Portfolio by Pierluigi Turco

pierluigi turco portfolio architect / environmental analyst

PROFILE

PIERLUIGI TURCO Architect / Sustainable Design Consultant Address 51a, Templars Avenue, NW11ONU, London (UK) Mobile +44 (0) 7502233141, +39 3881930667 Email_ pierluigiturco@pec.it D.o.B._ 30/04/1988 Nationality_ Italian Driving License_ B

PROFESSIONALEXPERIENCE JULY - SEPTEMBER 2014

Freelance Environmental Consultant at COTTONE+INDELICATO ARCHITECTS Collaboration_Guggenheim Helsinki Design Competition, (Finland) Environmental design analysis of the project, focusing on the combination between passive and active strategies, with particular interest on wind control for outdoor comfort, orientation, solar radiation, ventilation and daylight studies in the exhibition spaces.

FRBRUARY - MAY 2013

Intern at ADNS Arkitekti. Prague (Czech Republic) Collaboration Blue Rockery Mix Use Building (Prague) Nupharu Scientific Park (Prague) Competition. Requalification of Area Mazzoleni (Bergamo) Main duties ranged from creating conceptual design and developing architectural drawings and plans to generating technical detailing drawings and specifications.

MAY - DECEMBER 2012

Freelance Architect Competition Riqualificazione dei Bevai Comunali. Cinisi (Italy). In collaboration with Arch M.Trovato, Arch. A. Siragusa. 1st prize and realization. Urban requalification of the city of Caldonazzo. Trento (Italy). (Masterplan and landscape competition). In collaboration with STUDIO LMN, Eng. A. Calamia, Eng. D.B.Tulone 1st prize. Daegu Gosan Public Library. Daegu (Korea). In collaboration with STUDIO LMN, Eng. A. Calamia. Urban Requalification of Pal첫 City Centre. Verona (Italy). In collaboration with Arch. M.Trovato, Arch. L. Failla, Eng. L. Iraci Honorable Mention A Monument for Archimede. Siracusa (Italy) (Art competition). In collaboration with Arch. A. Siragusa The Tree House in Malga Boiara. Trento (Italy) In collaboration with Arch. A. Siragusa Expansion of the Cemetery of Altavilla Milicia. Palermo (Italy) In collaboration with Arch. A. Siragusa, Eng. A. Calamia.

OCTOBER 2012

License to practice Civil Engineering

ACADEMIC QUALIFICATIONS 2013 / 2015

MArch Sustainable Environmental Design Architectural Association School of Architecture, London Environment & Energy Studies Programme Modules: Building Examples and Case Studies, City microclimates (Design of Outdoor Spaces), Comfort (Post-Occupancy Evaluation and Behavioural Studies), Daylighting, Environmental Engineering, Environmental Design Principles, Environmental Targets and Benchmarks, Environmental Analysis (Tools and Data), Environmental Assessment, Materials and Construction Techniques, Passive Heating and Cooling, Sustainability Theories and Issues, and Ventilation. MArch THESIS. Rethinking Migration. Primary School and Migrant Centre in Lampedusa.

MAY - SEPTEMBER 2013

Scholarship for a Specialization Course Abroad. Paris,Ecole National Superieure d’Architecture de Paris Malaquais (ENSAPM), Research. Radical Architectures in Paris. Architectural story-projects to interpret the current social scenario in Paris. Tutor Prof. Luca Merlini (Prof. Titulaire at ENSAPM and architect).

SEPTEMBER 2012 JANUARY 2013

Tutor at the course of Architectural Design 5. Faculty of Architecture, University of Palermo (UNIPA), Italy. Prof. Ing. Arch. Antonino Margagliotta

DECEMBER 2012

Honorary Fellowship in Architectural Design, Faculty of Architecture, University of Palermo (UNIPA), Italy.

2006 - 2012

Bachelor’s Degree in Architecture and Construction Engineering Five-year Professional Degree, RIBA part II equivalent University of Palermo (UNIPA), Italy. Modules: Mathematical Analysis 1, Geometry, Theory of CAD, Architectural Representation Techniques 1, General Physics, Mathematical Analysis 2, Chemistry / Technology of Materials, History of Architecture, Architectural Representation Techniques 2, History of Contemporary Art and Architecture with Laboratory, Urban Sociology/Public Works Regulations/Urban Law (Integrated Course), Rational Mechanics, Town Planning Workshop, Construction Theory, Environmental Technical Physics, Engineering Design Project 1, Hydraulics and Hydraulic Construction, Economic Valuation for Building Constructions, Town Planning Technique (Studio Project), Architecture Project Design 2 with Laboratory (Studio Project), Prefabricated Structures, Geotechnical Engineering, Applied Construction Workshop, Yard Organisation with Laboratory, Engineering Design Project 3 with Laboratory, Architectural Project Design 3 (Studio Project), Architectural Restoration (Studio Project), Town Development Planning (Studio Project).

