Ioana Leordean Portfolio

LEORDEAN IOANA

Architecture and Design

Objectives One of the main challenges nowadays is to incorporate architectural design ideas into a new environmentally aware, responsive and efficient architecture, this is something that I would very much like to contribute to. I am seeking a work environment where I can positively apply myself and where I would have the opportunity to improve my already acquired academic and professional skills. I think that motivation and determination to evolve have always made me be focused and hardworking towards achieving my personal goals, learning new skills and aiming to enhance my competences.

Profile

Experience

Date of birth: 17.07.1989 Nationality: Romanian Address: Viale Monza, nr. 8, Milano, Italy. 13 Septembrie Street, nr. 119, Bucharest, Romania. Telephone: +39 3805981860, +40 724409152 E-mail: leordeanioana@gmail.com

Architect at MFS Matteo Fantoni Studio

READING

2D DRAWING AND 3D MODELING

SPEAKING

RENDERING AND VISUALISATION ADOBE SUITE CREATIVE CLOUD

V-Ray for Rhinoceros

2D 3D 2D

Workshops

3D

Faculty of Architecture of the University of Porto, Porto, Portugal

3D,2D

Photoshop InDesign Illustrator Word PowerPoint Excel 3D modeling Architectural Design Project development Research and Analysis Team work Rendering and Visualisation Physical modeling Graphic design Learning new skills

December 2014 - April 2015

The internship activity was being followed by the architect Roy Nash. The work developed in the office had different characters, starting from architectural drawings of interior elevations for an interior design project for London, editing marketing materials of P.U.R.A. studio existing projects, participating in the design process for a competition project for a Rehabilitation Center in Milan to graphical presentation for a new lamp design related to Milan Design Week. Bucharest, Romania

Rhinoceros 5.0 Rhinoceros 5.0 AutoCAD 2015 Grasshopper Google Sketchup 8.0 ArchiCAD 17

Personal skills

WRITING

Freelance work

BIM MODELLING

MICROSOFT

The personal activity in the office is related to 3d modelling, rendering and graphical representation for various projects starting from big scale to small scale works (also some interiors), project presentations, volumetric studies, natural illumination studies, architectural drawing for planning applications, coordination of definitive drawings with existing building survey. Milan, Italy

Romanian (native) English Italian

IT skills

May 2016 - onwards

P-U-R-A Platform for Urban Research and Architecture

Competences and Skills Languages

Milan, Italy

Porto Academy’13 Workshop

August 2012 - April 2013

July 2013

The weeklong series of master classes and workshops were the first in a series of international architecture symposia with some of the most exciting architects from Europe, Latin America and Japan. The workshop project was concluded under the guidance of architect and professor João Pedro Serôdio.

Parametric Design and Digital Fabrication Workshop “Ion Mincu” University of Architecture and Urbanism Bucharest

February - July 2013

Throughout the workshop the focus was the development of an architectural project using parametric design, formal approach, digital fabrication and how these can be implemented in the current architectural practice. The final project was exhibited at Bucharest Architecture Annual 2013.

“Unknown – Housing as open problem” Workshop

“Ion Mincu” University of Architecture and Urbanism Bucharest

February - March 2012

The main focus of the workshop was to develop an alternative, even utopic, design as a response to housing as a problem for various contexts and future population rise.

Education Politecnico di Milano, School of Architecture and Society Master in Architecture (M.Arch.)

Master thesis: “BIOMIMICRY IN ARCHITECTURE - MITIGATION AND ADAPTATION TO CLIMATE CHANGE”

“Ion Mincu” University of Urbanism and Architecture, Bucharest Bachelor in Architecture (B.Arch.)

2013-2016 2009-2013

Projects and personal work MIX USE BUILDING MILAN THE STUDENT HOTEL ROME HOTEL GRAND CARLO PRAGUE THE STUDENT HOTEL BOLOGNA MASTER THESIS: BIOMIMICRY IN ARCHITECTURE - MITIGATION AND ADAPTATION TO CLIMATE CHANGE CENTER FOR CONTEMPORARY ART IN BERLIN HUB FOR URBAN SPORTS PARAMETRIC DESIGN AND DIGITAL FABRICATION WORKSHOP - PARAMETRIC TOWER HOTEL POIANA BRASOV TECHNICAL PROJECT HIGH COMFORT COLLECTIVE DWELLINGS CULTURAL CENTER

MIX USE BUILDING MILAN MATTEO FANTONI STUDIO Milan, Italy 2017 Concept Design, Planning Application, Business Plan Mix Use Building is the new place to be in Milan. It’s a unique place that offers a never seen before urban life experience. It’s the innovative transformation of a former office building into a new, young, vibrant place, where hospitality meets mindfulness, a place suitable for a variety of events, from cultural to social and culinary experiences, a place where the idea of the work place and doing business has been reinvented.

The new mix use building is an accessible, welcoming place for various users, open to a multitude of activities and housing a multifunctional space. The adaptive reuse of the building is efficient through environmental and economic sustainability. The building in Ceresio 7 street is open to all as an alternative experience of rethinking daily urban life.

GROUND FLOOR PLAN

L.7. SUMMER GARDEN RESTAURANT & POOL

L.6. TERRACE SUITES HOTEL

L.5. JUNIOR SUITES HOTEL copyright Matteo Fantoni Studio

L.4. PLUS ROOMS HOTEL

L.3. STANDARD ROOMS HOTEL

L.2. CO-WORKING COLAB L.1. OPEN PLAN SPACE MIX USE : CO-WORKING COLAB EVENTS L.0. LOBBY RECEPTION BAR CO-WORKING L.-1. GYM

STANDARD ROOM INTERNAL VIEWS

copyright Matteo Fantoni Studio

THE STUDENT HOTEL ROME

MATTEO FANTONI STUDIO The Student Hotel, Rome, Italy, 2016/2017 Concept Development, Planning Application New Building Built Area 18.740 sqm 460 Rooms 750 Beds

Existing Building Refurbished Area 3.524 sqm 42 Rooms 249 Beds

The project is located within the Ex Scalo San Lorenzo site, characterized by the presence of the industrial archeology of the railway and the infrastructure of the freeway. An existing building at the entrance of the site is maintained but with a new function, while the large central part of the site will be the location for a new building as substitution of a previous one.The new architecture consist of 7 floors above ground and an underground level and is developed from an architectural point of view by two bodies that come together in an angle towards the back of the site. The footprint of the volume is generated by an offset of the site boundaries. Thus accessibility to the building is assured on all sides of the building. The shape of the building is characterized by the horizontal lines of the slabs, emphasized also by the set back of the vertical structure and the façade. The void defined by the new building and the existing one will be a new urban plaza and the center point of the project, the heart and soul of the masterplan and a new green space that acts as welcoming area.Â

3 50

+0.29 (-031 PROG.)

50

+0.29 (-031 PROG.)

-260 (-320)

-260 (-320)

PLANS AND SECTIONS

VOLUMETRIC STUDIES

SECTION A-A’

SECTION B-B’

SEZIONE A-A'

SEZIONE B-B'

SEZIONE B-B' +2640 (+2580)

+2640 (+2580)

+2460 (+2400)

50

50

275 284 349

275 284 349

+2460 (+2400)

+2640 (+2580)

+2640 (+2580)

+19.575 (+1897.5)

X:\Progetti\082-The Student Hotel_Rome\082_DWG\082_CARTIGLIO PDC\MFS Logo_

+2460 (+2400)

50

50

+2460 (+2400)

275 284 349

Masterplanning, Architecture and Desig 275 284 325

2400

2403,44

50

275 284 325

+1307.5 (+1247.5)

+19.575 (+1897.5)

50

50

2400

2403,44

50

50

50

275 284 349

+16.325 (+1572.5)

50

275 284 325 50

50

50

275 284 325

+3.277 (+267.7)

385 394 435

275 284 325

435

2400

2403,44

385 394 435

435

2400

+1.604 (+100.4) 50

275 284 325

D

+0.29 (-031 PROG.)

50

50

+0.29 (-031 PROG.)

275 284 325

+9.825 (+922.5)

X:\Progetti\082-The Student Hotel_Rome\082_DWG\082_CARTIGLIO PDC\MFS Logo_14.12.2016.jpg

Masterplanning, Architecture and Design

-260 (-320)

+6.575 (+597.5) 275 284 325

325

275 284 325

325

50

50

-260 (-320)

+4.95 (+435)

Arch. Matteo Fantoni

+4.95 (+435)

50

D'

385 394 435

435

+1.604 (+100.4)

D

50

+0.29 (-031 PROG.)

