teenagers, professionals will have access to various areas of the library: magazine room, general culture room, children’s room, study rooms, etc ... * The proposed strategy will serve to provoke education at a reduced cost affordable for all. The library will have an enrolment fee for the use of it , which will be used for the maintenance of the building and the material. The diagram on the left is a recall to the Unit 403 strategy that was based on the re-qualification of the abandoned area V education. A stretegy developed with the purpose of bringing to the city not only a new architectural, urban and landscape development, but even a social and economical one.

SERVING THE STUDENTS, THE CITIZEN, THE WORKERS AND THE TOURISTS

CONCEPT DESIGN

SOUTH ORIENTATION

2F | LIBRARY DEDICATED TO THE NEW UNIVERSITY CAMPUS 1F | INTERACTION BETWEEN EDUCATION AND THE COMMUNITY OF IVREA GF | CONNECTION WITH THE SURROUNDING

WEST WIND DIRECTION

SHADING FROM DIRECT SUNLIGHT

USE OF DIRECT SUNLIGHT

NATURAL VENTILATION

GREEN ROOFING: THERMAL MASSING

SKETCHES BEFORE AND AFTER INTERVENTION

CONCEPTUAL 3D MODEL

LASER CUTTER 3D MODEL

LANDSCAPE DESIGN The precedent of Snohetta, in Lascaux stimulated ideas for the project to interact directly with the hill located on the chosen site. This study sketches were made to have a better understanding of how the building proposal can join the landscape to have a result of a unique form.

Lascaux IV / SnĂ¸hetta + Duncan Lewis Scape Architecture

LANDSCAPE DESIGN

A: GREEN ROOF STRATEGY

B: INSULATING THE BUILDING

C: WATERPROOFING THE BUILDING 1 2

1 2 6

4 7 8

1. PLANTING 2. 7cm SINGLE COURSE SUBSTANCE 3. FILTER COURSE / MAT 4. 2.5cm SOLID DRAINAGE 5. PROTECTIVE COURSE 6. WATERPROOF MEMBRANE 7. ROOF SEAL / ROOTS PROOF 8. THERMAL INSULATION 9. VAPOUR SEAL 10. WATERPROOF REINFORCED CONCRETE

1. HEAVY STRUCTURAL CONCRETE 2. INTERNAL INSULATION

1. 2. 3. 4. 5.

WATERPROOF CONCRETE DRAINED CAVITY WATER BAR DRAINAGE SYSTEM WATERPROOF MEMBRANE

PLANS

SITE PLAN 1:1000@A3

+5 +4 +3 +2 +1

N SOUTH ELEVATION

SECTION CUTS

GROUND FLOOR PLAN: 1500@A3 1. ENTRANCE 2. LIBRARY OFFICES 3. EXHIBITION SPACE 4. LECTURE/CONFERENCE THEATRE 5. AUDIO/VIDEO ROOM 6. CAFETERIA 7. MAGAZINE SECTION 8. PUBLIC READING ROOM 9. CHILD SECTION 10. NURSERY 11. STORAGE 12. TOILETS

12 4 1 5 11 3

12 10 9

GROUND FLOOR DIAGRAMS

PRIVATE SPACE PUBLIC SPACE

MAIN ENTRANCE ACCESS TO UPPER FLOORS DISABLE ACCESS

SERVICES

GROUND FLOOR DYNAMIC:

The main entrance of the library is located at the ground floor level with the access to the upper floors. This floor is mainly dedicated to noisy activities and main location for the interaction between the Ivrea community and the Polytechnic one. The ground floor is divided in three areas:

ZONE ONE:

This zone is dedicated mainly to the activities of the Library: passing the main entrance, behind the reception, it is possible find the Libraryâ&#x20AC;&#x2122;s offices, for administration, Historical Archive use, and general enquiries.

ZONE TWO:

This zone in the most dynamic part of the building where activities of different scope will take action. Coming from zone one we can find on the right a piano for any user of the library, this is to promote the music and its importance. Following, in the central point, the area dedicated for temporary and permanent exhibitions where work from any type of art or cultural purposes can be exposed.

Following, in the central point, the area dedicated for temporary and permanent exhibitions where work from any type of art or cultural purposes can be exposed. Part of the exhibition spaces can be moved or added to the rooms at the back of the panels, for extra space, or in case of digital needs. Alternately the rooms can be used ad lecture theatres or other purposes. The location of the cafeteria in this zone of the building was taken because its centrality and its connection to the outdoor space for additional outdoor tables; it will have its main entrance for an independent use with the addition of an internal connection for the library users.

SECURITY ESCAPE ROUTES

ZONE THREE:

This zone is the first reading space of the building. Coming from zone two, on the right is located the room dedicated to magazines, news paperers, and anything related to todayâ&#x20AC;&#x2122;s news to always be updated on what is happening in Italy , or in the world. On the left a room dedicated to classical reading books of any typology as Le Petit Prince, The Da Vinci Code, Ulysses, etc.. Following the plan, there is an entirely area dedicate to child education, and nursery. For the library users there is an additional temporary kindergarten, where the children can wait under surveillance of members of staff for their parents if they have to do a study group or a business meeting.

CIRCULATION

FIRST FLOOR PLAN: 1500@A3 1. CONNECTION FROM GF 2. TERRACE 3. RELAX SPACE 4. COMPUTER ENGINEERING SECTION 5. COMPUTER ROOM 6. IT SUPPORT 7. PRINTERS 8. MECHANICAL ENGINEERING SECTION 9. COMPUTER SCIENCE SECTION 10. PRIVATE ROOMS

4 2 3

5 6 7

FIRST FLOOR DIAGRAMS

PRIVATE SPACE PUBLIC SPACE

SECONDARY ENTRANCE ACCESS TO UPPER FLOORS DISABLE ACCESS

SERVICES

SECURITY ESCAPE ROUTES

FIRST FLOOR DYNAMIC:

The largest part of the university book collection, in the Olivettiâ&#x20AC;&#x2122;s Library is located on the first floor. This floor has an independent access from the external ramp or staircase of the building. The secondary entrance was a decision taken to invite the users of the library to take a journey toward it trough a direct contact with the landscape. In addition to it. The secondary route supports body exercise and helps to reduce the use of elevators. The three zone in this floor accommodate activities of different types:

ZONE FOUR:

Coming form the ground floor into the zone four, it is possible to see a free plan open space that leads you directly to the upper floor. This part of the building is dedicated to the transit between the noisy and the more quiet areas of the library.

ZONE FIVE:

This zone in the first study area of the library where you can have access to computer spaces and private room for group meeting, or personal study. To have access to this facilities you have to be registered in the library system.

ZONE SIX:

This zone is dedicated to the book of IT, technologies, mechanical and electronic interest. It primary use is to help and support the student of the Polytechnic of Ivrea to carry their studies, but even other users can consult the material.

CIRCULATION

ยง

SECOND FLOOR PLAN: 1500@A3 1. 2. 3. 4. 5. 6.

6 3

1 5 2

CONNECTION FROM 1F READING AREA ARTIFICIAL INTELLIGENCE SECTION READING SPACE DATA MODELLING SECTION HISTORICAL ARCHIVE

SECOND FLOOR DIAGRAMS

PRIVATE SPACE SECOND FLOOR DYNAMIC:

PUBLIC SPACE

The second floor is the quietest part of the Olivetti’s Library where the landscape and the building become one object. This particular location into the site, helps the building with the Olivetti Historical Archive conservation of materials.

ZONE SEVEN:

Coming form the first floor, you can enter in quiet study space of the library. In zone surrounded by glass, it is possible to admire the view and study with the feeling of a direct contact with the external space.

ZONE EIGHT:

This zone is the area dedicated of the additional part of the university book material and the quiet reading space.

SECURITY ESCAPE ROUTES

ZONE NINE:

The journey in the Olivetti’s Library conclude with the Historical Archive of all the old Olvetti’s company materials and documents. To consul the archive it is necessary to have a prior meeting to explain the purpose of consultation of the document and than it will be arrange a booking slot for the visit.