OCTOBER - NOVEMBER 2012 Ecole National Supérieure d’Architecture Paris-Malaquais (ENSAPM) Scholarship for the development of the final thesis “Centre Pompidou in Paris, new spaces for researchers”; Tutor Prof. Luca Merlini (Prof. Titulaire at ENSAPM and Architect) Prof. Antonino Margagliotta (Prof. Associato UNIPA and Architect) 2009 - 2010

Studies of Architecture at Vilnius Gedimino Technikos Universitetas (VGTU) Vilnius (LT). Erasmus Socrates Exchange Programme Modules: Urban Development Project for Small Town, Construction Economics anWd Organization, Masonry Structures, Design of Single Family House, Interior Design, History of Lithuanian Architecture, Lithuanian Language, Project of Leisure Centre/Complex in Natural Environment (Course Project), Soil Mechanics.

ADDITIONAL QUALIFICATIONS MAY 2011

Workshop - “Il territorio oltre lo stretto. Pensare un unico paesaggio_Progettare un unico territorio” International workshop, tutor Olaf Gipser, Olaf Gipser Architects

AUGUST 2013

International Eneglish Language Testing System (I.E.L.T.S.) Result 6.5

JUNE 2001

Spoken English for Speaker of Other Language (Trinity College) Grade 3

MAY 2001

Fit in Deutsch I (German Language Diploma) Level A1

PUBLICATIONS 2013

Luigi Failla, Marco Trovato, Antonino Siragusa, Pierluigi Turco. San Cristoforo Smart, in Alessandro Franceschini (a c.), «Progettare il lungolago. Il progetto di riqualificazione del territorio comunale prospicente il lago di Caldonazzo - Catalogo dei progetti del concorso di progettazione», Ed. Comunali, Pergine Valsugana, 2013, pp. 18-25.

KEY SKILLS AND COMPETENCES LANGUAGES

ITALIAN Native language ENGLISH Fluent. IELTS 6.5 FRENCH Intermediate SPANISH Intermediate GERMAN Beginner A1

COMPUTER SKILLS

AUTOCAD (2D/3D) Advanced ECOTECT ANALYSIS Advanced ECOTECT + DAYSIM Advanced ECOTECT + RADIANCE Advanced ECOTECT + WINAIR Advanced EDSL TAS Advanced TAS AMBIENS (CFD) Advanced ENERGY PLUS (OPEN STUDIO) Intermediate ENVI-MET Intermediate GRASSHOPPER + GECO Advanced ADOBE PHOTOSHOP Advanced ADOBE INDESIGN Advanced ADOBE ILLUSTRATOR Advanced SKETCHUP + VRAY Advanced RHINOCEROS Intermediate 3DS MAX Intermediate ARTLANTIS STUDIO Intermediate MICROSOFT OFFICE PACK Advanced

PERSONAL SKILLS Willingness to respond to circumstances and work extra hours if required Pro-active approach to work Able to work as part of a team or individually Ability to prioritize and plan effectively Good communication and presentation skills Ability to produce quality technical and production drawings Flexible and willing to travel REFERENCES

Prof. Dr. Simos Yannas Environment & Energy Studies Programme Director Architectural Association Graduate School 34-36 Bedford Square London WC1B 3ES Phone. +4420 20 7887 4000 e-mail: simos@aaschool.ac.uk Prof. Arch. Luca Merlini Architecte EPFZ/FAS, Professeur (TPCAU) à l’ENSA Paris-Malaquais. Architecte co-fondateur de l’agence M+V, Merlini & Ventura architectes. 14, Rue Bonapart 75272 Paris Cedex Phone. +33 (0) 155040650 e-mail: lmerlini@noos.fr Prof. Arch. Antonino Margagliotta Ing. Arch. Ph.D Prof. of Architectural and urban Composition Facoltà di Ingegneria - DARCH Viale delle Scienze, Edificio 8 - 90128 Palermo antonino.margagliotta@unipa.it

selected projects

“Guggenheim Helsinki Design Competition” Helsinki (FINLAND), 2014 with COTTONE + INDELICATO Architects