Via G. Rosales, 5 - 20124 Milano - IT T. 0039 02.798216 F. 0039 02.36569994 e-mail: info@matteofantoni.com w-site: www.matteofantoni.com

+3.277 (+267.7)

385 394 435

435

50

SECTION D-D’

Via G. Rosales, 5 - 20124 Milano - IT T. 0039 02.798216 F. 0039 02.36569994 e-mail: info@matteofantoni.com w-site: www.matteofantoni.com

+4.95 (+435)

+1307.5 (+1247.5)

50

2403,44

+6.575 (+597.5)

325

275 284 325

325

50

50

50

275 284 325

275 284 325

50

Arch. Matteo Fantoni

+9.825 (+922.5)

+16.325 (+1572.5)

+4.95 (+435)

50

+0.29 (-031 PROG.)

-260 (-320) -260 (-320)

PROFILO D-D'

Progettista Consorzio Engeko s.c.ar.l.

D'

Progettista Consorzio Engeko s.c.ar.l.

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SEZIONE B-B'

1739,04

Consorziata indicata Spaini Architetti Associati s.r.l.

Consorziata indicata Spaini Architetti Associati s.r.l.

777

DATA:

04/01/2017

+2640 (+2580)

Titolo elaborato

50

1222,88

50

+19.575 (+1897.5)

777

275 284 349

+2460 (+2400)

EMISSIONE REVISIONE

Tavola n° TSH-SL ARC. 8

DATA:

MFS

autore autore

Scala:

1:500

MB

04/01/2017

+16.325 (+1572.5)

50

Titolo elaborato

Tavola n° TSH-SL ARC. 8

275 284 325

2400

50

2403,44

+1307.5 (+1247.5)

+9.825 (+922.5) 275 284 325

1222,88

GROUND FLOOR PLAN

EMISSIONE

50

+2640 (+2580)

275 284 325

325

+6.575 (+597.5)

REVISIONE

+2460 (+2400)

+3.277 (+267.7) 385 394 435

435

275 284 349

50

+4.95 (+435)

50

+1.604 (+100.4)

50

+0.29 (-031 PROG.)

+19.575 (+1897.5)

50

-260 (-320)

50

+16.325 (+1572.5)

275 284 325

2400

50 50

275 284 325

+9.825 (+922.5)

275 284 325

325

+6.575 (+597.5)

50

+4.95 (+435)

385 394 435

435

+3.277 (+267.7)

+1.604 (+100.4) +0.29 (-031 PROG.)

50

2403,44

+1307.5 (+1247.5)

-260 (-320)

MFS

autore autore

MB

Scala:

1:500

HOTEL GRAND CARLO PRAGUE MATTEO FANTONI STUDIO Prague, Czech Republic, 2016 Private Competition, Concept design The goal of the project is to produce the conceptual design for the ground floor area, underground and one suite of the Grand Carlo Hotel in Prague. The hotel is located on the Vltava River below the Charles Bridge in the old town. The spatial distribution and layout for the intervention areas have been optimised, creating on the ground floor a warm and wellcoming space, charachetrised by the fireplace and a new skylight as main elements. The overall feel of the public areas are providing an unique experience in a luxurious and classy environment. The same theme is also encountered in the underground level service areas, where there is proposed a relaxing area with gym and S.P.A. The choice of materials and design objects come together to give a fresh note of renewal and elegance to the historical hotel, making it a unexpected and inspiring destiantion for lifestyle experience.

SECTION B-B’

B

B’

Smetanovo Nabrezi Karoliny Svetle

Caviar bar

Lift

Fireplace Gym

SECTION A-A’

A

Lobby Relax

Main entrance

Vltava River

Sauna

GROUND FLOOR PLAN Terrace

A’

Level 5

Bellevue restaurant

Level 4

Lobby

Entrance

Level 3

Caviar bar

Level 2

Lobby

Level 1

Kitchen

Level 0 Level -1

Living

Gym

Relax

Pool Restaurant

Terrace

Garden

Storage

THE STUDENT HOTEL BOLOGNA MATTEO FANTONI STUDIO The Student Hotel, Bologna, Italy, 2016/2017

Concept Development, Planning Application Built Area 24.824 sqm 354 Rooms 625 Beds The project born in the hearth of the old Bolognina district, founded in 1880 as a working-class neighborhood when factories move from the old town to this area where they can easily receive and send goods by the railway station. Here the new dwellings for workers were built and the first community in the area was born. A few steps away from the infrastructural hub represented by the new high speed train station of Bologna, connecting in only 1 hour Bologna to Milan and Florence and a step from the council building, this new TSH Bologna development becomes a key player for a new concept of hotel accommodation : the new structure is an expression of young, cultural, dynamic, accessible, sustainable architecture for students, professionals and tourists. Regeneration and transformation, some of todays urban development issues, are merged by Matteo Fantoni design with The Student Hotel program and identity a left-over unused building becomes a state of the art for sustainability, cutting edge design and flexible architectural expression. The over-all volumes and the structure are preserved. The new transparent, sustainable and private facade comes along with an attractive space planning, designed shaping a brand new organization to the building with lobby, bar restaurant, co-working, gym and a pool designed as an unique experience at the ground floor of the building which become a new destination, a 24 hours accessible plaza. Green roof terraces, with a bar, seating and canopies accommodation, are designed to create for the hotel residents an unique and functional space with long views over Bologna skyline.

PLANS AND SECTIONS

FACADE STUDIES

COPERTURA

100

+ 1895

100

SECTION A-A’ + 1811

PIANO 3°

+ 1531

+ 1476

PIANO 2°

+ 1075

+ 1016

PIANO 1°

+ 597

Pensilina in vetro profondità 150cm

3.27

- 275

- 277

- 398

- 397

- 580

- 782 - 865

GROUND FLOOR PLAN

2.70

- 156

- 430

PIANO -2

3.50 + 90

2.40 - 190

3.68

+ 110

- 160

PIANO -1

2.78

+ 190 + 110

2.10

+ 90

2.70

90

+ 00

2.10

PIANO TERRA+

3.50

4.29

+ 519

WEST ELEVATION

SOUTH ELEVATION

PERSPECTIVE SECTION A-A’

SUN STUDIES TSH BOLOGNA : specific solar exposure and sun height for warm season (from March 21st to September 21st) SUN STUDIES TSH BOLOGNA : specific solar exposure and sun height for warm season (from March 21st to September 21st) SPRING EQUINOX: 21 MARCH 13:00 P.M. SUN HEIGHT

45.73째

SUMMER SOLSTICE: 21 JUNE 13:00 P.M. SUN HEIGHT

68.65째

OBSERVATIONS: - south facing facades require horizontal shading devices, while east and west facades require vertical shading devices.

+ 19.30

+ 15.45

+ 10.90

+ 6.10

areas where solar control devices are required

NEW ADEED VOLUME - during the warm season the cantilivered new volume of the third floor is shading the south facing rooms on the second floor, thus in this area there is no direct solar exposure and no heat gain (especially in the summer). - this indicates that, since this area is naturally shaded, there is no need for solar control devices

SOUTH LIGHT WELL - during the warm season there is direct solar exposure of the south facade of the light well (from first floor up), direct solar gain ( natural heating), thus there is need for solar control devices.

CENTRAL COURTYARD - during the warm season there is direct solar exposure and natural heat gain on the south facing facade of the central courtyard, thus there is need for solar control devices. - there is also solar exposure on the ground floor level area of the courtyard, this confirms the optimal position for the pool.

NORTH LIGHT WELL - during the warm season there is direct solar exposure and solar gain in the light wells (on the third floor and partially on the second floor).

SUN STUDIESTSHTSH BOLOGNA : specific solar exposure sunforheight for cold season (from21st September 21st to March 21st) SUN STUDIES BOLOGNA : specific solar exposure and sun and height cold season (from September to March 21st) AUTUMN EQUINOX: 21 SEPTEMBER 13:00 P.M. SUN HEIGHT WINTER SOLSTICE: 21 DECEMBER 13:00 P.M. SUN HEIGHT

45.90째

OBSERVATIONS: - south facing facades require horizontal shading devices, while east and west facades require vertical shading devices.

21.99째

+ 19.30

+ 15.45

+ 10.90

+ 6.10

areas where solar control devices are required

NEW ADEED VOLUME - during the cold season there is direct solar exposure of the south facing rooms in the new added voume of the second floor. - thus there is natural heat gain that helps reduce the need for mechanical heating.