ACCESS FROM UNDER FLOORS DISABLE ACCESS

CIRCULATION

ยง

SOUTH ELEVATION: 1:100@A1

SECTION A’-A’: 1:1000@A3

GROUND FLOOR: 1. CAFETERIA 2. LIBRARY ENTRANCE 3. LIBRARY OFFICES 4. EXTERNAL RAMP FIRST FLOOR: 5. OUTDOOR TERRACE 6. COMPUTER ENGINEERING SECTION 7. READING SPACE SECOND FLOOR: 8. QUIET STUDY AREA 9. QUIET READING ROOM 10. HISTORICAL ARCHIVE

A’ A’

4 3

SECTION B’-B’: 1:200@A1

FIRST FLOOR: TOWARDS COMPUTER AREA FIRST FLOOR: TOWARDS COMPUTER AREA

INTERACTION WITH THE LANDSCAPE

D 03

SECOND FLOOR: QUIET AREA

D 02

RAMP TO SECONDARY ENTRANCE

GROUND FLOOR: EXHIBITION SPACE GROUND FLOOR:

EXHIBITION SPACE

D 01

B’

B’-B’ SECTION CUT

FIRST FLOOR: RELAX SPACE

SECOND FLOOR: QUIET AREA

GROUND FLOOR: MAIN ENTRANCE

D 01

FIRST FLOOR: TERRACE SPACE

RAMP TO SECONDARY ENTRANCE

10m

010m

10m0

20m 10m

30m 2

200m 100m

300m 200

D02 - 1:20 SECTION

TECHNICAL INFORMATIONS D01 - 1:50 BAY ELEVATION/SECTION

1:1000 20m

1:500 10m

Warm colour tones as yellow, orange and red bring tranquillity and relax in the human mind. Due to this reason, it was taken the decision of using bright colours to decorate part of the library space on the second floor. In addition, the use of coloured 1:1000 walls can be used as a stratgic way to brake down spaces. The final purpose is the one of creating an energetic space, that will 0 40m 20m 60m 40m influence 0 in20m a positive way20m the peopleâ&#x20AC;&#x2122;s feelings, and work flow.

D 03

80m 60m

100m 80m

1:5000

100m

100m 0

1:50

100m

1:500 0 10m

1:5000

10m 0

20m 10m

30m 20m

40m 30m

50m 40m

50m

4 5

1:5000

100m

0100m

100m0

200m 100m

300m 200m

400m 300m

500m 400m

1:200

1m 0

2m1m

3m2m

4m3m

5m4m

1:200

04m

1:100

02m

1:5

100mm

100mm 0

1:20 400mm

1:200

1:50 0 1m

FLOOR CONSTRUCTION 1 - 20 mm Smoothed Concrete 1m0 2m1m 2 - Vapour Barrier 3 -100 mm Rigid Thermal Insulation 4 - Vapour Control Layer 5 - 300 mm Reinforced Concrete Slab on 600mm Pile Foundations 6 - 300 mm Gravel 7 - 150 mm Hardcore 8 - Earth

3m2m

4m0

8m4m

12m 8m

2m0

4m2m

6m4m

500m

All the external paving and all routes integrated with the lansdcape will prioritise an use of natural stones materials to have a better integration with the greenary.

1:50

01m

100m 0

1:20 400mm 0

100mm 0

200mm 100mm

400mm 0

800mm 400mm

1200mm 800m

1:1000

D-03

20m 0

40m 20m

60m 40m

80m 60m

100m 80m

100m

1. Water dry-well - 1% slope 2. 80-100 mm Light Substrate with Extensive Vegetationn 3. Topsoil 4. Fleets 5. Solid Drainage

1:500 10m 0

10m 0

20m 10m

30m 20m

40m 30m

50m 40m

50m

6. 2mmProtective Root Proof Barrier. 7. Double waterproof membrane 8. Thermal insulation 50 mm. 9. Thermal insulation 100 mm. 10. Play 18 mm 11. Vapor control layer

1:5000 100m 0

100m 0

200m 100m

300m 200m

400m 300m

500m 400m

500m

12. 200mm Reinforced Waterproof concrete 13. Interior plaster 14. Steel bolt 15. Support plate 16. Concrete wall

1:50 01m

1m0

2m 1m

3m 2m

4m 3m

5m 4m

17. 30mm Pre-cast waterproof concrete flooring tiles 18. Plaster 19. Play 20. Smoothed concrete 21. Wood strip for membrane

1:200 04m

4m0

8m 4m

12m 8m

16m 12m

20m 16m

20m

22. Thermal Brake (Concrete in Concrete) 23. Metal plug 24. Hook screw 25. Aluminum profile

1:100 02m

2m0

4m 2m

6m 4m

8m 6m

10m 8m

10m

23. Suspended ceiling 27. Flexible ceiling strings holder 28 - T profile

1:5 100mm 0

100mm 0

200mm 100mm

300mm 200mm

400mm 300mm

500mm 400mm

500mm

ENVIRONMENTAL RESPOND

STRATEGIES

1. USE OF DAYLIGHT The use of daylight for a library is one of the primary light source in building, in particular since the building in mainly used during the day time. It maximize visual comfort and reduce energy use for health, productivity and sustainability.

2. MECHANICALLY OPERATED ROOF LIGHTS

GREEN ROOF

The mechanically opened roof lights are part of a Demand-controlled ventilation strategy needed to regulate light coming from the roof, and to improve the quality of the air in the building. It is needed as addition of the natural ventilation. The quality of the air in a library is a very important condition to improve brain oxygenation during study activities. In addition, this strategy will be integrated to shading system to avoid over-lighting due to the south exposition of the building. During the Summer, the rooflights are temporarily shut to create a warm layer of air at roof level. Then they open to allow this layer of warm air to escape; drawing in cooler air to the floors. This process amplifies the effect of Stack Ventilation.

DIRECT HEATING ON GREEN ROOF

PV PANELS

STACK VENTILATION

THERMAL MASSING

DIRECT USE OF DAYLIGHT

UNDERFLOOR HEATING

HARVESTING WATER SYSTEM

3.PHOTOVOLTAIC PANELS The panels will be locate in specific part of the roof ,still to be specified, to generate renewable energy from the Sun. This energy is transferred to the underground plant room to partially power the boiler for the underfloor heating.

4. USE OF LANDSCAPE The decision to integrate the building with the landscape has been considerated for the general improvement of the building performances and in relation to the Olivetti’s Historical Archive material preservation. 4.1 GREEN ROOFS: The use of growing medium material contributes on a roof of a building it reduces the energy consumption of it. The capacity of green roofs’ subtracts for containing water, increases their thermal conductivity and thus reduces their thermal performance. Green Roofs serve as Thermal mass for the building to keeping it warmer in winter and cooler in summer. 4.2 COOLING EFFECT: The absorption of rain water in the soil it will be reused for irrigation and for the cooling strategy of the Historical Archive.

SUM MER

SOLS TICE

15 62 WIN

TER SOL STIC E

D’

C’

1. ROOF LIGHTING

3. GREEN ROOF

MACHANICAL VENTILATION To avoid formation of buoyancy air the mechanical roof opening will create the Stack Effect trough the generation of vertical circulation inside the building.

WATER COOLING SYSTEM An additional strategic way for use the green roof is to integrate drainage pipes in the structure where, the rain water not collected by the vegetation, can be reused for mechanical cooling in the building. As part of the environmental strategy the Library uses the landscape water cooling mechanical system in particular in the area of the Historical l Archive. This room needs precise constant temperature to conserve part of the old documentation. Due to this strategy, the room will be constantly mechanically cooled to avoid the formation of humidity in the room during any time of the year.

USE OF DAYLIGHT The use of day light in the Library is essential as a primary energy source. In addition, openings in the roof, help the daylight reach the room integrated in the landscape and c more exposed to shadowing. 2. DIRECT USE OF SOLAR ENERGY.