“Borislaska Mix Use Building” Prague (CZECH REPUBLIC), 2013 with adns Architekti

“Daegu Gosan Library international competition” Daegu (KOREA), 2013

“Ideas competition for the revitalization of the village of S.Cristoforo al Lago” Trento (ITALY), 2013 WINNER

“Fulham Wharf Mix Use Design” MArch Sustainable Environmental Design Term II project Architectural Association

“Rethinking Migration. Primary School and Migrant Centre in Lampedusa” MArch Sustainable Environmental Design Dissertation Architectural Association

“The Pompidou Center in Paris. New Spaces for Researchers“

Final Project (2012) in collaboration with E N S A P M, Paris

“Guggenheim Helsinki Design Competition” Helsinki (FINLAND), 2014 with COTTONE + INDELICATO Architects

Wind and sea merge together to give form to a new iconic building, light and dynamic, expression of the spirit / identity of Helsinki The new Guggenheim Helsinki museum set down along the port water front between the city border,TähtitorninVuori park and the sea. The building has a waved roof, that recalls the wind and the sea, two natural elements constant in the Helsinki landscape,and corroborates the Finland’s strong connection between architecture and nature; the roof, higher in the west side (facing the park) softly slides down toward the sea. The building includes preliminary environmental principles such as natural daylight and ventilation. W

5 6

PASSIVE/ACTIVE STRATEGY A. Perimeter air diffuser to prevent condensation on the windows. B. Main area heating and cooling delivered by air based system via raised floor. Internal heat gains from occupants are driven in the upper part of the room, promoting the stratification of the hot air in the unoccupied area. C. Return air for displacement ventilation system taken via upper floors voids through the exhaust stack.

LEGEND 1. Tall windows operated by CO 2. Tall exhaust stack to save fun 3. Rooflights to prevent direct s toward the exhibition spaces. T as a thermal buffer space to red loss. 4. The geothermal system takes advantage of the thermal mass ground. 5. Connection to the public netw 6. Rainwater harvesting system water for cleaning, WCs and irr 7. Operable wind barriers drive flow above the roof, promoting comfort in case of planned even

LEGEND 2 sensors sensors operated by CO2 sensors Odows operated 1. byTall CO2windows aust n energy stack to save 2. Tall fun exhaust energy stack to save fun energy hts sunlight to prevent direct 3. Rooflights sunlight to prevent direct sunlight They e exhibition work spaces. toward They thework exhibition spaces. They work mal duce buffer heatspaceas to areduce thermal heat buffer space to reduce heat loss. sthermal system4.takes The geothermal system takes s of the thermal advantage mass of theof the thermal mass of the ground. tion work.to the public5.network. Connection to the public network. mtercollects harvesting system 6. Rainwater collectsharvesting system collects cleaning, rigation. WCs and water irrigation. for cleaning, WCs and irrigation. ethe wind air barriers 7. drive Operable the airwind barriers drive the air eoutdoor the roof, promoting flow above outdoor the roof, promoting outdoor C. of plannedcomfort nts. case events.in case of planned events.

7 6

5 6

E/ACTIVE STRATEGY PASSIVE/ACTIVE STRATEGY

eter air diffuserA.toPerimeter prevent air diffuser to prevent tion on the windows. condensation on the windows.

area heating andB.cooling deliveMain area heating and cooling deliver based systemred via by raised floor. system via raised floor. air based heat gains fromInternal occupants heat are gains from occupants are the upper part of the room, driven in the upper part of the room, g the stratification of the hot promoting theair stratification of the hot air occupied area. in the unoccupied area.

n air for displacement C. Returnventilaair for displacement ventilaem taken via upper floors voids tion system taken via upper floors voids he exhaust stack. through the exhaust stack.

TRATEGY/OUTDOOR COMFORT WIND STRATEGY/OUTDOOR COMFORT

15° 11.1 m/s

t shape attracts The the port winds shape attracts the winds om southeast especially during coming from southeast especially during and spring. summer and spring.

ve” shape of the designed Theroof, “wave” shape of the roof, designed help of CFD simulations, drives with the help of CFD simulations, drives flow above thethe roof. wind flow above the roof.

egy create a microclimate This strategythat create a microclimate that the comfort improves of the visitors the comfort of the visitors door exhibitions are planned. when outdoor exhibitions are planned.