SOUTH LIGHT WELL - during the cold season there is almost no direct solar exposure of the south facing facade of the light well.

CENTRAL COURTYARD - during the cold season there is direct solar exposure mainly of the south facade of the central courtyard (almost no exposure of the ground floor level), thus there is also natural heat gain that helps reduce the need of mechanical heating.

NORTH LIGHT WELL - during the cold season there is direct solar exposure and solar gain only in the light wells in the north part of the building (on the third floor and partially on the second).

asing impact from the urban heat island effect dence.

BIOMIMICRY IN ARCHITECTURE - MITIGATION AND ADAPTATION TO CLIMATE CHANGE

isks directly relevant to the built environment included:

r supply shortage ased water demand for energy generation r energy demand for cooling risk to energy infrastructure damage/disruption to energy infrastructure.

MASTER THESIS OF ARCHITECTURE Politecnico di Milano, 2016 Cascina Rosa Cascina Case Nuove

The main focus of the thesis is illustrating Cascina Ambrogio, Codavero, Taverna, how strategies of biomimicry thinking can be Cascina Basciana Casanova Cascina Sella Nuova successfully applied in the design process in Cascina Cassinazza order to obtain optimized design solutions that Cascina Corba Cascina Garegnano Cascina Monlue actively respond to the environmental issues through adaptation and mitigation to climate change. Biomimicry is defined as a process of mimicking the functional basis of biological forms, processes, and ecosystems refined through evolution to produce sustainable solutions. The intention is to study ways of translating adaptations in biology into solutions in architecture. The theoretical background of the project EX-BORLETTI FACTORY CORSO XXII MARZO explores how ideas inspired by the natural URBAN CLUSTER systems can have real life applications: from structural efficiency, material manufacturing, POTENTIAL BIOWASTE RESOURCES rational resource use, zero waste systems, efficient water use, controlled thermal FROM THE TEMPORARY STREET MARKETS environment, energy supply management and FROM THE FOOD COURTS how they are all interconnected. As many of the current approaches to environmentally FROM THE URBAN VEGETATION sustainable architecture are based on mitigation SITE BOUNDARIES and adaptation to climate change the purpose Piazza of biomimetic design is to create buildings CASCINAS’ LOCATION Duomo that will cease to be static consumers and can become net producers of useful resources. The project is based on adaptive reuse of STRATEGY INTERVENTIONS existing abandoned structures and urban residual spaces, the sites are theOFEx-Borletti ADAPTIVE REUSE USING THE EXISTING BUILT ENVIRONMENT AS A RESOURCE, PROPOSAL NEW FUNCTIONS TO SUSTAIN ACTIV ENERGETIC AUTHONOMY OF REUSED STRUCTURES IMPLEMENTATION OF ENERGY GENERATION STRUCTURES THAT PRODUCE ENERGY USIN factory indicated in the Ri-Formare Milano IMPLEMENTING CLOSED LOOP MODEL ALL RESOURCES (INCLUDING WASTE) ARE INCLUDED IN CYCLES AND project. Cascina Torrette di Trenno

Via Organdino

Piazza Irnerio

Via Antonio Cecchi

URBAN CONTEXT Via Constanza

Via Roncaglia

PRODUCTIVE PLACES

Cascina Gavriana

MULTI-LAYER URBA FARMING, SOLAR GREENHOUSE FARMING, AQU

The proposal for the abandoned Ex-Borletti factory is to revitalize the area through adaptive reuse and development of an “industrial ecosystem� based on functional and technological symbiosis. The reactivation of this former industrial site resulting in a selfsustaing adaptive reuse that achieves radical increase in resource efficiency, functioning with zero energy, producing zero waste, growing zero carbon food and reintegrating socially its actors. The main goals of the project are: radical increase in resource efficiency, renewable energy generation, proposing a functional program that can sustain the site socially, economically and environmentally, responding to the social issues in the area by including strategy for job generation and social reintegration, creating productive places (urban farming, aquaponic farming). The project is a prototype that illustrates the full potential of abandoned structures in our built environment, transforming sites of abandonment and underutilization into autonomous productive places, and the type of performance which can be achieved by implementing biomimicry to obtain innovation in sustainable design. The productive places, functions, technologies, products and byproducts are all introduced in a closed, interconnected system based on symbiotic relationships where nothing is lost as waste, and everything is reused in an optimal way. The general strategy of intervenytion is: restoration, minimal modification, addition (internal), optimisatiomn of technological instalations and building envelope, reconfiguration of space, new functions that can sustain the former factory transforming it into a industrial ecosystem.

SIT

INTERVENTION SITE AND CONTEXT EX-BORLETTI - INTERVENTION SITE AND CONTEXT EX-BORLETTI Former municipal market in Via Cecchi, also abandoned for many years, it has been noted the presence of asbestos in some of the structures. The main typology is of one story warehouse.

EX-MERCATO

Ex-Borletti factory was built between 1912-1916; production of watches, precision mecanics for cars, sweing machines; during World War I it was converted to military production; florishing industry during the 60’s. The Art Nouveau building is a wonderful example of industrial archeology. It is part of a bigger complex of industrial plants built in the same period, another part is next to it on the border of Via Washington. Total surface = 8.800 sqm

PIAZZA IRNERIO

Ex-Borletti factory was closed during the late 70’s and it remained abandoned ever since. The state is of degradation and insecurity, leaving place for illegal occupants inside it’s structure and around the area causing various social issues

MARRIOT HOTEL

BL

1. E 2. C 3. E In the late 90’s the building fell under private ownership of the company who owns the nearby Marriott building. Since then, the owners have proposed to demolish and built luxury residences on the plot, the local council have proposed to convert the building to multi-purpose center for young single mothers and the elderly, but still no proposal has been implemented and the building remains in a state of neglect and illegal occupation.

LA RINASCENTE The second part, designed by Studio Ing. Brini e Roveda in 1918 and built in 1923, has instead been extensively refurbished, especially on its exterior. Renovation of this office building was carried out in the 1980s by Marco Zanuso. Today the main building houses the premises of leading fashion and communications companies, while much of the block underground is occupied by parking facilities.

ST

s,

ry

SITE ANALYSIS AND PRIMARY INTERVENTIONS SITE ANALYSIS AND PRIMARY INTERVENTIONS

uilt e

BLOCK COMPOSITION : 1. EX-BORLETTI - FACTORY 2. CENTRAL PART - COVERED COURTYARD 3. EX-MERCATO - WAREHOUSE

x-Borletti factory was closed during the ate 70’s and it remained abandoned ever nce. The state is of degradation and insecuty, leaving place for illegal occupants inside ’s structure and around the area causing arious social issues

BLOCK COMPOSITION :

DISMANTELING OF CENTRAL PART :

ENVIRONMENTAL ISSUES :

1. EX-BORLETTI - FACTORY 2. CENTRAL PART - COVERED COURTYARD 3. EX-MERCATO - WAREHOUSE

TO CREATE OPEN SPACE ON GROUND FLOOR LEVEL AND CREATE PERMEABILITY TO THE SITE AREA

1. DISPOSAL OF ASBESTOS ROOF STRUCTURES 2. DISPOSAL AND REPLACEMENT OF DEGRADED ROOF STRUCTURES

STRUCTURAL ANALYSIS OF EXISTING STRUCTURE

STRUCTURAL REINFORCEMENT AND NEW STRUCTURAL ELEMENTS BUILDING INTERVENTIONS STRATEGY

STRUCTURAL REINFORCEMENT STRUCTURAL ELEMENTS STRUCTURAL REINFORCEMENT ANDAND NEWNEW STRUCTURAL ELEMENTS REINFORCEMENT OF EXISTING STRUCTURES STRUCTURAL STRUCTURAL REINFORCEMENT REINFORCEMENT ANDAND NEWNEW STRUCTURAL STRUCTURAL ELEMENTS ELEMENTS REINFORCEMENT OF EXISTING STRUCTURES REINFORCEMENT OF EXISTING STRUCTURES STRUCTURAL REINFORCEMENT ANDSTRUCTURAL NEW STRUCTURAL ELEMENTS STRUCTURAL REINFORCEMENT AND NEW ELEMENTS REINFORCEMENT OF EXISTING STRUCTURES REINFORCEMENT OF EXISTING STRUCTURES

LA RINASCENTE

The second part, designed by Studio Ing. Brini e Roveda in 1918 and built in 1923, has instead been extensively refurbished, especially on its exterior. Renovation of this office building was carried out in the 1980s by Marco Zanuso. Today the main building houses the premises of leading fashion and communications companies, while much of the block underground is occupied by parking facilities.