C’ 2

THERMAL MASSING The decision to use high density material as concrete for the slabs, was made to help the building to have better energy performances. Its long exposure to the sun, due to its orientation, help the material to absorb the heat and store it.

PV PANELS The long exposure to the sun has to be seen as an opportunity to use solar gain. On the roof there will be located Solar Panel that will collect solar energy to be reused fro a large part of the library lighting.

3 2

D’-D’ SECTION CUT

C’-C’ SECTION CUT

MARCH 1: FIND AN ENVIRONMENTAL, SOCIAL AND ECONOMICAL SOLUTION FOR THE CITY OF ELEUSIS

THE

CITY OF ELEFSINA ELEUSIS | GREECE

I N T R O D U C T I O N Eleusis, in Greek Elefsina, is a town and municipality in West Attica, 20km north-west Athens, sitting at northernmost of the Saronic Gulf. With the population of 30’000 registered locals, the city residents to many industrial facilities, including the largest oil refinery in Greece. These industries help maintain the local economy, providing many job to the city and outsiders. The city also includes a military airport few kilometres east of Eleusis that played a crucial role in the final British evacuation during the 1941 “Battle of Greece”. Municipality of Eleusis is currently working under the rules of democracy and transparency, trying to change the city for the better. They understand the responsibilities and aim to resolve problems, big or small, by facing the citizens separately or by the whole city. They concern the support of the community and believe to accomplish all of their aims with the support of the locals. Eco-Eleusis is a non-governmental organisation that aim to improve the city of Eleusis through ecological point of view. They want to create a new identity of the city through the phase of “post-industrial”. They believe that to achieve an improved ecology of the city, they must educate the importance of it. They are aware that a new generation of people should be brought to the foreground to prepare this transition.

Attika, Greece

Eleusis, Greece

SITE ANALYSIS ELEUSIâ&#x20AC;&#x2122;S PROBLEMS

WHAT ELEUSIS OFFER:

ELEUSIS, ATTICA, GREECE

ABANDONED AREAS

WASTE

32 SINK BOAT IN THE GULF

UNUSED SPACE

AREA: 36.589 km2 POPULATION:29,000

ATHENS UNIVERSITY SPEARHEAD NEW ART AND DESIGN SCHOOL THAT FOCUS ON RECYCLING

UNIVERSITY OF ATHENS

ELEUSIS

P L A S T I C CHALLANGE

SCIENCE

EDUCATIONAL CENTRE OF WASTE REDUCTION

= ARTS

GOOD USE OF WASTE

CONCEPT STRATEGY

E L E U S I S P R O B L E M S

G R E E K E D U C AT I O N

HISTORY

WASTE

CULTURE

POLLUTION

PHILOSOPHY

ABANDONED BUILDINGS

ART ARCHITECTURE

SOLVE POLLUTION

ORGANIZATION

PLASTIC POLLUTED WATER

EDUCATIONAL CENTRE OF WASTE REDUCTION

ECO - DESIGN TEACHING

REUSE

BRING NEW JOBS

RESEARCH

N CITY

LINK THE SITE WITH THE CITY

SITE

CITY

LINK THE SITE WITH NEW BUS ROUTES

SITE

THE CITY

CITY

USE THE SITE AS A CONNECTION BETWEEN THE CITY AND TE SEA

THE SITE

SITE

ELEUSIS PROPOSED MASTERPLAN 1 RUINS INNOVATION 2 ELEUSIS 21 SPACES

MASTERPLAN ELEUSIS 2018

3 CULTURAL CENTRE 4 OFFICES 5 FACULTY BUILDING 6 SPORT CENTRE 7 STUDENT UNION 8 UNIVERSITY LIBRARY 9 PUBLIC LIBRARY 10

PERFORMANCES SPACE

RESIDENTIAL

ADDITIONAL FACULTY BUILDING

12 3

8 10

5 7

SITE DEVELOPMENT

Building to be demolished

PHASE TWO MASTERPLAN: DEVELOPED AREA

AREA UNDER DEVELOPMENT: SITE LOCATION

AREA UNDER DEVELOPMENT: BUILDING LOCATION

Main Road

Secondary Road

River Boundary

SITE DEVELOPMENT PROPOSAL

SITE

ABANDONED AREAS

BEFORE INTERVENTION

UNUSED BUILDING

BLOCK TO THE SEAFRONT

AFTER INTERVENTION

ACCESS DIAGRAMS

CURRENTLY: WALL // BLOCK // NO ACCESS TO SITE

ACCESS BLOCK

STAGE 1: DEMOLITION OF WALL // OPENING OF THE SITE // IN//OUT

ACCESS OPENING TO SITE

STAGE 2: INTEGRATION OF THE SITE WITH SURROUNDING // ACCESS ROUTE

PEDESTRIAN ACCESS TO SITE VEHICLE ACCESS TO SITE

ROUTES DIAGRAMS PEDESTRIAN ROUTES

INFRASTRUCTURE AND SERVICES

VEHICULAR ACCESS

CURRENTLY

AFTER DEVELOPMENT

CONCEPT DESIGN DEVELOPMENT WILL COME IDEAS

OPEN VIEW

INITIAL CONCEPT DESIGN

PUBLIC PRIVATE

Oslo Opera House / SnÃ¸hetta Oslo, Norway

OPEN NEW HORIZON

FRAMED VIEW

GREEN SPACES

DIVISION OF FUNCTIONS

China Maritime Museum / Gmp von Gerkan, Marg and Partners Architects Shanghai, China

CONNECTION WITH THE SEA

DIRECT CONNECTION WITH IT

CONNECTION WITH THE SEA

OPENING TOWARD THE SEA

DESIGN STRATEGY

The university faculties will make a direct use of waste materials collected by the recycling centre, and it will carry art and design projects and researches over waste.

BUILDING USES EXHIBITIONS OVER THE GOOD USE OF WASTE

TEACHING FACILITIES

LECTURE THEATRE

EVENTS SPACE

WASTE CENTRE

INNOVATION SPACES

The two building proposed, will have interaction between each other. All the activities must be dedicated to educational purpose over the good use of waste and plastic recycling.

The recycling centre, beside having a independent program on good use of waste, will accommodate workshops and activities for the community of Eleusis to spread the knowledge over the problem. All the art exhibition exposed in the centre, will be made with waste materials by the student of the faculties of art. •

REUSE OF EXISTING BUILDING (HOUSING)

•

CREATE BUILDING FOR EXPERIMENTAL EDUCATION RELATION WITH WASTE

•

STARTING EXPERIMENTAL UNIVERSITY BASED ON RECYCLING AND THE GOOD USE OF WASTE

•

EXHIBITION CENTRE - SPACE OF INTEGRATION BETWEEN UNIVERSITY AND COMMUNITY

•

CREATION OF NEW PUBLIC SPACES

FACULTY BUILDING WORKSHOPS

WASTE COLLECTION

START-UP SPACES

EXPERIMENTAL WORKSHOPS

EXPERIMENTAL EDUCATION SPACES

1. RESIDENTIAL AREA: USE OF OLD + ADDITION OF NEW 2. MULTIFUNCTIONAL SPACE: PERFORMANCE, EXHIBITION, CONCERT 3. LIBRARIES: COUNCIL LIBRARY + UNIVERSITY LIBRARY + COMMON SOCIAL SPACE SHAPING INITIAL CONCEPT

DIRECTIONS TO THE SEA

DISGREGATION

FINAL DESIGN

4. PUBLIC SQUARE + CONNECTION WITH THE LEISURE PORT 5. UNIVERSITY BUILDINGS

PLANS

CURRENT SITUATION

CONCEPT DEVELOPMENT 1

CONCEPT DEVELOPMENT 2

CONCEPT DEVELOPMENT 3: FINAL

UNIVERSITY OF WASTE SITE PLAN

DIRECT USE OF OUTDOOR SPACE

1:1000 GROUND FLOOR PLAN

1. ENTRANCE 2. RECEPTION 3. START-UP SPACE 4. SCHOOL OFFICES 5. MAIN STAIR CASE 6. RELAX AREA 7. WORKSHOP SPACE 8. INTERNAL COURTYARD 9. ART SHOP 10. CAFETERIA

