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CAREER OBJECTIVE Enthusiastic, proactive, passionate architect - civil engineer seeking a position as a Junior Architect.
SUMMARY OF QUALIFICATIONS • Creative thinker with excellent design and presentation skills combined with a high level of technical knowledge. • Ability to win competitions (1st Prize of AIAC-UNESCO competition) • Very good organisational skills and ability to multi-task acquired via a double formation (studied Architecture and Civil Engineering). • Excellent ability to work in a team environment but also to handle project independently. • Proficient in spoken and written English acquired via international studies and work experience (professional experience and workshop). • High level computer skills including : AutoCAD 2D/3D, Revit 20112013, Rhino, SketchUp, Adobe Creative suite.
PROFESSIONAL EXPERIENCE l-ba / Architect Oct. 2013
l-ba, living and building archishop, Paris, France
About l-ba : Founded by Thibaut Robert in 2006, this agency of architecture combines both architectural culture and technical knowledge. Most design projects realised are residential and public equipment projects.
Responsibilities : • Assisted the lead architect Thibaut Robert in the conception of a competition for a residential project in Enghein-lesBains, near Paris, France. • Realised BIM model, design drawings and final presentation panels on Revit 2013. • Competition won.
ETI / Clerk of work
June-Aug. 2012
ETI, site at Montreuil, France
About ETI : Created by Rafik B. Hariri in 1991 to gain a foothold in Europe from France, ETI operates construction and maintenance activities along with the engineering company Oger INTERNATIONAL and the real estate company FRADIM.
Responsibilities : • Assisted the clerk of work on the site of a residential project « Babayagas’s House » for elderly people at Montreuil, near Paris. • Planned and completed schedules and workloads. • Managed visual inspections, achieved through rigorous and detailed inspection of materials and workmanship throughout the building process.
l-ba / Architect June-Sept. 2011
l-ba, living and building archishop, Paris, France
About l-ba : Founded by Thibaut Robert in 2006, this agency of architecture combines both architectural culture and technical knowledge.
Responsibilities : • Assisted the lead architect Thibaut Robert in all phases of a major project for an international competition «ThyssenKrupp Elevator Architecture Award : Istanbul 2011» in Turkey. • Developed design ideas and created models, design drawings, computer models. • Involved in the final design of the panels for the competition.
Alice DUPIN
708/76 Roslyn Gardens, Elizabeth Bay, NSW 2011, Sydney
+61(0)435 323 297 adupin88@gmail.com LinkedIn / Website
Architect / Civil Engineer NP2F / Architect July-Sept. 2009
NP2F, Paris, France
About NP2F : Founded by four young architects : François Chas, Fabrice Long, Nicolas Guerin, Paul Maître-Devallon, in 2007, this agency of architecture won Europan 9 and participated to the « New Albums of the young architects and landscapes 2009-2010 ».
Responsibilities : • Developed construction drawings for some interior design projects of Parisian apartments (housing or terrace). • Produced graphic presentations for customer meetings. • Involved in research and graphic drawings for two architectural and urban competitions : «Up to 35» in Athens, Greece and «Flow» in Brussels, Belgium.
P. Niez / Landscape architect February 2009
Philippe Niez Le Studio, Paris, France
About P. Niez : After the creation of «André Citroën Park» in Paris, designed with the landscape architect Gilles Clément, P. Niez created his own studio in 1995 and since then responds to public and private commissions.
Responsibilities : • Developed construction drawings and graphic presentations for a building permit of a Parisian building. • Prepared information regarding design, specifications, plants and compiled theses researches. • Completed design work for a private garden in Greece.
RAZEL-BEC / Site foreman RAZEL-BEC, site at Montrouge, France
April 2008
About Razel-Bec : As part of the FAYAT Group, the fourth French construction Group, RAZEL-BEC has acquired a vast experience in numerous civil works domains as tunnelling, dams, infrastructures equipment,...
Responsibilities : • Assisted the site foreman on the site of the subway extension at Montrouge, near Paris. • Produced construction drawings.
Atelier 234 / Architectural intern September 2007
Atelier 234, Paris, France
About Atelier 234 : Founded in 2000, Atelier 234 combines the experience of three French agencies in one. This architectural agency has focused on new ways of life that demand a return to simplicity and essential things.
Responsibilities : • Produced models and design drawings for residential projects. • Assisted to a meeting on site for a residential project.
VOLUNTEER EXPERIENCE Jan-Febr. 2014
Volunteer Teacher for primary school pupil Voluntary association : «Culture sur Cour»
Private scientific instructor for high school students, Acadomia Monitor at Audiovisual service at the Faculty of
2010-2013 2010-2011
Architecture Paris-La Villette
EDUCATION Master’s Degree of Architecture
July
2013
National Faculty of Architecture Paris-La Villette ENSAPLV, Paris, France Workshop at Tokyo, Japan - April 2013 Exchange at Prague, Czech Republic - February-July 2010
Master’s Degree of Civil Engineering 2013 Civil Engineering University ESTP (École Spéciale des Travaux Publics, du Bâtiment et de l’Industrie), Paris, France
Exchange in Prague
Feb.-July
2010
Czech Technical University in Prague (CTU), Faculty of Architecture, Prague, Czech Republic
SKILLS Languages
Computer skills
French : mother tongue English : proficient (TOEFL 583/677) Spanish : conversant Czech : basic knowledge
AutoCAD 2D / 3D, Revit, Rhino, SketchUp, V-ray Adobe Creative suite: Photoshop, InDesign, Illustrator Word, Excel, PowerPoint
AWARDS / ACCOMPLISHMENTS People’s Choice Award of the Community Forests International’s sustainable design competition : Can a building blur the lines between humans and nature ? (website and publication)
March 2014
First prize of the AIAC international competition, a joint initiative UNESCO-AIAC Sept. 2013 Selected to be part of the First Class that studied both Architecture and Civil Engineering at the same time during seven years (partnership between two universities : ENSAPLV and ESTP) (at the end only nine persons graduated) 2006-2013
Exhibition of the best Final Design Projects, Faculty of Architecture Paris-La Villette
Sept. 2013
INTERESTS Travels : Asia (Uzbekistan, Japan (workshop in April 2013),
References Available Upon Request
China), Africa (South Africa), North America (United-States, Canada), Europe (Istanbul, Scotland, Norway, Budapest,...)