VERTICAL STRUCTURAL ELEMENTS : STRUCTURAL ANALYSISWALLS OF EXISTING STRUCTURE LOAD BEARING PERIMETRAL AND COLUMNS

NEW METAL I BEAMS REINFORCEMENT OF EXISTING STRUCTURES REINFORCEMENT OF EXISTING STRUCTURES NEW METAL I BEAMS NEW METAL I BEAMS

BUILDING SPATIAL TYPOLOGIES BUILDING SPATIAL TYPOLOGIES BUILDING SPATIAL TYPOLOGIES COMPACT BOCK BUILDING BUILDING SPATIAL SPATIAL TYPOLOGIES TYPOLOGIES OPEN PLAN SPACE COMPACT BOCK COMPACT BOCK BUILDING SPATIAL TYPOLOGIES BUILDING SPATIAL TYPOLOGIES WAREHOUSE TYPOLOGY OPEN PLAN SPACE OPEN PLAN SPACE COMPACT COMPACT BOCK BOCK COMPACT BOCK OPEN OPEN PLAN PLAN SPACE SPACE WAREHOUSE TYPOLOGY WAREHOUSE TYPOLOGY COMPACT BOCK OPEN PLAN SPACE WAREHOUSE WAREHOUSE TYPOLOGY TYPOLOGY OPEN PLAN SPACE WAREHOUSE TYPOLOGY WAREHOUSE TYPOLOGY

NEW METAL I BEAMS FLOOR NEW METAL I BEAMS GREENHOUSE ADDITIONAL LIGHTWEIGHT STRUCTURES NEW METAL I BEAMS GREENHOUSE ADDITIONAL FLOOR GREENHOUSE ADDITIONAL FLOOR NEW METAL I BEAMS LIGHTWEIGHT STRUCTURES LIGHTWEIGHT STRUCTURES GREENHOUSE ADDITIONAL FLOOR GREENHOUSE ADDITIONAL FLOOR LIGHTWEIGHT STRUCTURES LIGHTWEIGHT STRUCTURES GREENHOUSE ADDITIONAL FLOOR LIGHTWEIGHT STRUCTURES GREENHOUSE ADDITIONAL FLOOR LIGHTWEIGHT STRUCTURES

OT HOTEL

s closed during the ed abandoned ever egradation and inseculegal occupants inside nd the area causing

IMARY INTERVENTIONS

BLOCK COMPOSITION :

DISMANTELING OF CENTRAL PART :

ENVIRONMENTAL ISSUES :

1. EX-BORLETTI - FACTORY 2. CENTRAL PART - COVERED COURTYARD 3. EX-MERCATO - WAREHOUSE

TO CREATE OPEN SPACE ON GROUND FLOOR LEVEL AND CREATE PERMEABILITY TO THE SITE AREA

1. DISPOSAL OF ASBESTOS ROOF STRUCTURES GREENHOUSE ROOF GREENHOUSE NEWNEW ROOF 2. DISPOSAL AND REPLACEMENT OFSTRUCTURES DEGRADED ROOF STRUCTURES METAL TRUSS STRUCTURES METAL TRUSS

GREENHOUSE NEW ROOF METAL TRUSS STRUCTURES

GREENHOUSE ROOF GREENHOUSE NEWNEW ROOF GREENHOUSE NEW ROOF METAL TRUSS STRUCTURES METAL TRUSS STRUCTURES METAL TRUSS STRUCTURES - REINFORCEMENT THE EXISTING STRUCTURE MAKING IT MORE DURABLE, SUSTAINABLE, AND GREENHOUSE NEW OF ROOF EXTENDING THE BUILDING’S LIFETIME METAL TRUSS STRUCTURES - REINFORCEMENT OF THE EXISTING STRUCTURE MAKING IT MORE DURABLE, SUSTAINABLE, - REINFORCEMENT OF THE EXISTING STRUCTURE MAKING IT MORE DURABLE, SUSTAINABLE, ANDAND

LA RINASCENTE

cond part, designed by Studio Ing. Brini e a in 1918 and built in 1923, has instead been vely refurbished, especially on its exterior. ation of this office building was carried out in BLOCK COMPOSITION : 80s by Marco Zanuso. he main building houses the premises of 1. EX-BORLETTI - FACTORY g fashion and communications companies, 2. CENTRAL PART - COVERED COURTYARD much of the block underground is occupied 3. EX-MERCATO - WAREHOUSE king facilities.

STRUCTURAL ANALYSIS OF EXISTING STRUCTURE DISMANTELING OF CENTRAL PART : DISMANTELING OF CENTRAL PART : TO CREATE OPEN SPACE ON GROUND FLOOR LEVEL AND CREATE HORIZONTAL STRUCTURAL ELEMENTS : VERTICAL STRUCTURAL : CREATE PERMEABILITY TO THE SITE AREA TO CREATE OPENBEARING SPACE ON GROUND LEVEL AND LOAD BEAMSFLOOR ANDELEMENTS SLABS

TIONS

PERMEABILITY TO THE SITE AREA LOAD BEARING PERIMETRAL WALLS AND COLUMNS

LA RINASCENTE

y Studio Ing. Brini e 923, has instead been ecially on its exterior. ding was carried out in

STRUCTURAL ANALYSIS OF EXISTING STRUCTURE

ses the premises of nications companies, erground is occupied

CENTRAL COVERED COURTYARD : - MOST OF THE STRUCTURES IN THIS AREA ARE LIGHTWEIGHT, TEMPORARY STRUCTURES THAT CAN BE EASILY DISMANTLED AND ELIMINATED - PART OF THE ROOF STRUCTURES ARE MADE FORM ASBESTOS WHICH IS TOXIC - PLAN A SAFE WAY TO ELIMINATE THE ASBESTOS AND DISPOSE OF IT IN ENVIRONMENTALLY SUITABLE CONDITIONS - THIS AREA CAN BECOME A OPEN COURTYARD, GIVING THE SITE PERMEABILITY AND A SPACE TO CREATE QUALITY LANDSCAPE AND REVITALIZE THE FORMER MARKET FUNCTION BY CREATING A SPACE FOR LOCAL FARMERS MARKET CONNECTED TO THE GREENHOUSE

DISMANTELING OF CENTRAL PART :

TO CREATE OPEN SPACE ON GROUND FLOOR LEVEL AND CREATE

PERMEABILITY TO THE ELEMENTS SITE AREA : VERTICAL STRUCTURAL

ED COURTYARD USE

LOAD BEARING PERIMETRAL WALLS AND COLUMNS

EXTENDING BUILDING’S LIFETIME EXTENDING THETHE BUILDING’S LIFETIME - REINFORCEMENT - REINFORCEMENT OF THE OF THE EXISTING EXISTING STRUCTURE STRUCTURE MAKING MAKING IT MORE IT MORE DURABLE, DURABLE, SUSTAINABLE, SUSTAINABLE, ANDAND

- REINFORCEMENT OF THE EXISTING STRUCTURE MAKING IT MORE DURABLE, SUSTAINABLE, AND RESTORATION OFBUILDING’S EXISTING FACADE OF BORLETTI FACTORY AND ADDITION OF EXTENDING EXTENDING THETHE BUILDING’S LIFETIME LIFETIME EXTENDING THE BUILDING’S LIFETIME ENVIRONMENTAL ISSUES : - REINFORCEMENT THE EXISTING STRUCTURE MAKING IT MORE DURABLE, SUSTAINABLE, RESTORATION EXISTING BORLETTI FACTORY ADDITION RESTORATION OFOFOF EXISTING FACADE OF OF BORLETTI FACTORY ANDAND ADDITION OF OFAND NEW ‘SMOG-EATING’ FACADE TOFACADE GREENHOUSE EXTENDING THE BUILDING’S LIFETIME 3D STRUCTURAL GRID : ADDITION HORIZONTAL STRUCTURAL ELEMENTS RESTORATION RESTORATION OF: OF EXISTING EXISTING FACADE OF OF BORLETTI BORLETTI FACTORY FACTORY AND AND ADDITION OF OFOF RESTORATION OF FACADE EXISTING FACADE OF BORLETTI FACTORY AND ADDITION ‘SMOG-EATING’ TO GREENHOUSE NEWNEW ‘SMOG-EATING’ FACADE TOFACADE GREENHOUSE 1. DISPOSAL OF ASBESTOS ROOF STRUCTURES 2. DISPOSAL AND REPLACEMENT OF DEGRADED ROOF STRUCTURES BEAMS AND COLUMNS LOAD BEARING BEAMS AND SLABS NEW ‘SMOG-EATING’ FACADE TO GREENHOUSE NEWNEW ‘SMOG-EATING’ ‘SMOG-EATING’ FACADE FACADE TO TO GREENHOUSE GREENHOUSE RESTORATION OF EXISTING FACADE OF BORLETTI FACTORY AND ADDITION OF NEW ‘SMOG-EATING’ FACADE TO GREENHOUSE