CITY

8.3 m/s

30°

CITY

5.5 m/s

15° 11.1 m/s

PRELIMINARY DAYLIGHT STRATEGYDAYLIGHT ST PRELIMINARY

30°

8.3 m/s 60° 5.5 m/s

The design maximes The natural daylight design maximes natural while preserving thewhile masterpieces preserving the mas exposed. exposed.

60°

75° PROTECTED DIRECTIONS

75°

PROTECTED DIRECTIONS 105° PARK

PARK

165°

150°

LEGEND LEGEND 2 sensorsoperated by CO 1. Tall windows operated1.by TallCOwindows 2. Tall exhaust stack to save energystack to save fun 2. Tallfun exhaust 3. Rooflights to prevent 3. direct sunlightto prevent direct s Rooflights toward the exhibition spaces. work towardThey the exhibition spaces. T as a thermal buffer space reduce heat astoa thermal buffer space to red loss. loss. 4. The geothermal system takesgeothermal system takes 4. The advantage of the thermaladvantage mass of the of the thermal mass ground. ground. 5. Connection to the public network. to the public netw 5. Connection 6. Rainwater harvesting6.system collects Rainwater harvesting system water for cleaning, WCswater and irrigation. for cleaning, WCs and irr 7. Operable wind barriers the air 7. drive Operable wind barriers drive flow above the roof, promoting outdoor flow above the roof, promoting C. comfort in case of planned events. comfort in case of planned even

SUMMER/SPRING WINDS

120°

105°

SUMMER/SPRING WINDS

120°

165°

Having set a minimum daylight factor of Having set a minimum daylight 2% for the communal 2% spaces, for the thecommunal spa museum ensures 250 Lux for 75%ensures of the 250 Lux for 75 museum occupied hours (grey area in the graph). occupied hours (grey area in the

The simulation on the The rightsimulation shows anon the right Helsinks average DF of 2,5% for the lobby,DFgallery average of 2,5% for the lobb and atrium. and atrium.

150°

Helsinki. Yearly Wind Frequency Helsinki. Chart Yearly Wind Frequency Chart

comfort

ulation depictingCFD wind velocity around thewind building for aaround wind coming from southeast. simulation depicting velocity the building for a wind coming from southeast.

comfort m/s

5.0+ 4.5 4.0

ADAPTIVE DAYLIGHTADAPTIVE STRATEGYDAYLIGHT STRAT

3.5

3.0

2.5

A motorized system of louvers can moduA motorized system of louvers c late the diffuse light into latethe theexhibition diffuse light into the e spaces. spaces.

2.0

1.5

1.0

0.5

0.0

m/s

0.0

The rooflight is designedThe to avoid glare. rooflight is designed to avo

Lighting simulation tools showsimulation the Lighting tools s illuminance values in different climatic illuminance values in differen conditions in Helsinki conditions in Helsinki

o 2 1

3 3

2 2

4 4

O2 sensors energy On2 sensors sunlight n energy They work sunlight ducework heat They

duce heat s ssof the s of the work. mwork. collects mrigation. collects the air rigation. outdoor the air nts. outdoor

7 7 6 6

nts.

TRATEGY

0.00

TRATEGY l daylight sterpieces l daylight

0.00

sterpieces

t factor of aces, t factorthe of 5% of the aces, the e5% graph). of the

e graph). shows an by, gallery shows an

by, gallery

70 Klux

20 20

M A

30 30

10.0

09.00 open 09.00 open

70 Klux

10.0

50 60 50

Helsinki. J F Illuminance M A levels M J

20.00 close 20.00 24.00 close

Av. 2,5 %

24.00

Av. 2,5 %

Helsinki. Illuminance levels

DF % 0.0 DF % 0.0

TEGY

950

950 850

oid glare. can moduexhibition can modu-

850 750

750 650

exhibition

650 550

show the nt climatic show the nt climatic

550 450

450 350

TEGY oid glare.

overcast sky 21 December overcast sky 11:00 21 December 11:00

350 250 Louvers inclination 0째 Louvers inclination 0째

250 150 Lux

150 50

Lux

sunny sky 21th June sunny sky 12:00 21th June 12:00

350 250 Louvers inclination 45째 Louvers inclination 45째

250 150 Lux

150 50

Lux

“Borislaska Mix Use Building” Prague (CZECH REPUBLIC), 2013 with adns Architekti

The proposal for the “Borislaska Mix Use Building” is the result of a private competition for a mix use building in Prague. The building hosts offices and retails in connection with the tube network of the city. The massive program is concentrated in a building that creates a covered space open to the public from the first to the third level. Environmental passive and active strategies are included by means of three tringular courtyards, which create transitional spaces promoting natural ventilation, daylight and green spaces within the building.