Drawing, painting, photography : an artistic way to express myself by creation, more than 10 years of classes.
8 Final Design Project
12 Passive Houses
16 Erasmus
20
18 Office complex
Residence in Pairs Exhibition hall
28
24
Summary
l-ba
22
NP2F
30 NP2F
32 Master research report
6
34 Project management
36 Steel construction
Summary
ARCHITECTURE Academic Work Mix
Re
Mix
2012 / 2013 - FINAL DESIGN PROJECT International competition, AIAC : Tokyo 2020 2010 / 2011 Competition : Passive houses 2010 - ERASMUS Mixed-use Complex in Prague
Of
2009 / 2010 Office Complex
Re
2008 / 2009 Residential Complex in Paris
Cu
2006 / 2007 Exhibition Hall in Paris Professional Work / Internship Cu
Ur
Re
ARCHITECTURAL AGENCY L-BA : 2011 Competition : Thyssenkrupp Elevator Architecture Award, Istanbul 2011 ARCHITECTURAL AGENCY NP2F : 2009 Competition : Flow, Canal of Brussels ARCHITECTURAL AGENCY NP2F : 2009 Competition : Up to 35, Student Housing at Athens
2012 / 2013 Master research report / Urban Innovation : productive walk
CIVIL ENGINEERING Academic Work
2012 / 2013 course : Project Management 2011 / 2012 course : Steel Construction
Mixed-use
Residential
Offices
Cultural
Urbanislm
7
INTERNATIONAL COMPETITION, AIAC : TOKYO 2020 Final Design Project, Master (2nd year) - 2012 / 2013 Professors : Mr Cremonini, Mr Dubosc, Mr Dubois and Mr Lauzanne Award : 1st Prize AIAC-UNESCO (september 2013)
Two «interioriƟes» in the site without relaƟonship between them
Three inimproved potenƟals on the site
Architecture
The Nihonbashigawa River
8
The highway / inner circular line
The building plots along the river
From the inner block to the river
superposiƟon of the expressway above the river
linearity of these building bands along the water
lack of connecƟons between two «interioriƟes»
Thanks to my Final Design Project I was lucky enough to discover Japan, to parƟcipate to an internaƟonal workshop in Tokyo and to win the AIAC InternaƟonal CompeƟƟon for Tokyo 2020 sponsored by UNESCO. I have learned a lot during this project both professionally and personally. I met students from all over the world and discovered their methods and their architectural cultures. This was also a unique opportunity for me to discover the Japanese architecture and its faculty to opƟmise narrow and small spaces. THE NIHONBASHI DISTRICT The compeƟƟon site is located to the East of the Imperial palace (Edo’s castle). This historical district managed to keep a unique urban character with mixed-use combining residenƟal, business and commercial areas. Nowadays, the district is sƟll an important commercial sector of Tokyo. This district is characterized by three important landmarks : • the Nihonbashigawa river that traverses the site. • the historical Nihonbashi bridge («Nihonbashi» means «Bridge of Japan»). This bridge represents an important element of the Japanese culture. It was at Įrst the crossroad of «the Įve roads» connecƟng Edo (the old name of Tokyo) to Kyoto, in Japan. Furthermore, this bridge has followed the Japanese evoluƟon techniques : It was built as a wood bridge in 1603 and changed to the actual stone bridge in the Medgi period (1911). Later in the 60’s, it has been covered by the highway built for the Tokyo Olympics of 1964. • the Urban highway called the inner circular expressway built in 1964 to provide a beƩer road network for the Olympics.
It was built above the Nihonbashi River and Nihonbashi bridge. A project of destrucƟon of this expressway has been in discussions for several years. The project wants to replaced this expressway by an expressway built further from the city. PROJECT ISSUES This district in perpetual transformaƟon tends to modernise itself. The construcƟon of many towers transformed the mixed urban landscape of yesterday in a business district, forcing exisƟng small businesses to close. The diīerence between day and night acƟviƟes is growing increasingly (raƟo 10/1). The objecƟves of the compeƟƟon are to revitalise the area in order to create an aƩracƟve district for families, young couples,... which could also promote Tokyo’s candidacy to host the 2020 Olympic Games. Thus four issues emerge: • The revaluaƟon of the Nihonbashigawa River and the ability to provide access to water for the residents. • The enhancement of the historic Nihonbashi Bridge. • The quesƟon of the future of the exisƟng infrastructure (rehabilitaƟon of the expressway, for example). • The funcƟonal diversity of the district. DuraƟon of the exercise : 6 months. Individual work. Worked with hand drawings, sketches, physical models, AutoCAD, Revit, Photoshop, Illustrator, InDesign. Final panels of the internaƟonal compeƟƟon on the leŌ and aŌer
WALKWAY S
URBAN DESIGN
A I A C E n s a p l v
l ’ A t e l i e r
-
F r a n c e
URBAN PERSPECTIVE OF CHUO-DORI & EXIT FROM THE SUBWAY TO THE WATERFRONT
-
/ FROM WATER TO THE SKY
I n t e r n a t i o n a l
A l i c e
D u p i n
d e
l ’ A r c h i t e c t u r e
C o n s t r u i t e
01
T o k y o 2013-2020
Urban section AA on the street Chuo-dori and the subway station 1:500.