PROGRAME // FUNCTIONS // ACTIVITIES // SITE ISSUES // SITE OPPORTUNITIES // PROBLEMS IN SITE AREA :

PROJECT INITIATIVES AND STRATEGIES:

EX-BORLETTI FACTORY :

- SECURITY IS SCARCE - BUILDING IS ABANDONED SINCE THE ‘70 s - BUILDING STRUCTURE IS OCCUPIED ILEGALY BY HOMELESS PEOPLE - THE ILEGAL OCCUPANTS ARE CONTRIBUTING TO DEGRADATION EVEN MORE

- PROPOSE FUNTIONS THAT CAN INCLUDE JOB GENERATION AND SOCIAL REINTEGRATION PROGRAM FOR THE PEOPLE LACKING A HOME AND / OR JOB, THUS CREATING SOCIAL SUSTAINABILITY - THE FUNCTIONAL PROGRAM OF THE PROPOSED PROJECT CAN INCLUDE OFFERING TEMPORARY ASYLIUM AND MINIMUM WAGE IN EXCHANGE FOR WORK IN THE PRODUCTIVE PROCESSES CARRIED OUT IN THE AREA - THE PRODUCTIVE FUNCTIONS CAN WORK TOGETHER WITH THE PUBLIC ONES, PROPOSAL OF PUBLIC FUNCTIONS THAT CAN BRING IN ECONOMIC CAPITAL - ALL OF THE FUNTIONS WILL WORK TOGETHER WITH WASTE PRODUCED FROM EVERY PROCESS, TURNING IT WITH THE USE OF AN ANAEROBIC DIGESTOR INTO AN ENERGY GENERATION SOURCE, AS WELL AS HEATING AND COOLING OF THE BUILDING

- THE GENERAL STRATEGY OF INTERVENTION IS: RESTORATION, MINIMAL MODIFICATION, ADDITION (INTERNAL), OPTIMISATION OF TECHNOLOGICAL INSTALATIONS AND BUILDING ENVELOPE, RECONFIGURATION OF SPACE, NEW FUNCTIONS THAT CA SUSTAIN SOCIALLY, ECONOMICALLY, ENVIRONMENTALLY THE FORMER FACTORY TRANSFORMING IT INTO A INDUSTRIAL ECOSYSTEM FUNCTIONING AS A BIOMIMETIC ECOSYSTEM OPERATING BY CRADLE TO CRADLE PRINCIPLES - FUNCTIONAL PROGRAM : THE BUILDING WILL BE A MULTI-PURPOSE CENTER BASED ON FOOD PRODUCTION, INCLUDING A RESEARCH AND EDUCATION CENTER AND A COMMUNITY CENTER - THE ENTIRE PROJECT WILL FUNCTION AT ZERO WASTE, ZERO ENERGY STANDARDS (SELF-SUSTAINING)

PUBLIC INITIATIVES FOR THE EX-BORLETTI AREA : - THE LOCAL COUNCIL HAS PROPOESED TO CREATE A MULTI-PURPOSE CENTER FOR YOUNG SINGLE MOTHERS AND ELDERLY, NO ACTION HAS BEEN MADE IN THIS SENSE - OTHER PRIVATE INVESTORS PROPOSED BUILDING A LUXURY SUITE COMPLEX IN THE PLACE OF THE FORMER FACTORY AND SURROUNDING ENVIRONMENTAL ISSUES : BUILDINGS. 1. DISPOSAL OF ASBESTOS ROOF STRUCTURES STRUCTURAL ELEMENTS : 2. HORIZONTAL DISPOSAL AND REPLACEMENT OF DEGRADED ROOF STRUCTURES LOAD BEARING BEAMS AND SLABS

IS OF EXISTING STRUCTURE

OPPORTUNITIES // : ENVIRONMENTAL ISSUES : PROGRAME // FUNCTIONS // ACTIVITIES // SITE ISSUES // SITE 3D STRUCTURAL GRID 1. DISPOSAL OFDISMANTELING ASBESTOS OF ROOF STRUCTURES BEAMS AND: COLUMNS ENVIRONMENTAL ISSUES CENTRAL PART : 2. DISPOSAL AND REPLACEMENT OF DEGRADED STRUCTURES PROJECT INITIATIVES AND STRATEGIES: PROBLEMS IN SITE AREA ROOF : TO CREATE OPEN SPACE ON GROUND FLOOR LEVEL AND CREATE VERTICAL STRUCTURAL ELEMENTS : PERMEABILITY TO THE SITE AREA

3D STRUCTURAL GRID :

OPTIMIZATION OF INTERNAL BUILDINGS ENVELOPE AND SYSTEMS OPTIMIZATION INTERNAL BUILDINGS ENVELOPE OPTIMIZATION OF OF INTERNAL BUILDINGS ENVELOPE ANDAND SYSTEMS OPTIMIZATION OF INTERNAL BUILDINGS ENVELOPE ANDSYSTEMS SYSTEMS OPTIMIZATION OPTIMIZATION OF OF INTERNAL INTERNAL BUILDINGS BUILDINGS ENVELOPE ENVELOPE ANDAND SYSTEMS SYSTEMS OPTIMIZATION OF INTERNAL BUILDINGS ENVELOPE AND SYSTEMS

BEAMS AND COLUMNS

EX-BORLETTI FACTORY : 3D STRUCTURAL GRID :