“Daegu Gosan Library International Competition” Daegu (KOREA), 2013

The building is a pure volume that is deformed under the pressure of the “Urban Forces” present on the site. The project incorporates the concept of the “spiral of time and knowledge”. The functional distribution starts from a first level, based on a free and open distribution and then goes gradually towards more traditional form of reading spaces. The building is conceived as an open space: the ground floor of the Library, the newspapers and news area, is completely transparent, offering passers-by the chance to see the people, the life and activities taking place within it, pointing out that the Library is a fragment of the city.

“Ideas competition for the revitalization of the village of S.Cristoforo al Lago” Trento (ITALY), 2013 WINNER

The proposal for the revitalization of S. Cristoforo comes from an economic and urban strategy. The request of the administration was to propose a sustainable development of the village respecting the beautiful landascape of the lake of Caldonazzo. “According to different potential users and activities suitable for all the year, the project defines a program of new buildings connected with the existing network. It is appreciate the idea of a low density urban solution, as it suit to the existing urban tissue. Activities and buildings are strictly related with nature and agriculture, and respect them in order to get as much benefit as possible for the economy” Jury’s motivation.

UTENTI

ATTIVITĂ&#x20AC;

RISORSE

escursioni

fotografia

lago

campeggio

lago

campeggio

lago

pesci

naturalista

gite

passeggiate

campeggiatore

bagni

nuoto

sportivo

canottaggio

sci nautico

ciclismo

agro-turista

giardinaggio

raccolta

mangiare

agricoltura

famiglie

bagni

passeggiate

mangiare

lago

residenti

ciclismo

nuoto

vela

pesca

STRATEGIE

sagre/feste

biotopo

animali

montagna

albergo diffuso avvistamento zoo acquario

lido balneare

el dos

water front

water front parcheggio camper

dormitorio

CUS

biomercato

biohotel

albergo diffuso lido balneare

traffico limitato

piste ciclabili

parcheggi

water front

zoo acquario

avvistamento

piste ciclabili servizio infantile centro servizi

Inserimento della nuova rete di spazi pubblici

NUOVO LIDO. Ribalta la logica del precedente edificio e costituisce parte integrante della passeggiata lungo lago. Definisce un ambito pubblico e aperto ad ogni tipo di utenza.

Inserimento del costruito

Il cuore centrale del paese viene mantenuto e rafforzato con un centro servizi.

Nuovi edifici ed edifici da demolire

Nuovo verde di progetto

Rete della viabilità carrabile e ciclopedonale carrabile ciclopedonale pedonale carrabile a traffico limitato parcheggi

La zona centrale si configura come un villaggio in cui alle attività primarie di coltivazione degli orti si associano microeconomie e b&b : un bioparco che rispetta la vocazione del luogo senza rinunciare alla risorsa turistica. Hotel/dormitorio e asilo/centro culturale per bambini.

Case private e b&b per uno sviluppo economico diffuso

Albergo ecologico diffuso : ogni ospite ha un proprio orto e un frutteto comune.

Il nuovo centro CUS ha il minimo impatto sul lago. In parte interrato ospita una piscina con una copertura apribile o meno in base alle stagioni, oltre che i servizi necessari alle attività sportive analizzate.

Il MUSEO DEL BIOTOPO. Riprende l’andamento delle darsene ed è concepito come uno spot per l’avvistamento delle specie a divere quote d’altezza.

microeconomie Il market biologico è un luogo di produzione e vendita per conoscere i prodotti finiti della terra che gli ospiti stessi coltivano.

Frutteti e orti urbani biologici possono rappresentare una notevole risorsa per il turistmo gastronomico e naturalistico

089173 TAV 1

Fulham Wharf Mix use development II Term project MArch Sustainable Environmental Design Architectural Association School of Architecture GRADE A The aim of this research is to combine the knowledge acquired during Term 1 and learnt from the weekly lectures, workshops and published literature in order to generate an architectural proposal based on the principles of environmental design. All the choices undertaken have been informed by the principles learned from the previous work, as well as from the analysis of existing built references and analytic work conducted for this specific work. This process has helped to explore and test new design solutions trying to push forward the standards of social, economical and environmental sustainability.