RELATIONSHIP BETWEEN THE INNER BLOCK AND THE WATERFRONT
There are two « interiorities » in the site : one inside the inner block (with a lot of activities and thin streets at a human scale) and another one created by the water and the underside of inner highway.
The frontwater : a walkway is designed to offer the possibility to touch the water. The riverbank level is occupied by a lot of activities : restaurants, bar, shops,... Some public stairs do the connexion between the street level and the riverbank level.
zoom of the rehabilited hightway
Walkway Level Street Level River bank Level
The rehabilitation of the inner highway : a second walkway is designed to offer a pleasant place that crosses the city. The existing beams are kept, but the floor of the walk is designed to have light passing through the beams. Thanks to these openings the Nihonbashi bridge is illuminated by sunlight.
9
HEIGHTS OF THE BUILDINGS inside the inner block > 12 floors 8 to 11 floors 6 and 7 floors 4 and 5 floors < 3 floors
Urban section BB 1:500.
Street level plan (with the river bank level plan in darker) 1:500e.
Urban section CC on the tree-lined street 1:500.
ARCHITECTURAL DESIGN
WALKWAY S A I A C E n s a p l v
l ’ A t e l i e r
-
F r a n c e
-
/ FROM WATER TO THE SKY
I n t e r n a t i o n a l
A l i c e
D u p i n
d e
l ’ A r c h i t e c t u r e
C o n s t r u i t e
02
T o k y o 2013-2020
Photographies of physical model 1:200.
Architecture
Hand Drawing and Photography of physical model 1:200. Axonometric drawing
10
Cross section 1:100.
Detailed drawings 1:20.
WALKWAY S
ARCHITECTURAL DESIGN
A I A C E n s a p l v
l ’ A t e l i e r
-
F r a n c e
-
/ FROM WATER TO THE SKY
I n t e r n a t i o n a l
A l i c e
d e
l ’ A r c h i t e c t u r e
03
C o n s t r u i t e
T o k y o
D u p i n
2013-2020
ALL FLOOR PLANS 1:500 LEVEL 12 TO 18 HOUSING 1 2
1
Duplex apartment 2 bedroom unit (75m²) Studio (40m²)
1
1
2 1
2
Housing floor 12 / plan 1:200.
Housing floor 13 / plan 1:200.
LEVEL 7 TO 11 OFFICES 1 2 3
2
Offices Public viewing space / Terrasse cafe Panoramic cafe
3
1
LEVEL 6 OLYMPIC CENTER & CAFE 1 2
Public viewing space / Terrasse cafe Panoramic cafe
2
1
LEVEL 5 OLYMPIC CENTER 1 2
1
Edo and Tokyo Exhibition space Free rest area for tourists / Point of view
2
LEVEL 4 OLYMPIC CENTER 1 2 3
Services Information center Public viewing space open to outside
1
2
3
LEVEL 3 OLYMPIC CENTER 1 2
Meeting offices Amphitheater / Meeting hall
1 2
Free rest area for tourists Amphitheater / Meeting hall
2
1
LEVEL 2 OLYMPIC CENTER
Longitudinal section 1:200.
2
1
WALKWAY LEVEL OLYMPIC CENTER & WALKWAY 1 2 3
Information center Amphitheater Walkway on the rehabilited inner highway
1
2
11 3
LEVEL 1 OLYMPIC CENTER 1 2
Entry Amphitheater
1
2
Walkway level / plan 1:200. Waterfront / hand drawing and photography of physical model 1:200.
STREET LEVEL
4
LOBBY OF THE OLYMPIC CENTER 1 2 3 4 5
Lobby Housing entry Esplanade Stairs to go up to the pathway Stairs to go down to the water
3
5 2 1
RIVER BANK LEVEL SUBWAY EXIT & RESTAURANT 1 Subway exit 2 Restaurant 3 Terrasse 4 Olympic souvenir shop 5 Entry to the Olympic center 6 Point of view into the Nihonbashi bridge 7 Walkway near the river 8 Walkway-hulk on the water 9 Stairs to go up to the street
1
4
2 5 3
6
9 7
8
COMPETITION : PASSIVE HOUSES Project, Master (2nd year) - 2010 / 2011 Professors : Mr Perrin, Mr Franca
Photography of physical model, 1:1000
Principle sketches
Architecture
Block plan
12
PerspecƟve from the entrance of the site
The CompeƟƟon «Passive houses in Loire Valley» oīered the opportunity to select one out of six proposed sites. I chose Gizeux, a small village of about 450 inhabitants, with Įve shops. The Gizeux Castle, classiĮed as historic monument, represents the local tourist aƩracƟon. The creaƟon of new houses and the rehabilitaƟon of exisƟng buildings had to be taken into account to revive this small town, to bring in new people and promote social and generaƟonal diversity. The project is organised around courtyards, in its two forms : public and private in the heart of housing buildings. Theses
courtyards are convivial places where people can meet, play, discuss, garden,.... Furthermore, the passive houses and an equipment for the elderly and small children are conceived. This equipment is equipped with a medical home that allows coexistence between the elderly and the children during the day. DuraƟon of the exercise : 7 months. Individual work. Worked with hand drawings, sketches, physical models, AutoCAD, SketchUp, V-ray, Photoshop, InDesign.