1. HORIZONTAL DISPOSAL OF STRUCTURAL ASBESTOS ROOF STRUCTURES ELEMENTS : 2. DISPOSAL AND REPLACEMENT DEGRADED ROOF - PROPOSEOF FUNTIONS THAT CANSTRUCTURES INCLUDE JOB GENERATION AND - THE GENERAL STRATEGY OF INTERVENTION IS: RESTORATION, - SECURITY IS SCARCE BEAMSA AND COLUMNS LOAD BEARING PERIMETRAL WALLS AND LOAD BEARING BEAMS AND SLABS SOCIAL REINTEGRATION PROGRAM FOR THE PEOPLE LACKING MINIMAL MODIFICATION, ADDITION (INTERNAL), OPTIMISATION OF - BUILDING IS ABANDONED SINCE THE ‘70 s COLUMNS HOME AND / OR JOB, THUS CREATING SOCIAL SUSTAINABILITY TECHNOLOGICAL INSTALATIONS AND BUILDING ENVELOPE, - BUILDING STRUCTURE IS OCCUPIED ILEGALY BY HOMELESS PEOPLE - THE FUNCTIONAL PROGRAM OF THE PROPOSED PROJECT CAN RECONFIGURATION OF SPACE, NEW FUNCTIONS THAT CA SUSTAIN - THE ILEGAL OCCUPANTS ARE CONTRIBUTING TO DEGRADATION EVEN INCLUDE OFFERING TEMPORARY ASYLIUM AND MINIMUM WAGE IN SOCIALLY, ECONOMICALLY, ENVIRONMENTALLY THE FORMER MORE EXCHANGE FOR WORK IN THE PRODUCTIVE PROCESSES CARRIED FACTORY TRANSFORMING IT INTO A INDUSTRIAL ECOSYSTEM OUT IN THE AREA FUNCTIONING AS A BIOMIMETIC ECOSYSTEM OPERATING BY CRADLE EMPORARY STRUCTURES THAT CAN BE PUBLIC INITIATIVES FOR THE EX-BORLETTI AREA : - THE PRODUCTIVE FUNCTIONS CAN WORK TOGETHER WITH THE TO CRADLE PRINCIPLES PUBLIC ONES, PROPOSAL OF PUBLIC FUNCTIONS THAT CAN BRING - FUNCTIONAL PROGRAM : THE BUILDING WILL BE A MULTI-PURPOSE WHICH IS TOXIC - THE LOCAL COUNCIL HAS PROPOESED TO CREATE A MULTI-PURPOSE IN ECONOMIC CAPITAL CENTER BASED ON FOOD PRODUCTION, INCLUDING A RESEARCH OF IT IN ENVIRONMENTALLY SUITABLE CENTER HAS INITIATIVES PROJECT AND EX-BORLETTI FACTORY PROBLEMS IN SITE AREA : FOR YOUNG SINGLE MOTHERS AND ELDERLY, NO ACTION - ALL OFSTRATEGIES: THE FUNTIONS WILL WORK TOGETHER WITH WASTE AND:EDUCATION CENTER AND A COMMUNITY CENTER BEEN MADE IN THIS SENSE PRODUCED FROM EVERY PROCESS, TURNING IT WITH THE USE OF - THE ENTIRE PROJECT WILL FUNCTION AT ZERO WASTE, ZERO PERMEABILITY AND A SPACE TO CREATE OTHER PRIVATE INVESTORS PROPOSED BUILDING A LUXURY SUITE - PROPOSE FUNTIONS CAN INCLUDE JOB INTO GENERATION ANDGENERATION-SOURCE, THE GENERAL STRATEGY OFSTANDARDS INTERVENTION IS: RESTORATION, - SECURITY ANTHAT ANAEROBIC DIGESTOR AN ENERGY ENERGY (SELF-SUSTAINING) NCTION BY CREATING A SPACE FOR LOCAL IS SCARCE COMPLEX IN THE SOCIAL REINTEGRATION PROGRAM FOR THE PEOPLE LACKING A BUILDING MINIMAL MODIFICATION, ADDITION (INTERNAL), OPTIMISATION OF - BUILDING IS ABANDONED SINCE THEPLACE ‘70 s OF THE FORMER FACTORY AND SURROUNDING AS WELL AS HEATING AND COOLING OF THE BUILDINGS. HOME AND / OR JOB, THUS CREATING SOCIAL SUSTAINABILITY TECHNOLOGICAL INSTALATIONS AND BUILDING ENVELOPE, - BUILDING STRUCTURE IS OCCUPIED ILEGALY BY HOMELESS PEOPLE - THE FUNCTIONAL PROGRAM OF THE PROPOSED PROJECT CAN RECONFIGURATION OF SPACE, NEW FUNCTIONS THAT CA SUSTAIN - THE ILEGAL OCCUPANTS ARE CONTRIBUTING TO DEGRADATION EVEN INCLUDE OFFERING TEMPORARY ASYLIUM AND MINIMUM WAGE IN SOCIALLY, ECONOMICALLY, ENVIRONMENTALLY THE FORMER MORE EXCHANGE FOR WORK IN THE PRODUCTIVE PROCESSES CARRIED FACTORY TRANSFORMING IT INTO A INDUSTRIAL ECOSYSTEM OUT IN THE AREA FUNCTIONING AS A BIOMIMETIC ECOSYSTEM OPERATING BY CRADLE RES THAT CAN BE PUBLIC INITIATIVES FOR THE EX-BORLETTI AREA : - THE PRODUCTIVE FUNCTIONS CAN WORK TOGETHER WITH THE TO CRADLE PRINCIPLES PUBLIC ONES, PROPOSAL OF PUBLIC FUNCTIONS THAT CAN BRING - FUNCTIONAL PROGRAM : THE BUILDING WILL BE A MULTI-PURPOSE - THE LOCAL COUNCIL HAS PROPOESED TO CREATE A MULTI-PURPOSE IN ECONOMIC CAPITAL CENTER BASED ON FOOD PRODUCTION, INCLUDING A RESEARCH NTALLY SUITABLE CENTER FOR YOUNG SINGLE MOTHERS AND ELDERLY, NO ACTION HAS - ALL OF THE FUNTIONS WILL WORK TOGETHER WITH WASTE AND EDUCATION CENTER AND A COMMUNITY CENTER BEEN MADE IN THIS SENSE PRODUCED FROM EVERY PROCESS, TURNING IT WITH THE USE OF - THE ENTIRE PROJECT WILL FUNCTION AT ZERO WASTE, ZERO A SPACE TO CREATE - OTHER PRIVATE INVESTORS PROPOSED BUILDING A LUXURY SUITE AN ANAEROBIC DIGESTOR INTO AN ENERGY GENERATION SOURCE, ENERGY STANDARDS (SELF-SUSTAINING) G A SPACE FOR LOCAL COMPLEX IN THE PLACE OF THE FORMER FACTORY AND SURROUNDING AS WELL AS HEATING AND COOLING OF THE BUILDING BUILDINGS.

STRUCTURE

EMENTS :

AL WALLS AND

THE ‘GREEN BATTERY’ ANAEROBIC DIGESTER ‘GREEN BATTERY’ ANAEROBIC DIGESTER THETHE ‘GREEN BATTERY’ ANAEROBIC DIGESTER GENERATING ENERGY FOR THE BUILDING THEGENERATING THE ‘GREEN ‘GREEN BATTERY’ BATTERY’ ANAEROBIC ANAEROBIC DIGESTER DIGESTER BATTERY’ ANAEROBIC DIGESTER ENERGY FOR BUILDING GENERATING ENERGY FOR THETHE BUILDING GENERATING ENERGY FOR THE BUILDING GENERATING GENERATING ENERGY ENERGY FOR FOR THE THE BUILDING BUILDING THE ‘GREEN BATTERY’ ANAEROBIC DIGESTER GENERATING ENERGY FOR THE BUILDING

PROGRAME // FUNCTIONS // ACTIVITIES // SITE ISSUES // SITE OPPORTUNITIES //

HORIZONTAL STRUCTURAL ELEMENTS :

3D STRUCTURAL GRID :

LOAD BEARING BEAMS AND SLABS

BEAMS AND COLUMNS

GREEN ELEMENTS GREEN ELEMENTS GREEN ELEMENTS ELEMENTS TOP BOX PLANTERS GREEN GREEN ELEMENTS ELEMENTS TOP BOX PLANTERS TOPTOP BOXBOX PLANTERS PLANTERS AQUAPONIC CROPS GREENAQUAPONIC ELEMENTS TOPAQUAPONIC BOXBOX PLANTERS TOP PLANTERS AQUAPONIC CROPS CROPS CROPS

GROUND FLOOR GREEN PLATFORMS AQUAPONIC CROPS AQUAPONIC CROPS GROUND FLOOR GREEN PLATFORMS GROUND FLOOR GREEN PLATFORMS GROUND FLOOR GREEN PLATFORMS SOLAR GREENHOUSE PLANTATIONS TOP BOX PLANTERS SOLAR GREENHOUSE PLANTATIONS GROUND FLOOR GREEN PLATFORMS GROUND FLOOR GREEN PLATFORMS SOLAR GREENHOUSE PLANTATIONS SOLAR GREENHOUSE PLANTATIONS UNDERGROUND GARDENS AQUAPONIC CROPS UNDERGROUND GARDENS SOLAR GREENHOUSE PLANTATIONS SOLAR GREENHOUSE PLANTATIONS UNDERGROUND GARDENS UNDERGROUND GARDENS GROUND FLOOR GREEN PLATFORMS

UNDERGROUND GARDENS UNDERGROUND GARDENS SOLAR GREENHOUSE PLANTATIONS UNDERGROUND GARDENS

BUILDING SYSTEMS AND INTERVENTIONS

PROGRAM / FUNCTIONS / ACTIVITIES PROGRAM / FUNCTIONS / ACTIVITIES FUNCTIONAL PROGRAM SOCIAL / COMMUNITY CENTER PUBLIC FUNCTIONS (PUBLIC SERVICES)