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21st June

21st September

23rd December

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=$%&<'

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â&#x20AC;&#x153;Rethinking Migration. Primary School and Migrant Centre in Lampedusaâ&#x20AC;? Dissertation MArch Sustainable Environmental Design Architectural Association

GRADE A The island of Lampedusa, 20 km2, represents the main gateway towards Europe for thousands of African and Middle-East migrants seeking for asylum. Current national and international policies tend to hide the phenomenon financing the segregation of the refugees in the first aid centres without investing in the local community. This results in increased social contrasts. A time based strategy inspired by the seasonality and the climate of the island is proposed to redefine the future of Lampedusa starting from its human resources and encouraging the expression of its social, environmental and economic potential. As part of this strategy, this dissertation combines a primary school for both locals and migrants, with a migrant centre, exploiting the use of outdoor spaces to create a geography of proximity that shapes places for the encounter, dialogue and participation, and generates integration by the exchange of knowledge.

17 13

+0.00

16 2

9 10 +0.00

-0.40

11 9

10 11

-0.70

-1.40

10 11

1.MAIN ENTRANCE 2.SERVICE ENTRANCE 3.OFFICES (migrant documentation) 4.INFIRMARY 5.KITCHEN STORAGE 6.KITCHEN 7.CANTEEN 8.CUSTODIAN HOUSE 9.LAUNDRY

10.SOCIAL SPACE 11.COURTYARD 12.CHILDREN PLAYGROUNG 13.CLASSROOM 14.WORKSHOP 15.GYM 16.CAFETERIA 0 17.SCHOOL OFFICES 18. AGRICULTURE

20 m

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($$3%.($%$/9-'8$1%40%'(1$(%5'%406($.3$%5#$%:43).-%6'/@ " #%" & ! ' % , * &" % +#"&(% (% !

'0% =.3% 6#$6C$1% 5#(')*#% 34/)-.54'03% +'(% 5#$% =405$(% " ' "& '% & "! ' "(%', % & , ! !' &" % % ' "! (% ! ' * !' % '% & " !"' ' % ' , ' ) ( & (& ! & " &" % % ' "!

!FVMM

!LVMM

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Wind simulation for different sections of the complex. Source WinAir + Ecotect

!,-!./0"0-1,23-#0-+!/"40),5-"!"#$%!"#&

Solar radiation on the complex. Effect of shading devices. Source Ecotect

!TVMM

corridor

12m2

corridor

U VALUE (W/m K) WALL: 0.56 FLOOR: 0.59 WINDOWS: 2.70 ROOF: 0.34

U VALUE (W/m2K) WALL: 0.56 FLOOR: 0.59 WINDOWS: 2.70 ROOF: 0.34 DOOR 0.7

12m2

Analytic work . Temperature for a typical winter week and effect of different strategies on a typical summer week

44mm 4m

POST DESIGN STUDIES

33mm 3m

1. basecase 1. basecase 1. basecase 1+ shading 2. 1+ 2. shading devicedevice 2. 1+ shading device1. basecase 1. basecase ventilation 1+2+ 1+2+ ventilation 1+2+ ventilation °C

overhang 3. 2+Vertical overhang3. 2+Vertical overhang 1.2.1+horizontal basecase 2.1+horizontal overhang 3+ventilation 2.1+horizontal overhang 3. 2+Vertical overhang 3+ventilation 3+ventilation 3+ventilation

°C

°C 32 1. basecase 2.1+horizontal1. overhang 3. 2+Vertical overhang 1. basecase basecase 30 3+ventilation 3+ventilation 3+ventilation 28 26 26 26 24 24 24 22 22 22 20 20 20 18 18 18 16 16 16 14 14 14 12 12 12 10 10 10 kWh/m kWh/m 8 8 8 1000 1000 900 900 6 6 6 800 800 700 700 600 600 4 4 4 500 500 400 400 2 2 2 300 300 200 200 0 0 0 100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 201 212 223 234 245 23 24 1 2 1 3 2 4 3 5 4 6 5 7 6 8 7 91 810 2 911 31012 4 1113 51214 61315 71416 81517 91618 101719 111820 121921 132022 142123 152224 16100 17 18 19 20 21 22 23 24 0 0 1 20 2 21 3 22 4 23 5 24 6 7 8 18 11 19 12 20 13 21 14 22 15 23 16 24 17 18 19 20 21 22 23 24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 20 13 21 14 22 15 23 16 24 17 18 19 19 102 113 412 135 146 157 168 179 10 12 1 2 3 4 5 6 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19Diffuse 20 21Horizontal 22 23 24 Outdoor T Outdoor T Diffuse Horizontal Radiation Radiation