Cross secƟon CC’
13
Ground Ňoor plan Cross secƟon AA’
Longitudinal secƟon
Program
Architecture
Principle of the courtyards : public and private
14
PerspecĆ&#x;ve from the public place
Photography of physical model, 1:500
Fenêtre ouvrante
Fenêtre close
Fenêtres coulissantes (3)
15
11. 12. 13. 14. 15. 1. Pierres / 15cm 16. 2. Vide / 3cm 17. 3. Lattage + Contre-lattage / 4cm 18. 4. Etanchéité / Pare-vapeur 19. 5. Panneau de Àbre de bois / 6cm 20. 6. Ossature Bois + Cellulose 21. 7. Panneau OSB / 1,8cm 22. 8. Lattage technique + Laine de roche / 4cm 23. 9. Plaque interne de Fermacell / 1,3cm 24. 10. Parquet / 1,7cm 25.
Légendes des coupes Détails au 1 : 20e
Panneau OSB / 1,8cm Chape / 7cm Polystyrène extrudé / 22cm Egalisation isolante / 3cm Chape de compression / 3cm Dalle en Béton / 20cm Blocs de Béton / 19cm Vide / 4cm Blocs de Béton / 19cm Parquet / 1,7cm Chape ciment / 7cm Isolant (Laine de roche) / 10cm Ossature Bois / 22cm Lattage + Contre-lattage / 4cm Plaque interne de Fermacell / 1,3cm
26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. 37. 38. 39. 40.
Couverture en Zinc / 2,8cm Lattage + Contre-lattage / 4cm Isolant (Laine de roche) / 12cm Chevron Poutre en Bois / 22cm Isolant (Laine de roche) / 22cm Lattage / 2cm Plaque interne de Fermacell / 1,3cm Portique de Bois Volet Brise soleil métallique Garde de corps (grille) Brise soleil en Bois Bardage en Bois / 2cm Lattage + Contre-lattage / 4cm
MIXED-USE COMPLEX IN PRAGUE Project, ERASMUS - 2010
Architecture
Professors : Mr Zavrel (dean of the faculty of Architecture), Mr Seho
16
Physical model of the site with the project in white, 1:5000
The site is located in the Karlin district, in Prague, Czech Republic. The site looks onto the Vltava river on the North and onto a main street to the South. The program consists on conceiving a new mixed-use complex in this district and to preserve the two exisƟng buildings located on the site. To create a new space around the two older buildings, I designed a series of structures moving from the main street to the river. These buildings are diīerent heights so as to have the sunlight penetrate into each plot. The towers, near the river, oīer a splendid view of the river and the landscape. The low-rise building on the street maintains the alignment of the main street. SpeciĮcally, this building blocks the traĸc noise of the main street.
Principles sketches
This urban barrier creates a calm interior within the plot. It has a diīerent character of space and is dedicated to pedestrian use. This space holds a public garden as well. The two older buildings are meant to be restored and hold shops, restaurants, and bars. The exisƟng street within the new construcƟon to the west conƟnues into the site. This street is like an avenue and serves as the main point of access to the plot. It is bordered by the towers buildings on the North and a mid-rise building on the South. This building is composed of apartments with maisoneƩes. DuraƟon of the exercise : 5 months. Individual work. Worked with hand drawings, sketches, physical models, AutoCAD, SketchUp, Photoshop, InDesign.
Longitudinal secƟon on one of the four towers
Longitudinal secƟon on the square at the base of the big tower
South elevaƟon
Plan of a tower : 4th Ňoor
Plan of a tower : 5th Ňoor
17
PerspecƟve from the pedestrian street (photography of physical model, hand drawing, photoshop)
PerspecƟves of the site (sketchUp views)
PerspecƟve of one of the four tower
OFFICE COMPLEX Project, Master (1st year) - 2009/ 2010
Architecture
Professors : Mr Chaslin, Mr Germe
18
This project was an opportunity to conceive diīerent types of oĸces. This work includes two scales : • the Įrst one is about the oĸce complex scale in general : the organisaƟon of the various oĸces focusing on the issues of relaƟonships as inside/outside, light/shadow, the distribuƟon of the oĸces, the shapes, the volumes,... • the second scale is about the oĸce space in parƟcular : its funcƟon, the orientaƟon of the workplace, the storage,...
•
The project is organised around three principles: • the COURTYARD. The oĸces are organised around a courtyard. The oĸces on the wings are double or individual ofĮces. They have oīsets (slope). In contrast, the north and south Ňat Ňoors are larger oĸces, which can be modulated.
DuraƟon of the exercise : 1 month. Individual work.
•
the PROBLEM OF OFFICES IN GROUND FLOOR. The lower ofĮces overlook the courtyard, the gallery overlooks the outside. In contrast, the other wing has an oīset of one half of a level relaƟve to the ground level, thereby the oĸces get a clear view without the downside of being viewed. The gallery overlooks the courtyard. the WALKWAYS. The posiƟon of the gallery and oĸces alternate : outside or inside.
Worked with hand drawings, sketches, physical models, AutoCAD, Photoshop, InDesign.