6 5

11. ENTRANCE/RECEPTION 12. TEMPORARY GALLERY 13. KITCHEN 14. SITTING AREA 15. WORKSHOP 16. EXHIBITION AREA 17. WASTE COLLECTION AREA

1. ENTRANCE 2. RECEPTION 3. START-UP SPACE 4. SCHOOL OFFICES 5. MAIN STAIR CASE 6. RELAX AREA 7. WORKSHOP SPACE 8. INTERNAL COURTYARD 9. ART SHOP 10. CAFETERIA

11. ENTRANCE/RECEPTION 12. TEMPORARY GALLERY 13. KITCHEN 14. SITTING AREA 15. WORKSHOP 16. EXHIBITION AREA 17. WASTE COLLECTION AREA

Rev

Description

Date

PUBLIC

PRIVATE

GREEN AREAS 17

CODE

SUITABILITY DESCRIPTION

STATUS

PURPOSE OF ISSUE

www.autodesk.com/revit PROJECT

Project Name TITLE

Unnamed CLIENT

Level 0 1 : 500

DRAWN BY

Author

Owner CHECKED BY

Checker

SCALE (@ A1)

1 : 500

DRAWING NUMBER

A102

DATE

05/03/18

PROJECT NUMBER

Project Number

REV

07/05/2018 11:22:50

SOCIAL INTERACTION BETWEEN THE COMMUNITY OF ELEUSIS AND THE UOW

1:1000 FIRST FLOOR PLAN 3

1. 2. 3. 4. 5. 6. 7.

2 4 1

CLASS DEDICATED FOR FACULTY 1 IT COMMON AREA CLASS DEDICATED FOR FACULTY 2 MAIN LECTURE THEATRE MEDIA HUB COMMON GREEN TERRACE CLASS DEDICATED FOR FACULTY 3

6 Rev

Description

Date

PUBLIC PRIVATE GREEN AREAS

CODE

SUITABILITY DESCRIPTION

STATUS

PURPOSE OF ISSUE

www.autodesk.com/revit PROJECT

Project Name TITLE

Unnamed CLIENT

DRAWN BY

Author

Owner CHECKED BY

Checker

SCALE (@ A1)

1 : 500

DRAWING NUMBER

A103

DATE

05/03/18

PROJECT NUMBER

Project Number

REV

07/05/2018 11:23:14

1. 2. 3. 4. 5. 6. 7.

BUILDING FEATURE FACULTY 1 FACULTY 2 FACULTY 3

1:1000 SECOND FLOOR PLAN

1. 2. 3. 4. 5.

5 2

FACULTY OFFICES + MEETING ROOM STUDIO FACULTY 1 STUDIO FACULTY 2 STUDIO FACULTY 3 STUDY ROOM

5 2

FACULTY OFFICES + MEETING ROOM STUDIO FACULTY 1 STUDIO FACULTY 2 STUDIO FACULTY 3 STUDY ROOM

4 Rev

Description

Date

PUBLIC PRIVATE GREEN AREAS

CODE

SUITABILITY DESCRIPTION

STATUS

PURPOSE OF ISSUE

www.autodesk.com/revit PROJECT

Project Name TITLE

Unnamed CLIENT

DRAWN BY

Author

Owner CHECKED BY

Checker

SCALE (@ A1)

1 : 500

DRAWING NUMBER

A104

DATE

05/03/18

PROJECT NUMBER

Project Number

REV

07/05/2018 11:23:44

1. 2. 3. 4. 5.

FACULTY 1 FACULTY 2 FACULTY 3

COURTYARD FINAL VIEW

INTERNAL FINAL VIEW

SECTION A’ - A’

A’

MATERIAL STUDY

DISCUSSION: THE PURPOSE AND ATTRACTION OF RECYCLING MATERIAL IN ARCHITECTURE

BIOEDIL: USE OF WASTE MATERIALS AS STRUCTURAL ELEMENTS

RECYCLED WOOD USED AS FACADE FINISHING

WASTE MATERIAL

R Flat-Pack Auditorium / Renzo Piano Designs Lâ&#x20AC;&#x2122;Aquila - Italy

COLLECTION OF WASTE MATERIAL

BIOEDIL, Fernando Llanos ,Cundinamarca, Colombia

WASTE MATERIALS AS INTEGRATED PART OF DESIGN

TRANSFORMATION

G O O D USE OF WASTE IN ARCHITECTURE

Marcel Duchamp, Rused of bicycle wheels

Bureau SLA and Overtreders W, Good Design for a Bad World

BENEFITS OF USING RECYCLING MATERIAL

HIGHLY VERSATILE: Wide range of applications from products and furniture to large-scale sculpture and construction UNIQUE: Good consistency between panels, but each one will have its own distinct pattern SUSTAINABLE: 100% recycled and 100% recyclable EASILY CARED FOR: The materials are easy to work with, clean and maintain

RECYCLED MATERIAL PROPERTIES: USE OF RECYCLED GLASS PANEL FOR PART OF THE GLASS FACADE OF THE BUILDING.

INTEGRATION OF COMPRESSED RECYCLED PLASTIC LOUVRES IN FACADE FOR SHADING SYSTEM

USE OF COMPRESSED RECYCLED PLASTIC AS EXTERIOR FACADE FINISHING OF LECTURE THEATER

•

HARD, DENSEAND RIGID

•

100% WATERPROOF, ROT-PROOF AND STRONG WEATHER RESISTANCE

•

SOLID AND CONSISTENT, ALLOWING YOU TO HAVE A DECORATIVE EDGE

USE OF RECYCLED CONCRETE PANEL AS CLADDING

•

COMPRESSED RECYCLED PLASTIC: USE IN ARCHITECTURE

MODERATE SCRATCH RESISTANCE, AND CAN BE REFINISHED

•

CAN BE HEATFORMED INTO SHAPES

•

MATT/PLANED FINISH, AND CAN BE POLISHED

•

CAN BE MACHINED, DRILLED, CUT (ROUTER, CNC), WATER CUT AND FIXED USING ADHESIVES AND SCREWS

DETAIL SECTION DEVELOPMENT

Rev

Desc

CODE

SUITABILIT

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www.autod PROJECT

Projec TITLE

Unn CLIENT

Level 0 1 : 500

DRAWN BY

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SCALE (@ A1)

1 : 500

DRAWING NUMBER

A102

D 01

D 02

ROOF CONSTRUCTION 1 - White Paint Finishing 2 - 300 mm Concrete Slab (Primary Structure) 3 - 100 mm Drainage Mat Root Proof Barrier 4 - Vapour Barrier 5 - 100 mm Rigid Thermal Insulation 6 - Waterproof Membrane 7 - 30 mm Moisture-Retention Mat 8 - 80-100 mm Light Substrate with Extensive Vegetation 9 - 2mm Sheet Aluminum Capping

D 01

FLOOR CONSTRUCTION 10 - 20 mm Smoothed Concrete 11 - Vapour Barrier 12 -100 mm Rigid Thermal Insulation 13 - Vapour Control Layer 14 - 300 mm Reinforced Concrete Slab on 600mm Pile Foundations 15 - 300 mm Gravel 16 - 150 mm Hardcore 17 - Earth

WALL CONSTRUCTION 18 - 25 mm Duble Glazed Facade 19 - AI - Fixed Win Mullion 20 - 50/150 mm Compressed Recycled Plastic Louvers