CIRCULATIONS

FUCNTIONAL DISTRIBUTION COMMON KITCHEN SOCIAL LIVING UNITS

MEETING ROOM

AQUAPONICS FARMING

PRODUCTIVE ACTIVITIES RESEARCH AND EDUCATION CENTER

MEETING ROOM READING AREA LIBRARY

COMMON KITCHEN

COMMUNITY CENTER MEETING HALL SOCIAL LIVING UNITS

PUBLIC SOUP KITCHEN ADMINISTRATION OFFICE

RECREATION AREA

AQUAPONICS FARMING MEETING ROOM

SOCIAL LIVING UNITS COMMON KITCHENS ARCHIVE

MEETING ROOM

LOCAL FARMERS MARKET INTERIOR GARDEN UNDERGROUND GARDENS RESTAURANT CAFE

COMPUTER ROOM

COMMON KITCHEN

SOCIAL LIVING UNITS MEETING ROOM MUSHROOM FARMING

BEER HOUSE

AQUAPONICS FARMING

MEETING ROOM

MEETING ROOMS LABORATORIES

WORKSHOPS AND COWORKING SPACES

ADMINISTRATION OFFICE

AQUAPONICS FARMING

COMMUNITY CENTER SOUP KITCHEN

RECREATION AREA SOLAR GREENHOUSE FARMING

SEEDING AREA

CAFE

SPIRULINA PRODUCTION SEEDING AREA MUSHROOM FARMING MICROBREWERY

KITCHEN

LOCAL FARMERS MARKET

RESTAURANT MICROBREWERY

SOLAR GREENHOUSE FARMING INTERIOR GARDEN

BEER HOUSE

ANAEROBIC DIGESTER ENERGY GENERATOR WATER FILTRATION SYSTEM

UNDERGROUND GARDENS SPIRULINA PRODUCTION

COMPOSTING SYSTEM

UNDERGROUND GARDENS STUDIOS AND MEETING ROOMS

COMPOSTING SYSTEM

STUDIOS AND MEETING ROOMS ENERGY GENERATOR

LABORATORIES ARCHIVE

WORKSHOPS AND COWORKING SPACES

COMPUTER ROOM

WATER FILTRATION SYSTEM

LIBRARY READING AREA

WATER FILTRATION ANAEROBIC DIGESTER

UNDERGROUND GARDENS

UNDERGROUND FLOOR PLAN UNDERGROUND FLOOR PLAN

CENTRAL ELECTRIC SYSTEM

NATURAL GAS

CENTRAL HEATING

WATER FILTRATION CELLS

POTABLE WATER RESERVOIR ANAEROBIC DIGESTER INPUT PIPES

NATURAL VENTILATION PASSAGES

WATER FILTRATION SYSTEM IMPUT PIPES

NON-POTABLE WATER TANK

WATER FILTRATION SYSTEM OUTPUT PIPES

POTABLE WATER ALIMENTATION CIRCUIT

REUSE AND FILTRATION PUMP

MAIN ELECTRICAL CIRCUITS

MAIN CENTRAL HEATING CIRCUITS

STAGE 1,2 PUMP AND TANK

NATURAL GAS ALIMENTATION CIRCUIT LIQUID FERTILISER ALIMENTATION

DISINFECTATION AND FILTRATION TANK

COMPOST OUTPUT FROM ANAEROBIC DIGESTER

PRIMARY EQUALIZATION TANK

COMPOSTING SYSTEM

ANAEROBIC DIGESTER AND CHP SYSTEM

GROUND PLAN GROUNDFLOOR FLOOR PLAN GROUND FLOOR

PLAN

S3S2

S2

S3

OPENOPEN FLOOR PLAN SPATIAL CONFIGURATIONS FLOOR PLAN SPATIAL CONFIGURATIONS LINEAR SPACE CONFIGURATION

+0.00

+0.00

PERIMETRAL SPACE CONFIGURATION

+1.70

+1.70 +0.00

+0.00

FOOD STORAGE

DRY

COLD

WASHERS

FOOD STORAGE HOT PREPARATION

DRY FOOD SERVING

COLD PREPARATION

COLD

WASHERS

FOOD SERVING

HOT PREPARATION

COLD PREPARATION

ANAEROBIC ANAEROBICDIGESTER DIGESTER INPUT INPUT PIPES PIPES WATER WATERFILTRATION FILTRATION SYSTEM SYSTEM IMPUT IMPUT PIPESPIPES WATER WATERFILTRATION FILTRATION SYSTEM SYSTEM OUTPUT OUTPUT PIPESPIPES

CENTRAL SPACE CONFIGURATION

POTABLE POTABLEWATER WATER ALIMENTATION ALIMENTATION CIRCUIT CIRCUIT MAIN MAIN ELECTRICAL ELECTRICAL CIRCUITS CIRCUITS

+0.00

MAIN MAIN CENTRAL CENTRAL HEATING HEATING CIRCUITS CIRCUITS NATURAL NATURALGAS GAS ALIMENTATION ALIMENTATION CIRCUIT CIRCUIT

S1

+0.00+1.70

+1.70

S1

S1

LIQUID LIQUIDFERTILISER FERTILISER ALIMENTATION ALIMENTATION COMPOST COMPOSTOUTPUT OUTPUT FROM FROM ANAEROBIC ANAEROBIC DIGESTER DIGESTER NATURAL NATURALGAS GAS ALIMENTATION ALIMENTATION CIRCUIT CIRCUIT RANDOM SPACE CONFIGURATION

LIQUID LIQUIDFERTILISER FERTILISER ALIMENTATION ALIMENTATION COMPOST COMPOSTOUTPUT OUTPUT FROM FROM ANAEROBIC ANAEROBIC DIGESTER DIGESTER

+1.70

+1.70

PERIMETRAL SPACE CONFIGURATION

+0.00

+0.00

S2

S3S2

S3

INDUSTRIAL ECOSYSTEM - SYMBIOTIC RELATIONSHIPS

FUNCTIONS, TECHNOLOGIES, PROCESSES, PRODUCTS AND BYPRODUCTS - INPUT AND OUTPUT ELEMENTS

CENTER FOR CONTEMPORARY ART IN BERLIN

AXONOMETRIC SCHEME

FACADE SYSTEM : first skin - translucent enclosure

STRUCTURAL SYSTEM : structural reinforced concrete pillars

MAIN VERTICAL CIRCULATION STRUCTURAL WALL : second skin - opaque enclodure

SERVICE BLOCK AREA ROOF STRUCTURE : natural light filtering system FIFTH FLOOR : permanent exhibition FOURTH FLOOR : permanent exhibition THIRD FLOOR : temporary exhibition SECOND FLOOR : temporary exhibition

FIRST FLOOR : temporary exhibition + auditorium GROUND FLOOR : museum bookshop UNDERGROUND FLOOR : reception and cafeteria

STRUCTURAL WALL : second skin - coloured panels enclodure

STRUCTURAL SYSTEM : structural reinforced concrete pillars

FACADE SYSTEM : first skin - translucent enclosure

ELEVATIONS AND SECTIONS ELEVATION TOWARDS THE PIAZZA

FINAL FLOOR PLANS PERMANENT EXHIBITION - detailed plans, structural grid, modules, units FOURTH FLOOR PLAN + 20.00 m

LONGITUDINAL SECTION OF THE MUSEUM

FIFTH FLOOR PLAN + 25.00 m

GROUND FLOOR PLAN + 0.00 m

ARCHITECTURAL DESIGN STUDIO 2 Location : Berlin, Michaelbruecke Professors : Stefan Vieths, Matteo Aimini, Nicolo Riva Teamwork : Ioana Leordean, Elisa Borghi, Marco Cioni TECHNICAL DATA : Total territorial area : 12.000 sqm Status of the area : semi-abandoned Functional program : The main element of the project is the museum and exhibition space, in addition to this the functional program should include an auditorium, research institute and artist’s residences. The museum building is working as a compact independent volume articulated to the other volume through a connecting element: the portico. The portico goes all around the central piazza, through both buildings and then continuing through the linear park as a linear element – the pergola - defining the urban built limit of the urban island and giving continuity to the development.

TEMPORARY EXHIBITION - CENTER FOR CONTEMPORARY ART BERLIN The museum building is working as a box with perimetral circulation, the exhibition is developing in the central part of the building between the lateral load bearing structure, which is defining the building and contains circulations and auxiliary spaces between the structure and the outer enclosure. The spatial sequence is developing around the main staircase which is sustaining the logical sequence of the different main functions of the building. The functional distribution is clearly defined by the main staircase which is acting like a promenade with different functions, events or spaces along the way. The space of the museum and the structural elements are defined by a 0.8 x 0.8m module which is then composed into a spatial unit of 3 x 2 modules (2.4 x 1.6m) that is used to structure the space of the exhibition area in terms of partitioning and also lighting and roofing systems. The volumetry of the art centre develops as a “U� shape footprint defining the central piazza. The treatment of the facades express an introverted attitude towards the context, the facades facing the external context are more closed, opaque, while the facades facing the inner piazza are open, translucent, transparent.