Photographies of physical model, 1:100
SecƟon sketch
Sketch of an oĸce unit
19
RESIDENTIAL COMPLEX IN PARIS Project, Bachelor (3rd year) - 2008 / 2009 Professors : Mrs Bapst, Mr Brossy
Principle sketches
Architecture
Located plan
20
Longitudinal secƟon BB’
The project is located at 107 Haxo street in the 20th district of Paris, France. The plot has a narrow form, with a width equal to 15 meter and a length equal to 90 meter. The purpose of this exercise was to create a residenƟal complex in Paris as to understand the urban regulaƟons in the capital. The project is organised by bands of empty and full spaces. In addiƟon, a checker board principle is used to have views and natural lights penetrate into each dwelling. The project combines two types of buildings : • an apartment building with seven stories overlooking the street with a shop on the ground Ňoor . • low-rise buildings in the heart of the plot. These three or
four stories buildings are composed as imbricaƟons of duplex or triplex. The entrance on the ground Ňoor is a private garden for each maisoneƩe. An inner sloping street accentuates the depth of the plot and serves accommodaƟons. The street has a special form which comes directly from the form of the windows and the facades of the low-rise buildings. These windows oīer more views and bring more light. Two gardens are designed : one at the entrance of the plot, and the other at the boƩom of the plot. DuraƟon of the exercise : 2 months. Individual work. Worked with hand drawings, sketches, physical models, AutoCAD, Photoshop.
PerspecƟve from the entrance
Ground Ňoor plan
21
Longitudinal secƟon AA’
Photographies of physical model, 1:200
EXHIBITION HALL Project, Bachelor (1st year) - 2006 / 2007 Professors : Mr Brossy, Mrs Forest, Mr Vaiedelich and Mr Veith
Architecture
SecƟon sketch
Master plan of the André Citroën Park
Sketch of the diīerent levels on the site
22
Photography of the site : «the red garden» and hand drawing of the project
The projet is located inside the «red garden», one of the six theme gardens of the André Citroën Park, in the 15th district of Paris, France. This garden is slopping in the centre and bordered by two small walkways on the ground Ňoor. From the footbridge you can have panoramic upper views onto the garden. The program consists in conceiving a small building dedicated to the exhibiƟon of art works, desƟned to the park’s public. This project was an exercise to analyse the relaƟonship between structure and natural light. The exhibiƟon hall is designed as a ramp that turns around a well of light. The building is raised from the ground. Structure has been elevated on piers. A pond is sited under the well of light.
The sun rays can be reŇected by the water and reach the hall. The hall is only accessible by the footbridge, the upper walk close to the glasshouses. At the entrance, two walks are possible : • the Įrst one is going down inside the building where art works are displayed along the concrete walls. • the other one is situated on the roof terrace. You can at the same Ɵme appreciate the landscape, the view onto the park but also admire sculptures and art works on free air. DuraƟon of the exercise : 6 weeks. Individual work. Worked with hand drawings, sketches, physical models.
Hand drawing of the project
Upper walk on the roof terrace
Lower walk inside the building
Plan of the entrance level : the entrance inside the exhibiƟon hall and the walkway on the roof terrace
Longitudinal secƟon
Cross secƟon
23
Work evoluƟon : study models and Įnal model
THYSSENKRUPP ELEVATOR ARCHITECTURE AWARD ISTANBUL 2011 European Competition - 2011
Architecture
Internship at the architectural agency : l-ba
24
This InternaƟonal Architecture CompeƟƟon was organised in order to select the design of Istanbul Disaster PrevenƟon and EducaƟon Centre, which was to be the Įrst insƟtuƟon in Turkey with intended faciliƟes. This centre had to be fully equipped with adequate technology and faciliƟes in order to be prepared against a disaster that may aīect Istanbul and to develop public consciousness about the disasters and speciĮcally about earthquakes. The site is located in a newly developing Įeld in BakŦrköy district and is close to Atatürk InternaƟonal Airport with an easy access to the subway staƟon and the highway. The proposed project is composed of a cubic building in the middle of a park. This cubic building is siƫng on a large pond
of water that reŇects its silhoueƩe. This cubic facade contains a building with a rock mass shape. Special lighƟng atmosphere is provided by the cubic dual resin that surrounds the project. Job responsibiliƟes : - Assisted the lead architect Thibaut Robert in all phases of a major project for this internaƟonal compeƟƟon. (I was the only one working on this project during one month. The second month, we were two and at the end four to design the Įnal panels). - Developed design ideas and created models, design drawings, computer models and graphic presentaƟons. - Involved in the Įnal design of the panels for the compeƟƟon. Worked with : AutoCAD 2D, Rhino, Photoshop.