18 D 02

10 11 12 13 14 15 16 17

PAVEMENT CONSTRUCTION 21 - 100x600 mm Precast Concrete Slabs

SECTION 1:20 @A0 1:20 0

DETAIL 01 // SECTION 1:5 @A0

1 - White Paint Finishing 2 - 300 mm Concrete Slab (Primary Structure) 3 - 100 mm Drainage Mat Root Proof Barrier 4 - Vapour Barrier 5 - 100mm Rigid Thermal Insulation 1 - White Paint Finishing 6 - Waterproof Membrane 2 - 300 mm Concrete Slab (Primary Structure) 7 - 30 mm Moisture-Retention Mat 3 - 100 mm Drainage Mat Root Proof Barrier 8 - 80-100 mm Light Substrate with Extensive Vegetation 4 - Vapour Barrier 9 - 2mm Sheet Aluminum Capping 5 - 100mm Rigid Thermal Insulation 10 - 30 mm Precast Concrete Slab 6 - Waterproof Membrane 11 - 50x150 Aluminum Frame 7 - 30 mm Moisture-Retention Mat 12 - Steel Drive End Cap & Drive Bar 8 - 80-100 mm Light Substrate with Extensive Vegetation 13 - 400 mm Steel RHS housing Actuator 9 - 2mm Sheet Aluminum Capping 14 - 50x150 mm Compressed Recycling Plastic Kinetic Louvers 10 - 30 mm Precast Concrete Slab 15 - AI - Fixed Win Mullion 11 - 50x150 Aluminum Frame 16 - 25 mm Duble Glazed Facade 12 - Steel Drive End Cap & Drive Bar 13 - 400 mm Steel RHS housing Actuator 14 - 50x150 mm Compressed Recycling Plastic Kinetic Louvers 15 - AI - Fixed Win Mullion 16 - 25 mm Duble Glazed Facade

15 11 12 15 1

11 12

14 1:20 0

DETAIL 02 // SECTION 1:5 @A0 12

1 - 34mm Polished Screed 2 - Vapour Barrier 3 -100 mm Rigid Thermal Insulation 4 - Vapour Control Layer 5 - 300 mm Reinforced Concrete Slab on 600mm Pile Foundations 1 - White Paint Finishing 6 - 300 mm Gravel 2 - 300 mm Concrete Slab (Primary Structure) 7 - 150 mm Hardcore 3 - 100 mm 8 Drainage - Earth Mat Root Proof Barrier 4 - Vapour Barrier 9 - 100mm Steel PFC 5 - 100mm Rigid Thermal InsulationFrame 10 - 50x150 Aluminum 6 - Waterproof Membrane 11 - 50/150 mm Compressed Recycled Plastic Louvers 7 - 30 mm Moisture-Retention Mathousing Actuator 12 - 400mm Steel RHS 8 - 80-100 mm Light Substrate Vegetation 13 - Steel Drive Endwith Cap Extensive & Drive Bar 9 - 2mm Sheet Capping 14 -Aluminum 25 mm Duble Glazed Facade 10 - 30 mm 15 Precast Concrete - AI - Fixed Win Slab Mullion 11 - 50x150 16 Aluminum Frame - 100x600 mm Precast Concrete Slabs 12 - Steel Drive End Cap & Drive Bar 13 - 400 mm Steel RHS housing Actuator 14 - 50x150 mm Compressed Recycling Plastic Kinetic Louvers 15 - AI - Fixed Win Mullion 16 - 25 mm Duble Glazed Facade

10 14

15 1

8 16 9

1:20 0

15 11 12

1:20 0

2 3

The decision of using a concrete structure was mainly made for the primary sources available on site. The city of Eleusis accomodates active and inactive croncrete industries. Choosing a material on site will help the economy of the city, create a circular economy strategy and avoid the exspenses for material transportation.

STRUCTURAL STUDIES

30 CM DIAMETER CONCRETE STRUCTURAL COLUM // PRIMARY STRUCTURE

WELDED I-SHAPE CONCRETE BEAM // PRIMARY STRUCTURE

SHARING WALLS // STAIRCASE BLOCK

300 mm CONCRETE SALB // SECONDARY STRUCTURE *The slabs will be located at each floor but they are not shown to provide a clearly understanding of the primary structure

ENVIRONMENTAL STRATEGIES

USE OF DAYLIGHT + SOLAR PASSIVE HEATING + OXHIGEN RECYCLING

USE OF GREEN ROOF + DIRECT CONNECTION WITH THE SEA + NATURAL INSULATION AND COOLING

ENVIRONMENTAL RESOPONSE:

PV PANELS

SUMMER SULSTICE TERMAL MASSS WITH GREEN ROOF

SOLAR POWER TO BOILER

KINETIC LOUVRES SYSTEM

WINTER SULSTICE USE OF DIRECT DAYLIGHT

KINETIC LOUVRES SYSTEM HARVESTING SYSTEM

PV PANELS

STACK VENTILATION HARVESTING SYSTEM

HOT WATER TO UNDERFLOOR HEATING

BOILER

1 5 2

USE OF DAYLIGHT The use of daylight is one of the primary light source in building for health, productivity and sustainability. It maximize visual comfort or to reduce energy use.

MECHANICALLY OPERATED ROOFLIGHTS During the Summer, the rooflights are temporarily shut to create a warm layer of air at roof level. Then they open to allow this layer of warm air to escape; drawing in cooler air at ground level. This process amplifies the effect of Stack Ventilation.

GREEN ROOF Growing medium material contributes to a reduction in the energy consumption of buildings, keeping them warmer in winter and cooler in summer.

MECHANICALLY OPERATE KINETIC LOUVRES The facade consists of two layers; a glazed curtain wall and a system of kinetic louvres. These louvres provide heating and cooling as well as shading system to moderate the internal level of daylight penetration. During the Winter, the louvres are shut to create a layer of warm air around the internal spaces. In the Summer, they are opened to permit Stack Ventilation.

PHOTOVOLTAIC PANELS The panels generate renewable energy from the Sun. This energy is transferred to the underground plant room to partially power the boiler for the underfloor heating system and the kinetic louvres.

WORK EXPERIENCE

ITALY

UNITED KINGDOM

PORTUGAL

I am giving contribution to this project as part of the landscape design team.