32 321. basecase 3. 2+Vertical30 overhang 302. 1+ shading device 3+ventilation 28 281+2+ ventilation

Fig. 8.14. View of the complex from the exterior. Southwest and southest facades. 2

44mm

Publ

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Direct Horizontal Radiation

Comfort Band

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7 1 8 2 9 3 10 4 11 5 12 6 8

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Fig. 8.13. South west room. Effect of the shading devices POST DESIGN STUDIES

44mm

Fig. 8.12. South est room. Effect of the shading devices 4m

N STUDIES

Direct Horizontal Radiation

Comfort Band

ate

Priv

POST DESIGN STUDIES

POST DESIGN STUDIES 3m

33mm

44mm

44mm 4m

33mm

m/s

POSTPOST DESIGN DESIGN STUDIES STUDIES

33mm

33mm 3m

single sided ventilation cross ventilation

1. basecase 1. basecase 1. basecase 1+ shading 2. 1+ 2. shading devicedevice 2. 1+ shading device1. basecase 1. basecase ventilation 1+2+ 1+2+ ventilation 1+2+ ventilation

°C 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 0

m/s

1. basecase 1. basecase 1. basecase 1+ shading 2. 1+ 2. shading devicedevice 2. 1+ shading de 1. ventilation 1+2+ 1+2+ ventilation 1+2+ ventilation