25
LEVEL 7 PANORAMA 01
01
Café Public ramp access
LEVEL 6
02
CONFERENCE 02
03
03
LEVEL 5
06 04
Seminar - Training Hall ( 60 seats ) Conference Hall ( 200 seats ) Public ramp access
CONFERENCE
05
04 05 06
Seminar - Training Hall 1 ( 65 seats ) Seminar - Training Hall 2 ( 50 seats ) Exhibition Hall Public ramp access
LEVEL 4
07
PUBLIC
07
07 08
08
Exhibition Hall Library Public ramp access
LEVEL 3 09
A
VISIT
10
09 10 A
Planetarium Children’s Section Public ramp access
Architecture
B
LEVEL 2
15
VISIT&EXPERIMENT
11
11 12
12
14
13
13
14 15
Rainstorm Simulation Section Emergency Communication Experiment Room First Aid Training Room Fire Prevention Game Training Performance Evaluation Section Public ramp access
B
D
26
LEVEL 1
19
16
VISIT&EXPERIMENT
17
16
C
17 18
18
19
Fire Fighting Training Room Liquefaction and Earthquake Mechanism Room Smoke Maze Room Café / Restaurant Public ramp access C
LEVEL 0
VISIT&EXPERIMENT 20 21
20
22
21
23
24 22
24 23
25
25
4D Video Display Room Earthquake Simulation Section 1 Earthquake Simulation Section 2 Orientation Stage Medical Room Lobby Public ramp access
E
D
LEVEL -1
OFFICES SHELTER
26
26 27 28 29 27
30
28
Shelter Administrative Offices Services Truck access Car Parking
28 29
28
30 28 E
01 02 03 04 05 06 07 08 09 10 11 12 13
CafĂŠ Seminar - Training Hall ( 60 seats ) Conference Hall ( 200 seats ) Seminar - Training Hall 2 ( 50 seats ) Exhibition Hall Planetarium Library Rainstorm Simulation Section Fire Prevention Game Fire Fighting Training Room Smoke Maze Room 4D Video Display Room Orientation Stage Public ramp access
01 02 03 04 05 06 07 08
01
09 10 11 12 13 02
03
CafĂŠ Seminar - Train Conference Ha Seminar - Train Exhibition Hall Planetarium Library Rainstorm Sim Fire Prevention Fire Fighting Tra Smoke Maze R 4D Video Displ Orientation Stag Public ramp ac
04
07 05
06
27
08
09
10
11
12 13
EUROPEAN COMPETITION : FLOW REHABILITATION OF THE CANAL OF BRUSSELS European Competition - 2009 Third Prize
Architecture
Internship at the architectural agency : NP2F
28
The aim of this urbanism compeƟƟon consists on developing a project for the rehabilitaƟon of the canal of Brussels, Belgium, in an innovaƟve way. The proposed project tries to unify and densify the canal banks. The creaƟon of a «signal» project was choose. Towers located above each exisƟng bridges crossing the canal becomes a strong signal to idenƟfy the canal wherever you are in the city of Brussels. The densiĮcaƟon created by the skyscrapers oīers new ways of life for the docks and along the canal. Job responsibiliƟes : - Conducted research needed to understand the issues of this compeƟƟon. - Involved in the reasoning and in the Įnal design of the panels (3D models of a tower upper a bridge). Worked with : AutoCAD 2D-3D, Photoshop, Illustrator.
29
INTERNATIONAL COMPETITION : UP TO 35 STUDENT HOUSING IN ATHENS International Competition - 2009 Project mentioned
Architecture
Internship at the architectural agency : NP2F
up
children room
sport leisure time
swimming pool 3,1m
30
3,1m
in 15,5m
down
living place
3,1m
6m
open cinema
quiet square
arty bar
crazy factory
create your garden
Oliaros, a young property development company, is calling architects up to 35 years old to submit proposals for the construcƟon of a student housing unit in Kerameikos and Metaxourgeio (KM), an area in the historic centre of Athens, Greece. The proposed project consists in conceiving three diīerent atmospheres, three disƟnct areas : - UP : the higher part of the building deĮnes a roof Ňoor watching the «acropolis» landscape. The shared terrace is a plaƞorm for the domesƟc and collecƟve acƟviƟes. - IN : the middle part of the bloc is a dense and very private living space. Each room has a totally glazed façade allowing as much as possible light and wind to penetrate inside. - DOWN : the lower part is thought as a space open on the street. It is a double height garden protected from the sun of Athens.
Job responsibiliƟes : - Involved in Įnal graphic drawings (plans, elevaƟon, the three Photoshop perspecƟves illustraƟng the concept of Up, In, Down) - Assisted lead architects in the creaƟon of the text document including the project descripƟon. Worked with : AutoCAD 2D, Photoshop, InDesign.
UP
MORE ROOF TERRACE
IN
MORE DENSITY/QUALITY
DOWN
251 JLA 75
251 JLA 75
MORE COMMON UTILITY SPACE
rdc
elevator + 15.50
common roof
+ 09.30
+ 12.40
interior balcony
exit stair
3rd floor + 12.40
0,8m
+ 00.00
2,3m
UP
+ 00.00
UP
0,45m 0,8m
6,3m
6,3m
6,3m
1,5m
01
03
21 m2
18.50 m2
1,2m
05
20.40 m2
+ 09.30
1,2m 0,9m
+ 09.30
+ 09.30
0,9m
04
02
27.70 m2
15.50 m2
1,5m 4,55m
IN
+ 00.00
+ 00.00
31
4,55m
IN
F1 distributor all staff
1,5m
ping pong stair 2
letter boxes
stair 1
NORTH
cafeteria laundry 20.70 m2
1,4m
yard
DOWN
store 16.00 m2
S1
F1
garbages
S1
DOWN
private roof
roof
+15.5m
2.33
+12.0m
double room 26m²
room 15.5m² 2.40
4.55
+9.3m 17,6m room 2,9m
15,5m
2.90
+6.2m
store
+3.0m
5,6m
sliding glass facade entrance
store
+0.0m
Marathonos street
store
technical staff
storage
laundry kitchen bar work place ...