PROAP Lda

SENHORA DA ROCHA | P O R T I M A O

PROAP Lda

project of Senhora da Rocha is based onSenhora theLandscape realization Portugal design: PROAP LdadadaRocha, Senhora Rocha, Portugal Holiday Resort in the area of Alentejo, south Portugal. The site has a very articulated conformation, full of different Senhora da Rocha, Portugal CONCEPT DESIGN DEVELOPMENT CONCEPT DESIGN DEVELOPMENT level and hills. DESIGN DEVELOPMENT e are two main team working for thisCONCEPT project:The Architect aim of this project it to requalify the area and reshape and Landscape team. theproject territory of thedasite. The of Senhora Rocha is based on the of a Holiday Resort in the area Alentegiving contribution to this project as part The of realization the landThe developed theofon main landscape architect projectconcept of Senhora da Rocha isby based the realization jo, south Portugal. There are two main team working of a Holiday Resort in the area of Alentejo, south Portugal. e design team. Joao Nunes, is take advantages of the different level already for this project: Architect team and Landscape team. LEGENDA existing on the site and reshape the ground in a way to LEGENDA There are two main team working for this project: Architect LANDSCAPE DESIGN: scape design: MAIN ENTRANCE new topographic elements that are going to create 6 teamcreate and01Landscape team. site has a veryarea) articulated conformation, full of (kiss&drive 01The MAIN ENTRANCE site has a very articulated conformation, full of different some division between theas public/semi-public spaces and I am giving contribution to this project part of the land(kiss&drive area) different level and hills. 1 02 SWIMMINGPOOL scape design team. and hills. theaim residential areas. The of this project it to re-qualify the area and realization 02 SWIMMINGPOOL reshape the territory of the site. elements will be used as division aim of this project it to requalify the area andThis reshape new topographic 03 design: Portugal. PEDESTRIAN AND ROUTE Landscape The concept developed byCYCLING the main landscape arerritory of the site. 03 PEDESTRIAN between theCYCLING carriageable/pedestrian/cycling AND ROUTE The site has a very articulated conformation, fulldifof different paths and the chitect Joao Nunes, is take advantages of the concept developed by the main landscape architect 04 CAR ROUTEexistingto ferent already onprovide the site and reshape level andlevel hills. housing elements privacy. Architect 2 04 CAR ROUTE the ground in a way to create new topographic Thelevel aimaddition, ofalready this project to requalify the area Nunes, is take advantages of the different In theitrequalification of and theel-reshape area includes the ements that are going to create some division bethe territory of the site. 05 TOPOGRAHY ELEMENTS ng landon the site and reshape the ground in a05tween way to public/semi-public plantation of new trees andand bushes, to enforce the boundary the developed the resihe ELEMENTSby the spaces The TOPOGRAHY concept main landscape architect e new topographic elements that are going to create dential areas. the perimeter of the site provide more enclosure Joaoof Nunes, is take advantages theto different levelaalready 06 PERIMETRAL ROUTE FORof MANUTENTION division between the public/semi-public existing spaces and 06 PERIMETRAL ROUTE FOR MANUTENTION on the site and reshape the ground in a way to environment. create new elements thatTO are going to create 07 topographic esidential areas. PEDESTRIAN ROUTE LEADING THE HOUSING SIDE 13 PROGRAM USED: AutoCAD, Photoshop. some division between the public/semi-public spaces and 07 PEDESTRIAN ROUTE LEADING TO THE HOUSING SIDE 13 new topographic elements will be used as division of different the residential areas. 08 AREA DEDICATED TO CHILDREN ACTIVITIES een the carriageable/pedestrian/cycling paths and the This new topographic will be used as division 08 AREA DEDICATED TO elements DIAGRAM 2 DIAGRAM 1 CHILDREN ACTIVITIES ng elements to provide privacy. between the carriageable/pedestrian/cycling and the 09 AREA DEDICATED TO GREEN DIDACTIVEpaths ACTIVITIES reshape housing elements provide privacy. along Visual DIDACTIVE protection the 09 AREA DEDICATEDtoTO GREEN ACTIVITIES dition, the2requalification of the area includes the boundaries of the site In addition, the requalification of the area includes the 10 GREEN ROOF DEDICATED TO SPORT ACTIVITIES ation of new trees and bushes, to enforce the boundary chitect plantation of new trees and bushes, to enforce the boundary 10 GREEN ROOF DEDICATED TO SPORT ACTIVITIES e perimeter of the site to provide a more enclosure of the perimeter of the site provide a more enclosure TreestoBUFFER planted to shadowed evel already 11 PERIMETRAL TREE onment. the central areas and environment. 11 PERIMETRAL TREE BUFFER DIAGRAM 3 way to

09 09

9 8

8 11

11 +44.00 +44.00

+44.00 +44.00

11 +44.00 +44.00

+44.00 +44.00

+44.00 +44.00 +44.00 +44.00

+44.00 +44.00

+44.00 +44.00 +44.00 +44.00

+44.00 +44.00

+44.00 +44.00 +43.20 +43.20

+43.20 +43.20

+43.30 +43.30 +43.20 +43.20 +43.00 +43.30 +43.30 +43.00

+43.20 +43.20 +43.00 +43.00 +42.20 +42.20

+43.00 +43.00

+42.20 +42.20

+41.70 +41.70

+41.90 +41.90

+41.00 +41.00

Topographic elements

Trees planted to shadowed s the the central areas and e boundary pedestrian paths

osure

DIAGRAM 13 1

+40.70 +40.70

NEW BEACH ACESS

DIAGRAMVisual 2 protection along the Trees planted to shadowed central areas and SITEthe LIMIT pedestrian paths

SITE LIMIT

DIAGRAM 3

GreenSenhora Cover Grid

rt of the land-

Topographic elements

Maintenance circulation

n, full of different

a and reshape

Pedestrian/Cycling circulation

ape architect rent level already in a way to oing to create ic spaces and

DIAGRAM 3

as division g paths and the

cludes the rce the boundary e enclosure

Carriageable circulation

Pedestrian housing circulation Green Cover Grid

Maintenance circulation +38.20 +38.20

LEGENDA Pedestrian housing circulation

DIAGRAM 2

DIAGRAM 4

01 MAIN ENTRANCE

(kiss&drive area)

02 SWIMMINGPOOL

(kiss&drive area)

Entrance to the Resort

02 SWIMMINGPOOL +37.70 +37.70

+37.70 +37.70

+38.20 +38.20

Green pedestrian circulation

Kiss & Drive +37.20 +37.20

Green pedestrian circulation

LEGENDA

Kiss & Drive01 MAIN ENTRANCE

Pedestrian housing circulation

+38.50 +38.50

Pedestrian/Cycling circulation

CONCEPT DESIGN DEVELOPMENT

+38.70 +38.70

+37.70 +37.70

Pedestrian/Cycling circulation

+37.70 +37.70 +37.20 +37.20

+37.20 +37.20

04 CAR ROUTE

+37.20 +37.20

Entrance to the Resort 01 MAIN ENTRANCE

+37.20 +37.20 +37.20 +37.20

+37.20 +37.20

6 ROUTE 03 PEDESTRIAN AND CYCLING 06 +37.70 +37.70

05 TOPOGRAHY ELEMENTS

+37.20 +37.20

(kiss&drive area)

06 PERIMETRAL MANUTENTION10 09 12ROUTE FOR 12

02 SWIMMINGPOOL

+44.00 +44.00

03 PEDESTRIAN AND CYCLING ROUTE

Kiss & Drive

04 CAR ROUTE

03 PEDESTRIAN AND CYCLING ROUTE

07 PEDESTRIAN ROUTE LEADING TO THE HOUSING SIDE

04 CAR ROUTE

08 AREA DEDICATED TO CHILDREN ACTIVITIES 0m 5m 25m 11 11

25m

50m

+43.20 +43.20

+44.00 +44.00

09 AREA DEDICATED TO GREEN DIDACTIVE ACTIVITIES

05 TOPOGRAHY ELEMENTS

+43.00 +44.00 +43.00 +44.00

+42.20 +42.20 +44.00 +44.00

10 GREEN ROOF DEDICATED TO SPORT ACTIVITIES

06 PERIMETRAL ROUTE FOR MANUTENTION

+44.00 +44.00

07 PEDESTRIAN ROUTE LEADING TO THE HOUSING SIDE 08 AREA DEDICATED TO CHILDREN ACTIVITIES

13 11 PERIMETRAL TREE BUFFER

+41.90 +41.90 +41.90 +41.90

12 CAR PARK ENTRANCE

+43.30 +43.30

+43.20 +43.20 +43.00 +43.00 +41.00 +41.00

05 TOPOGRAHY ELEMENTS

+43.20 +43.20

Green pedestrian circulation

Entrance to the Resort

+37.90 +37.90

Maintenance circulation

DIAGRAM 4

oject: Architect

+37.70 +37.70

+38.70 +38.70

+37.90 +37.90

+37.70 +37.70

+38.50 +38.50

+38.70 +38.70

LEGENDA Green pedestrian circulation

+37.70 +37.70

Carriageable circulation

Entrance to the Resort

on the realization south Portugal.