°C °C °C °C 800 32 32 321. basecase 32 600 1. basecase 2.1+horizontal1. overhang 3. 2+Vertical overhang 1. basecase basecase 1. basecase 2.1+horizontal1. overhang 3. 2+Vertical ove 3. 2+Vertical30 overhang 30 basecase 2. 1+ shading device 30 30 400 3+ventilation 3+ventilation Ventilation 1.1.basecase 1. basecase 3+venti 3+ventilation 3+ventilation 1. 3+ventilation basecase basecase 1. basecase 1. basecase 1+2+ ventilation 28 200 28 1. 28 28 1.1.2.1+horizontal basecase basecase basecase overhang overhang 3. 2+Vertical 3.overhang 2+Vertical overhang overhang 1. basecase 1. basecase basecase 1.2.1+horizontal basecase 2.1+horizontal 2.1+horizontal overhang 3. 2+Vertical 3. 2+Vertical overhang overha 2. 1+ shading devicedevice 2. 1+ shading 2.1+ 1+shading shading 2. 1+ 2. shading device device1.device 0 device 2. 1+ shading 26 1. basecase 26 26overhang 1. basecase 3+ventilation 3+ventilation 1. basecase 1. 26 basecase 2. 1+ 2.1+horizontal 2.1+horizontal overhang 3. 2+Vertical 3. 2+Vertical overhang overhang 3+ventilation 3+ventilation 3+ventilation 3+ventilati 1. basecase 2.1+horizontal overhang 3. 2+Vertical overhang 1. basecase 2.1+horizontal overhang 3. 2+Vertical overhang 1+2+ ventilation 1+2+ ventilation 1+2+ ventilation 1+2+ ventilation 1+2+ ventilation 1+2+ ventilation 2. 1+ shading device shading device 2. 1+ shading device gicedevice24 2. 1+ shading device 24 24 24 Occupancy Outdoor T Diffuse Horizontal Radiation 3+ventilation 3+ventilation 22:00/08:00 1. basecase Direct Horizontal °C °C Band °C °C complex °C °C Comfort 3+ventilation ventilation 1. basecase 2.1+horizontal 3. 2+Vertical overhang 3+ventilation 3+ventilation Fig. 8.14. Viewoverhang of the from the exterior. Southwest andRadiation southest facades. ventilation 1+2+ ventilation 22 22 1+2+ 1+2+ 22 tion 22 1+2+ ventilation single sided ventilation 321. cross 20 32 32 321. basecase 32 32 ventilation basecase 20 20 20 3+ventilation basecase 1. basecase 2.1+horizontal 2.1+horizontal 3. 2+Vertical 3. 2+Vertical overhang overhang 3. 2+Vertical 3. 2+Vertical 1. basecase 1. basecase 1. overhang basecase 1. overhang basecase 2. 1+30 shading 2. 1+ shading device device 30 18 30overhang 30overhang 30 30°C 1. °C °C 18 18 18 °C 3+ventilation 3+ventilation 3+ventilation 3+ventilation 3+ventilation 3+ventilation 3+ventilation 3+ventilation ventilation 1+2+ ventilation 28 16 28 28 281+2+28 28 16 16 16 32 32 321. basecase 32 26 26 30 14 26 26 26 26 14 14 14 m/s 1. basecase 2.1+horizontal1. overhang 3. 2+Vertical overhang 3. 2+Vertical overhang basecase overhang 3. 2+Vertical overhang 28 1.2.basecase basecase12 1+ shading device 30 24 24 24 24 24 2430 30 12 12 12 26 3+ventilation 3+ventilation 10 22 22 22 22 22 3+ventilation 22 3+ventilation 24 3+ventilation +ventilation 1+2+ ventilation 10 10 10 28 28 kWh/m kWh/m 28 kWh/m 22 8 20 20 20 20 20 20 1000 1000 8 8 8 1000 900 m/s 900 20 900 26 6 18 18 18 18 18 1826 26 800 800 6 6 6 800 18 700 700 700 600 600 4 16 16 16 16 16 1624 24 4 16 600 4 4 24 500 500 500 400 400 14 2 14 14 14 14 14 kWh/m2 14 400 2 2 2 300 300 300 12 1000 22 200 200 22 22 12 12 0 12 12 12 12 200 09 3 10 4011 5 12 6 0 100 100 10 1 2 3 4 5 6 7 8 100 800 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 4 5 10 6 7 108 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 3 5 4 6 5 7 6 8 7 91 810 2 911 31012 4 1113 51214 61315 71416 81517 91618 101719 111820 121921 132022 142123 152224 16023172418 19 20 21 22 23 10 24 10 0 1 2 3 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 2418 19 201 1 2 3 4 5 1 10 2 11 3 12 4 13 5 14 6 15 7 16 8 17 9 18 10 19 11 20 12 21 13 22 14 23 15 24 16 y 6 57 68 79 10 10 p4 02317 o 8 19 20 2 21 3 22 4 23 5 24 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 2019 20 21 22 23 24 20 20 1can20 2 21 3 22 4 23 5 24 6 7 8 18 11 19 12 20 13 21 14 22 23 16 24 17 18 19 20 21 22 600 20 10 21 14 22 23 241317 19 102 113 412 135 146 157 168 179 10 13 15 18 19 Outdoor T 1 2 3 4kWh/m 5 kWh/m 6 7 8 912 11 12 16 14 kWh/m15 kWh/m 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 8 88 8 8 T8 Outdoor T Diffuse6 Horizontal Radiation Diffuse Horizontal Radiation 1000 1000 1000 Radiation 1000 400 Outdoor Outdoor T Diffuse Horizontal 900 900 900 900 Outdoor T Comfort Band 18 Ventilation 18 18 Direct 4Horizontal Radiation Direct Horizontal Radiation 6 6 Comfort Band Comfort Band 6 6 6 6 800 800 800Radiation 800 200 Direct Horizontal Comfort Band 2 700 700 700 700 Comfort Band 0 600 600 600 600 4 44 4 4 4 16 16 0 16 500 500 500 500 400 400 400 400 2 Diffuse 22 Horizontal 2 Radiation 2 2 Occupancy Outdoor T 300 300 South est room. Effect of the shading devices Fig. 8.13.0 South room.0 Effect the shading devices 14 300200 300200 Fig. 8.12. South est room. 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“The Pompidou Center in Paris. New Spaces for Researchers“ Final Project (2012) in collaboration with E N S A P M, Paris The subject of the thesis project was to extend or forecast a very important building of Paris, in this case the Pompidou Centre by Richard Rogers and Renzo Piano, in order to define clear conceptual and architectonic solutions to interpretate the contemporary city, that is the result of different overlayers and stratifications of times, ideologies, and programs. The extension has to hold living and studying spaces for researchers. “This radical project is conceived as a probe going through the building from the lower to the upper level (and sticking out from it). This approach could seem iconoclastic at first sight, but if one thinks deeply it’s very close to the original spirits of Beaubourg: to allow the coexistence and the compenetration of different forms of art and life. At the time the Beaubourg was conceived, the famous english architect Cedric Price said : “Culture must be like water, at everybody’s disposal through the tap”. Nowadays we could consider that tap is internet. The project is a way to put into action (in the most material and architectonic way) the idea of internet: a building that creates direct and unexpected passages among different moments of life.”

Luca Merlini. Prof. Titulaire at ENSAPM and Architect

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Pierluigi Turco mobile_+44 7502 233141 email_pierojeff@hotmail.com