garden
URBAN INNOVATION : PRODUCTIVE WALK A potential for energy transition of our cities via piezoelectricity Master research report - 2012 / 2013
Architecture
work in connection with a research project (IRP) at the ESTP Professors : Mrs Balez, Mr Franca, Mr Gaubin and Mr Meunier
32
Summary : The urban populaƟon grows every day. In Europe, already two thirds of the populaƟon is urban. This phenomenon is even more present in France with nearly 80% of the French populaƟon living in the ciƟes. This density explains partly the overconsumpƟon of energy and material resources available. The challenge of the future is ciƟes. Thus the quesƟon is to try to reduce our energy needs and Įnd new ways to produce the energy needed for the development of tomorrow’s ciƟes. Generate electricity from the mechanical pressure or stress of footsteps is the soluƟon proposed in this work. This new technology, known as the piezoelectricity, could produce energy to
supply the electricity for the street lighƟng, for example. How this piezoelectricity’s principle works ? Are there any references to an pedestrian applicaƟon? Is it an appropriate soluƟon to integrate into our ciƟes of tomorrow? What are the funcƟons that a piezoelectric module must have to become the Ňooring of the sidewalks of the city of the future? And Įnally, how a project piezoelectric could Įt into a pedestrian area of Paris and how much energy could be produced ? This work try to answer to all these quesƟons. DuraƟon of the research project : 1 year. Individual work.
REFERENCES
REFERENCES
APPLICATION PIÉTONNIÈRE – PROTOTYPES ET RÉALISATIONS Depuis 2007, la société japonaise « Soundpower Corporation », créée par Kohei Hayamizu, s'est également intéressée à cette nouvelle énergie qu'est la piézoͲélectricité. De nombreux projetsͲprototypes ont vu le jour et ont eu pour but d'impliquer le piéton dans les questions environnementales de notre siècle. /ůůƵƐƚƌĂƚŝŽŶ ϭϱ͗ WƌŽƚŽƚLJƉĞ ĚĞ ΗWŽǁĞƌͲŐĞŶĞƌĂŝŶŐ ĨůŽŽƌΗ ŝŶƐƚĂůůĠ ĚĞǀĂŶƚ ůĂ ŐĂƌĞ ĚĞ ŵĠƚƌŽ ^ŚŝďƵLJŽ͕ ă dŽŬLJŽ͕ ĞŶ ϮϬϬϳ
D
AVANTAGES : Ͳ Utilisation de l'effet piézoͲélectrique
D
INCONVÉNIENTS : Ͳ Coût élevé de la location d'une dalle : de l'ordre
D
PRODUCTION D'ÉLECTRICITÉ : 1 Watt par pas (pour une pers. de 60kg)
Ͳ Éclairage de LED intégrées dans les dalles de 250€, la semaine
LA TECHNOLOGIE Le projet phare de la société « SoundPower » se nomme « PowerͲ Generating FloorTM ». De nombreux modèles de ce projet ont vu le jour, d'abord dans les métros de Tokyo, puis dans les rues et enfin à l'intérieur de bâtiments. Le choix fut fait d'utiliser et d'intégrer uniquement des matériaux piézoͲ électriques. La dernière dalle fabriquée se compose d'un système complexe de céramiques piézoͲélectriques PZT11 de 35mm de diamètre, réparties tous les 50cm² sur l'ensemble du module. Une plaque de vibrations est installée par dessus permettant de mieux faire le transfert des vibrations des pas jusqu'aux céramiques. Depuis ses débuts, la dalle « PowerͲGenerating FloorTM » a suscité beaucoup d'intérêt dans le secteur des énergies renouvelables au Japon. La technologie a été affinée et est en cours de déploiement dans les bureaux d'affaires, sur les routes à grande circulation et sur des ponts dans le but d'augmenter la production d'énergie et de répondre ainsi à la demande d'éclairage de la ville de Tokyo. 12 11 PZT : le Zircono Titanate de Plomb est un des trois systèmes les plus communément étudiés et utilisés présentant l'effet piézoǦélectrique /ůůƵƐƚƌĂƚŝŽŶ ϭϲ͗ WƌŝŶĐŝƉĞ ĚĞƐ ĚĂůůĞƐ ΗWŽǁĞƌͲŐĞŶĞƌĂƚŝŶŐ ĨůŽŽƌΗ Ğƚ ůΖĠǀŽůƵƚŝŽŶ ĚƵ ƌĞŶĚĞŵĞŶƚ ĠůĞĐƚƌŝƋƵĞ ĞŶ ĨŽŶĐƚŝŽŶ ĚƵ ƚĞŵƉƐ
12 Les informations les plus récentes trouvées sur cette société datent de 2011. La finalité de certaines expériences ne sont actuellement pas disponibles.
Une nouvelle énergie : l'effet piézoǦélectrique | 25
24 | MÉMOIRE : Innovation urbaine : la Marche Productive
REFERENCES
REFERENCES
APPLICATION PIÉTONNIÈRE Ͳ RÉALISATION Depuis 2010, des pavés « Pavegen » sont intégrés dans les trottoirs de Londres, en Angleterre. De plus, une expérience lors des Jeux Olympiques de 2012 consistant à installer 12 pavés dans une station très fortement fréquentée durant cet événement fut initiée. D
AVANTAGES : Ͳ Stockage de l'énergie (95%)
D
INCONVÉNIENTS : Ͳ Compression de la dalle d'environ 5mm pouvant
D
PRODUCTION D'ÉLECTRICITÉ : 30 W.s par pas (rendement beaucoup
Ͳ Effet pédagogique et d'implication du piéton par l'illumination d'un LED interne lors du passage (5%) créer une éventuelle gène du piéton plus intéressant que pour les références précédentes du fait de l'association avec un système à induction) LA TECHNOLOGIE /ůůƵƐƚƌĂƚŝŽŶ ϯϬ͗ /ŶƚĠŐƌĂƚŝŽŶ ĚĞƐ ƉĂǀĠƐ ΗWĂǀĞŐĞŶΗ ĚĂŶƐ ůĞƐ ƌƵĞƐ ĚĞ >ŽŶĚƌĞƐ͕ ϮϬϭϬ
Le pavé « Pavegen » n’est pas un pavé inerte comme n’importe quel pavé de rue. Il absorbe l’impact, l’onde de choc dégagée par le pas d’un promeneur pour la transformer ensuite en électricité. Le système de fonctionnement du pavé n'est pas révélé par la société « Pavegen Systems ». Il semblerait s'agir d'une combinaison entre un système à induction électromagnétique et l'utilisation de matériaux piézoͲ électriques tels que des céramiques. Lorsqu’une personne marche dessus, l’énergie cinétique fournie par le pas est récoltée. Cette dernière peut être stockée et utilisée pour une variété d'applications. On comprend donc que plus il y a de pas, plus il y a de l’énergie. Cette technologie requiert un passage important de passant pour pouvoir être rentable. Elle s’adapte alors parfaitement aux milieux urbains où la fréquentation des rues, des lieux est importante.