+38.20 +38.20

+38.50 +38.50

+39.50 +39.50

+39.40 +39.40

Pedestrian housing circulation

CONCEPT DESIGN DEVELOPMENT Carriageable circulation +38.50 +38.50

Pedestrian/Cycling circulation

+38.20 +38.20

DIAGRAM 4

Kiss & Drive

DIAGRAM 2

DEVELOPMENT +40.20 +40.20

+39.40 +39.40

da Rocha, Portugal

+39.50 +39.50

PROAP Lda Green Cover Grid

PROAP Lda

Senhora da Rocha, Portugal Green Cover Grid

+38.80 +38.80

DIAGRAM 4 Topographic elements

DIAGRAM 3

+40.20 +40.20

Carriageable circulation CONCEPT DESIGN

+38.00 +38.00

+38.80 +38.80

DIAGRAM 2

Topographic elements

+39.70 +39.70

+40.40 +40.40

+39.50 +39.50

boundaries of the site

+39.75 +39.75

+40.40 +40.40

+39.50 +39.50

13 NEW BEACH ACESS

Senhora da7 Rocha, Portugal 7

+38.00 +38.00

Maintenance circulation

pedestrian paths

12 CAR PARK ENTRANCE

+39.75 +39.75

+40.00 +40.00

+40.70 +40.70

o create ces and RAM 1 3 vision Visual protection along the s and the boundaries of the site

DIAGRAM 4 +40.00 +40.00

+40.70 +40.70

PROAP Lda

+42.15 +42.15

+41.90 +41.90

+41.00 +41.00

12 CAR PARK ENTRANCE

+42.15 +42.15

+41.90 +41.90

+41.70 +41.70

09 AREA DEDICATED TO GREEN DIDACTIVE ACTIVITIES

13 NEW BEACH ACESS +43.00 +43.00

+40.70 +40.70

+42.20 +42.20

PROAP Ltd. - Lisbon, Portugal SEPTEMBER 2017 |AUGUST 2018

ARCHITECTURE ASSISTANT PART I PROAP Lda Lda PROAP

Avenida Republica 40, Portugal Avenida Republica 40, Portugal CONCEPT DEVELOPMENT CONCEPT DESIGNDESIGN DEVELOPMENT

KEY PLAN

EXISTING BUILDING FACADE

The project of Avenida Republica 40 is based on the realization of private courtyard for a complex of new luxury apartThe project of Avenida Republica 40 is based on the realizament in Lisbon. team and Landscape team. There are two maincontribution team working forproject this project: I am giving to this as partArchitect of the landscape team and Landscape team. design team.

tion of private courtyard for a complex of new luxury apartment in There Lisbon. are two main team working for this project: Architect

0,5m

2,5m

I am giving contribution to this project as part of the landscape design team. The project is at a very first working stage and this drawings are a design proposal for the first meeting with the client.

The project is at a very first working stage and this drawings are a design proposal for the first meeting with the client.

GROUND FLOOR PLAN COURTYARD: T1D

AVENIDA REPUBLICA 40 | LISBON The project of Avenida Republica 40, was based on the realization of private courtyard for a complex of new luxury apartment in Lisbon. There design team was composed b the Architect team and the Landscape team. The project was a very first working stage and this drawings are a design proposal for the first meeting with the client. PROGRAM USED: AutoCAD, Photoshop.

LEISURE

PARK

BANDIRMA

The project suggests a strong opportunity to provide a new and alternative open public space within the dense fabric of the city through the future post-industrial transformation of the region of Bandirma, Turkey. The illustrated work sample was part of final drawings handed in for the project competition phase, which the company won. PROGRAM USED: Autodesk Revit, Rhinocheros 3D, Photoshop.

N 0m

10m

50m

100m

INTERSTITIAL

GEOMETRIC SYSTEM

DOOR: connection between interstitial and geometric systems

POSSIBLE AREAS TO LOCATE THE PROTOTYPES

PROTOTYPE 1

PROTOTYPE 2

PALATINO HILLS | ROME This project cover the big area of the ruins of the Palatino Hill in Rome, Italy.

PROTOTYPE 3

The aim of this project is to re-qualify the all area of the Palatino Hill to improve the quality of the visit inside the ruins of the Roman Empire. The re-qualification of the visit will be done by introducing new visit routes, new urban furniture, new paving. This will improve the quality of the time that the tourist will spend in the archaeological site. The project is based on the creation of different PROTOTYPES located in specific areas. This specific areas where chosen after a deep study of geometrical system in the site and how spaces, that at the moment are not highlighted, can be introduced during the site visit.

PROTOTYPE 4

PROGRAM USED: AutoCAD, Photoshop.

SPORT AND LEISURE CENTRE | W I N C H E S T E R Working on the design of the new Winchester Sport and Leisure Park. This new building is to be set within its sports parkland and will include an 50m pool, teaching pool, hydrotherapy centre, 8 court sport hall, squash courts and fitness suite. My main task was to create views for the client of different area of the building. The project is currently at RIBA STAGE 5. PROGRAM USED: Autodesk Revit, Lumion 8.3, Photoshop.

CAFETERIA / BAR

MAIN SWIMMING-POOL

RECEPTION VIEW 1

RECEPTION VIEW 2

GYM

BASKETBALL COURT

ENTRANCE TO MAIN POOL

DANCE STUDIO 1

HNW ARCHITECTS - Chicester, UK JULY 2019 | DECEMBER 2019

ARCHITECTURE ASSISTANT PART II

PROPOSED EAST ELEVATION: SOLUTION 1

PROPOSED EAST ELEVATION: SOLUTION 2

SITE ANALYSIS PROPOSED SOUTH ELEVATION: SOLUTION 1

PROPOSED SOUTH ELEVATION: SOLUTION 2

CRICKET LANE AND GOLF COURT | SEAFORD Working on drawings as Block Plan, Site Location Plan, Plans, Elevations and Sections for Planning Application purposes. The site in consideration is a small part of a bigger pitch project. HNW is developing different part of the Seaford College in Chicester, but my developed work was dedicated mainly on the realisation of a new Cricket Land and Golf Court behoind the existing maim Sports Hall. The project is currently at RIBA STAGE 0. PROGRAM USED: Autodesk Revit,SketchUp, Autocad, Photoshop.

ARCHITETTO DEL SORBO Srl. JUNE 2016 | CURRENT

HOUSE RENOVATION: CHANGE USE OF SPACES Tilelt, Belgium

ARCHITECTURE ASSISTANT PART I/II

PROGRAM USED: Autodesk Revit, Autocad, Photoshop, Lumion 8.3 16.81

Rev

3.49

3.37

Amendments

chkd

Date

Amendments

Preliminary Drawings

ADS ADS

08/11/19

Amendments

Preliminary Drawings

ADS ADS

12/12/19

Amendments

Preliminary Drawings

ADS ADS

24/02/20

3.95 5.65

3.19

3.39 8.68

Note: This drawing is to be read inconjunction with all relavant Architectural drawings, and information.

Note: This drawing is subject to further coordination. This drawings have been produced for the only purpose of submission of Planning Application. Amendments may be necessary following receipt and coordination of Consultants information. Note: Design Intent This drawing illustrates

design intent only and is subject to Manufacturer's and or Specialist Subcontractor's Detailed Design & Specification.

EXISTING

Rev

1.07 4.56

5.39 3.44

Amendments

chkd

Date

Amendments

Preliminary Drawings

ADS ADS

08/11/19

Amendments

Preliminary Drawings

ADS ADS

12/12/19

Amendments

Preliminary Drawings

ADS ADS

24/02/20

3.04 1.50

Project

DIRK SOENENS Nieuwstraat 2, 8700 Tielt, Belgium

16.79

Drawn By

Checked By ADS Project. No. Date Created

ADS

D-01

24.02.2020

Scale

A3 - 1:100 Drawing Title

EXISTING RILIEVO

DEMOLITION/CONSTRUCTION

Drawing Status

0m 500mm

2.5m

Revision

PRELIMINARY

Drawing Number

Scale 1:100

1902-ADS-ADS-DR-A-001-01

/Users/alicedelsorbo/Desktop/LAVORI GENERALI/DIRK/REV D/DIRK_PLANS_E:P_QUOTES_1-100@A3 2.dwg, Mon Feb 24 20:09:24 2020, NoneCVHIDE.PC3

Note: This drawing is to be read inconjunction with all relavant Architectural drawings, and information.