TEMPORARY EXHIBITION SPATIAL LAYOUT AND CIRCULATION TEMPORARY EXHIBITION SECTION

03. FIRST PHASE

REDESCOVERY OF ORIGINS, INNER CHILD AND LUDIC CREATION

04. SECOND PHASE

PLAYFUL DIMESION OF DISCOVERY OF THE WORLD THROUGH GAMES

05. THE CHANGE

THE THEME OF EVOLUTION IN LIFE AND MATURISATION

06. MATURE CREATIVITY

FULL EXPLORATION OF THE INNER CAPABILITIES IN A TOTALIZIN ENVIRONMENT

TEMPORARY EXHIBITION PLANS FIRST FLOOR PLAN

02. INTRODUCTORY VIDEO

GENERAL CONDITION OF HUMANITY IN RELATION TO THE TECHNOLOGICAL MACHINES

01. INITIATION OF THE JOURNEY

TRANSPASSING THE LIMIT OF PHISICALITY AND ENTERING THE DIGITAL REALM

SECOND FLOOR PLAN

THIRD FLOOR PLAN

07. THE ENLIGHTENMENT

FINAL EXPERIENCE OF SELF DISCOVERY THROUGH THE VISION OF OUR ROOTS

MILAN HUB FOR URBAN SPORTS

PROJECT DEVELOPMENT AND FINAL OUTCOME ARCHITECTURAL DESIGN STUDIO 1 Location : Milan, Ripa di Porta Ticinese Professors : Poli Matteo Umberto, Nash Roy, Mazzoni Riccardo TECHNICAL DATA : Total territorial area : 45.000 sqm Status of the area : semi-abandoned, site is indicated for urban renewal processes according to Ri- formare Milano project

FINAL MASTERPLAN

The project development area is located in Milan, near Porta Genova which is a strong intermodal point for rail, metro and tram, and near to the Navigli area of the canals, which is a very particular Milanese landscape. The project area consists of an isolated building plot inside the park, on the building plot there is an abandoned residential block, which is sometimes referred to as “casa occupata” (temporary lodger’s house). One of the difficulties observed in the area is the disconnection of the site area from the north proximity, here the railway and canal are acting as a barrier to the north side and the existing bridge over the canal is mainly for cars and it’s a source of congestion. While bike paths are proposed in this area, there is still a strong problem of accessibility and connectivity for bikers and also for pedestrians. Also the only crossing point for the railway is a small fragile bridge near Porta Genova that can hardly sustain the pedestrian traffic and is improper for bike access. Thus the first proposal is about implementing a new infrastructural element that will connect the surrounding areas and site, improve accessibility to our site on an urban scale (by public transportation, bicycle and walking) and decrease congestion. The proposal is a new bridge in an optimal position that is crossing railway and canal, combines pedestrian and bicycle flows of circulation, offering flexible interchange of means of transport and accessibility to surrounding areas and The hub for urban sports. The public infrastructure is merging with the other elements of the proposed development: the existing building’s structure integrated with the new volume of the hub for urban sports and the new landscape proposal for the existing park. “The Hub” is a context adapted structure that has multiple access points, some specialised or mixed, the logic of the building is working with the infrastructure, the existing building as well as with the park, it is flexible to be open publicly and partially closed in private areas. The ground floor of the hub is open and accessible both from the street and the park and it includes a skating pool that is integrated with the surrounding park. The existing building’s structure has been proposed for reinforcement to support the merge, the functions inside it are mainly private while the rest of the hub is semipublic or public space. The concept of the hub is “box in box”, the internal functions are contained in boxes inside a bigger envelope that integrates everything (existing building and infrastructure). All of the internal “boxes” are accessible through the spiral ramp that is piercing through all the spaces organised around the main central atrium that is open to the ground floor below. The central open atrium inside the hub creates visual and physical connections between functions, and has the logic of opening all active functions towards each other.

PARAMETRIC DESIGN AND DIGITAL FABRICATION WORKSHOP EXTRA CURRICULAR WORKSHOP The course proposes an alternative approach to traditional design techniques and develops the relationship between creativity of architectural practice and the capacity of new digital tools. Through a series of lectures, guided exercises and tests, seeking understanding, implementation and creative development of projects using current digital technologies. During the course students examined topics such as parametric design / algorithmic, formal approach, digital manufacturing and how these can be integrated into architectural practice. The research, conducted in groups of students, was materialized through projects, discussed and developed in the course. The final project was exhibited at the Bucharest Architecture Annual 2013.

HOTEL POIANA BRASOV ARCHITECTURAL DESIGN STUDIO 4 Location : Poiana Brasov, Romania Poiana Braşov is located at about 1,200 m above sea level near the city of Braşov in Romania and it is surrounded by mountains. This particular destination is an important tourist center. The site represents a natural landscape extended on a total surface of 5000 square meters that has a natural inclination of approximately 20 degrees. The concept of this project relies on creating an architectural object that is inspired by natural form for a coherent integration in the context. The hotel’s volumetry is a compact form that has been thought out this way to ensure thermal comfort. The shape is a mineral inspired stylization of a mountain rock. The main volume of the hotel is multi-faceted shape that ensures various views of the natural landscape. The volumetry of the hotel integrates a large scale atrium that “splits” the massive form into two halves. Inside the atrium there are smaller enclosed volumes and corridors on each floor that establish the link between the two halves. The volumes that penetrate the atrium create a certain spatial dynamic while the transparency of the enclosure of the atrium creates a visual connection to the natural context. Poiana Brasov is one of the preferred locations for team buildings, conferences and other social activities, thus the hotel was conceived to accommodate various public and semi-public spaces to serve these functions. The hotel’s atrium integrates the spaces that serve these functions: conference rooms, auditorium, video projection room, lounges, bars, belvedere (on the sixth floor).

GROUND FLOOR PLAN

FIRST FLOOR PLAN

EAST ELEVATION

SOUTH ELEVATION

LONGITUDINAL SECTION

TRANSVERSAL SECTION

THIRD FLOOR PLAN

FIFTH FLOOR PLAN

TECHNICAL PROJECT ARCHITECTURAL TECHNOLOGY STUDIO - ARCHITECTURAL DETAILING Teamwork: Ioana Leordean, Alice Ionita This project represents the second phase of a previously developed project for collective dwellings in Bucharest. The goal of this second phase is to make the appropriate choices in terms of technologies for the buildings envelope in order to make it energy efficient. The types of products and components for the envelope have been chosen depending on thermal efficiency calculations and the interventions have been corelated with the architectural detailing phase.

D1

D2

D3

HIGH COMFORT COLLECTIVE DWELLINGS ARCHITECTURAL DESIGN STUDIO 4 Location : Bucharest This project targets establishing a coherent relationship between architectural intervention and context. The general theme focuses of the development of collective dwellings in a protected area. The site is an urban island that is part of a larger ongoing urban regeneration project. The area proposed for the study is an area where most of the existing constructions were demolished and only a few isolated houses remain. During the conceptual phase of this project the goal was to develop the general volumetry and functional distribution for the dwellings and also consider and establish a way to keep the general character of the area. The approach to this problem was chosing the former and existing constructions that have aesthesic value to the character of the area and submitting them to rehabilitation and functional convertion, thus integrating them in the collective dwellings project. The concept of the project is based on the idea of creating a “collective dwellings bridge”. The term “bridge” illustrates the idea of building over the existing constructions, framing them and thus enhancing their aesthetic value. By mainly building on the site’s limites, I have created a semi-public enclosure (courtyard) that can be accessed through the multiple perforations that break through the monoblock type volumetry. The variety of apartment types is a result of creating an functional module unit that integrates itself into the structure and can be displaced in various positions. The spatial arrangement of the apartments is similar to a three-dimensional puzzle.

LONGITUDINAL SECTION

DUPLEX APARTMENT FIRST LEVEL

NORTH ELEVATION

GROUND FLOOR PLAN

DUPLEX APARTMENT SECOND LEVEL

CULTURAL CENTER ARCHITECTURAL DESIGN STUDIO 3 Location : Bucharest This project represents the development of a cultural center built as a memorial for the Romanian writer Mircea Eliade. The concept of this project relies on translating spatial perception into physical form and architectural space. The general image of the center leans towards an introverted architecture as the exterior perception of the built environment reveals a very small part of what the interior space can accommodate. This creates a virtual invitation to discover the interior space, the perception of the interior is very different. The cultural center consists of a spatial path that develops along the site’s limits and enclosed volumes that emerge along the path. The truncated pyramid volumes accommodate the major functions of the cultural center (library, small amphitheater, coffee shop and hostel) while the spatial path accommodates temporary exhibitions. Each volume is illuminated during the day through a skylight. The exterior configuration of the cultural center is an urban space that resembles a large scale open auditorium. The exterior space was created in a manner that ensures the transition from public to private space.

LATERAL ELEVATION

TRANSVERSAL SECTION

FRONTAL ELEVATION

LONGITUDINAL SECTION

GROUND FLOOR PLAN

FIRST FLOOR PLAN