DEMOLITIONS ABBATTIMENTI CONSTRUCTIONS RICOSTRUZIONI

N Project

Amendments By chkd DIRK SOENENS Preliminary Drawings Amendments ADS ADS Nieuwstraat 2, 8700 Tielt, Belgium

Rev A

Date 08/11/19

Amendments

ADS ADS

12/12/19

Preliminary Drawings Amendments ADS ADS Checked By ADS Project. No. Date Created

24/02/20

Preliminary Drawings

Drawn By

ADS

D-01

24.02.2020

Scale

A3 - 1:100

DEMOLITIONS CONSTRUCTIONS ABBATTIMENTI E RICOSTRUZIONI

Drawing Title

DEMOLITION/CONSTRUCTION

Drawing Status

0m 500mm

Scale 1:100

2.5m

Revision

PRELIMINARY

Drawing Number

1902-ADS-ADS-DR-A-001-01

/Users/alicedelsorbo/Desktop/LAVORI GENERALI/DIRK/REV D/DIRK_PLANS_E:P_QUOTES_1-100@A3 2.dwg, Mon Feb 24 20:08:18 2020, NoneCVHIDE.PC3

Note: This drawing is to be read inconjunction with all relavant Architectural drawings, and information.

PROPOSAL;

HOUSEEXTENSION:ADDITIONOFANALTERNATIVEKITCHEN

COCOâ&#x20AC;&#x2122;S TAKE AWAY: RESTAURANT REFURBISHMENT

PROGRAM USED: Autodesk Revit, Autocad, Photoshop

Santo Stefano, Argentario, Italy

BA (Hons) 3: THE FUTURE OF SOCIAL HOUSING

THE FUTURE OF SOCIAL HOUSING WHINCESTER | UK I N T R O D U C T I O N A university unit related to the creation of new houses. New homes will create a town centre community, not only providing homes that they need in the area, but also boosting the local economy for services provider, restaurants and a creative business. A project related to an area that has always proposed a scheme of regeneration and innovation. A strong community made by people that have a main role in the city of Winchester

CONCEPT DESIGN DEVELOPMENT

SOCIAL HOUSING Social housing is lower-cost rented housing provided by landlords registered with the social housing regulator, known as a social landlord. Social landlords could be a council or a housing association. Social housing is likely to be cheaper and can offer greater security from eviction than private rented housing. It may be a good option if you need an accessible or adapted property.

This diagrams represent the development of the area around the site location. There are going to be effective changes on pedestrian and car route. This is to make the site reachable for everyone.

3 1. THIS DIAGRAM SHOWS THE DIVISION OF THE SITE BETWEEN PUBLIC AREA AND THE PRIVATE AREA 2. THIS DIAGRAM SHOWS THE DEVELOP OF TWO SQUARES. ONE SMALL MORE IN-CLOSURE AND A BIGGER ONE MORE CONNECTED TO THE COMMERCIAL AREA 3. THIS DIAGRAM SHOWS THE CONNECTIONE BETWEEN THE TWO AREAS.

PEDESTRIAN AREA PEDESTRIAN CIRCULATION TRAFFIC ROUTES EXISTING

PROPOSED

VISUALS AND CONCEPT DEVELOPMENT OF THE NEW SITE LOCATION AND ITS SURROUNDINGS

USE OF TWO MAIN AREAS: PUBLIC/PRIVATE

NEW PUBLIC SPACE: SQUARE

PUBLIC SQUARE: big and open to everyone PRIVATE SQUARE: small and more enclose

SOUTH

ACTIVITIES AREA

PUBLIC AREA

DEVELOPING A FORM TRYING TO KEEP THE PUBLIC AND PRIVATE CONNECTED, BUT DISCONNECTED AT THE SAME TIME

NOISE

CONNECTION WITH COMMERCIAL AREA

NEW PRIVATE SPACE: HELMS HOUSE

TWO DIFFERENT MAIN FUNCTIONS CONNECTED THROUGH ONE SITE

NORTH

RESIDENTIAL AREA

PRIVATEAAREA REA PRIVATE

HAVE OPENING FOR CIRCULATION

QUIET

WRAP THE TWO SQUARES

THE FUTURE OF SOCIAL HOUSING

BUILDING USE DIAGRAMS

GROUND FLOOR PLAN: Winchester, United Kingdom

BUILDING USES

1. WORKSHOP ENTRANCE 2. RESIDENTIAL ENTRANCE 1 3. COMMON LAUNDRY 4. STORAGE (CONNECTED TO SHOP) 5. SHOP 1 6. PUBLIC TOILETS 7. SHOP 2 8. SHOP 3 9. SHOP 4 10. BIKE STORAGE 11. STORAGE (PRIVATE FOR RESIDENTS) 12. PLANT ROOM 13. RESIDENTIAL ENTRANCE 2 14. LIBRARY 15. LIBRARY OFFICE 16. LIBRARY TOILETS 17. RESIDENTIAL ENTRANCE 3

3 13 1

2 4 1

11 7

PUBLIC PRIVATE

GROUND FLOOR PLAN

RESIDENTIAL COURTYARD PUBLIC SPACE CONNECTED TO COMMERCIAL AREA

CONNECTION TO PUBLIC OUTDOOR SPACES BUILDING WITH A DIRECT USE OF THE PRIVATE COURTYARD

THE FUTURE OF SOCIAL HOUSING

BUILDING USE DIAGRAMS

FIRST FLOOR PLAN: Winchester, United Kingdom

BUILDING USES 1. WORKSHOP 2. DWELLING 1 3. DWELLING 2 4. DWELLING 3 5. DWELLING 4 6. DWELLING 5 7. DWELLING 6 8. DWELLING 7 9. DWELLING 8 10. DWELLING 9 11. DWELLING 10 12. DWELLING 11 13. COMMON KITCHEN

WORKING SPACE

FIRST FLOOR PLAN

RESIDENTIAL AREA RESIDENTIAL COURTYARD GREEN TERRACE

CORRIDOR: having benches around the corridor help to socialise

SITE PLAN N

3D VIEW: SITE CONTEXT

SECTION B’ - B’

ENVIRONMENTAL RESPONSE 1. VENTILATION In the UK the prevailing wind direction is from the SOUTH-WEST. The ventilation in a building is necessary to remove saint air and replace it with fresh air. It helps to create air movement which improves the comfort of the occupants. -1.1 CROSS VENTILATION Cross ventilation is a wind driven effect. It provides stack ventilation, but is less effective on hot days. It is generated by a regular distribution of opening. -1.2 MECHANICAL VENTILATION Mechanical ventilation is needed as well in my building due to its location next to a busy road; in addition it helps the dwellings to change the internal air in the winter without opening the windows, so the heat in the room can be kept. -1.3 STRONG PREVAILING WIND Trees around the building work as wind-breaker, and as well help to improve the air condition around the area. Trees bring oxygen, a very important element for old people. 2. DAY LIGHT Using daylighting in a building is a way of reducing energy and maximize visual comfort. It provides internal lighting through different openings . The internal light can be different during different seasons of the year due to the changes of the sun angles. -2.1 WINTER SUN ANGLE= 15° -2.2 SUMMER SUN ANGLE= 62° -2.3 NATURAL SHADING On the south facade of my building there are timber louvres that provide a natural shading for the building, and avoid an annoying amount of daylight coming inside the dwellings. 3. RAIN WATER HARVESTING Rain water harvesting is the accumulation and deposition of rainwater for reuse on site. The amount of rainwater that a building can collect, it changes between location and overall amount of rainfall during the year. Using rainwater for grey water, washing clothes and watering garden reduces by 50% the consume of normal water. -3.1 GUTTER SYSTEM The rainwater is collected on the roof through a hidden gutter and transported to a underground water tank. -3.2 WATER TANK It is an underground tank that keeps the water collected from the roof, and it is connected to a pump and a pressure tank that will bring the water into the building to be reused.

AA UP

3.1

1.2

2.2 W W W W W WWWW UP

2.3

1.1

2.1

1.3

B UP

KEY PLAN

3.2

SECTION A’ - A’

ENVIRONMENTAL RESPOND SECTION To understand how the building, located with a specific orientation, will respond to the surrounding environment.

PERSONAL INTEREST

TRAVEL

ARCHITECTURE

PHOTOGRAPHY