/ůůƵƐƚƌĂƚŝŽŶ ϯϭ͗ ^ĐŚĠŵĂ ĞdžƉůŝƋƵĞ ƋƵĞ ůĞ ƐLJƐƚğŵĞ ƉĞƌŵĞƚ ĚΖĂůŝŵĞŶƚĞƌ ĚĞƐ ĂƉƉůŝĐĂƚŝŽŶƐ ƵƌďĂŝŶĞƐ ;ĠĐůĂŝƌĂŐĞ ƉƵďůŝĐ͕ ƐŝŐŶĂůŝƐĂƚŝŽŶ ƵƌďĂŝŶĞƐͿ Ğƚ ĚŝǀĞƌƐ ĂƉƉĂƌĞŝůƐ ;ďĂƚƚĞƌŝĞƐ͕͘͘͘Ϳ
La pavé « Pavegen » contient une LED interne qui s’allume lorsque quelqu’un marche dessus. Ce phénomène incite les piétons à marcher,
Une nouvelle énergie : l'effet piézoǦélectrique | 37
36 | MÉMOIRE : Innovation urbaine : la Marche Productive
FC4 : Être agréable à l'œil : FT41 : Être en harmonie avec les formes, les couleurs et les textures des revêtements existants : FT42 : Donner des formes permettant l'association de différents modules entre eux : FT43 : S'intégrer dans l'espace public, avoir un impact architectural et urbain sur l'environnement du module FC5a : Être raccordé au réseau électrique : FT51a : Être raccordé au réseau électrique existant FC5b : Alimenter des appareils électroniques : FT51b : Gérer l'électricité et alimenter des appareils électroniques tels que l'éclairage public, des équipements urbains,... FC6 : Être rentable pour l'utilisateur : FT61 : Faciliter l'installation des modules (montage et démontage) : FT62 : Faciliter l'assemblage des modules entre eux et avec le milieu extérieur : FT63 : Promouvoir les valeurs (esthétiques, images,...)
SCHÉMA RELATIVE À LA FONCTION PRINCIPALE DU MODULE ET DE CES FONCTIONS COMPOSANTES /ůůƵƐƚƌĂƚŝŽŶ ϱϮ͗ ^ĐŚĠŵĂ ĚĞƐ ĨŽŶĐƚŝŽŶƐ ĐŽŵƉŽƐĂŶƚĞƐ ;ĚĞ ůĂ ĨŽŶĐƚŝŽŶ ƉƌŝŶĐŝƉĂůĞͿ
4.2. Le diagramme FAST LE PRINCIPE ET LA CONSTRUCTION DU DIAGRAMME FAST L'outil principal pour réaliser une Analyse Fonctionnelle Technique se nomme le FAST60 . D’autres outils existent, mais il s’agit de compléments au FAST. Le diagramme FAST représente à la fois les fonctions de service, celles techniques et enfin les solutions technologiques. Le diagramme se construit de la manière suivante. Les fonctions, représentées par des blocs rectangulaires, sont liées entre elles par des traits droits (sans flèches), qui les ordonnent. Les fonctions de service sont placées à gauche, elles répondent à la question « Pourquoi ? ». Les fonctions techniques sont au centre. Et enfin les solutions technologiques sont énoncées à droite de chaque fonction technique répondant à la question « Comment ? ». /ůůƵƐƚƌĂƚŝŽŶ ϱϭ͗ ^ĐŚĠŵĂ ĚĞ ůĂ ĨŽŶĐƚŝŽŶ ƉƌŝŶĐŝƉĂůĞ ĚƵ ŵŽĚƵůĞ
Il convient de noter que la question « Quant ? » ne fait pas allusion à une simultanéité 60 FAST est l'acronyme de « Functionnal Analysis System Technique »
84 | MÉMOIRE / Innovation urbaine : la Marche Productive
2.4.
Le projet-prototype dans la rue Pierre Lescot
Le Cahier des Charges d'un moduleǦpiézo | 85
LA SIGNALISATION DU PROJETͲPROTOTYPE
LE PLAN MASSE
Signalisation et point d'appel : A et A'
Information : A
Dallage complet piézoͲ électrique : B
/ůůƵƐƚƌĂƚŝŽŶ ϲϳ͗ WĂŶŶĞĂƵ ĚΖŝŶĨŽƌŵĂƚŝŽŶ ĞdžƉůŝƋƵĂŶƚ ůĂ ŶĂƚƵƌĞ ĚƵ ƉƌŽũĞƚ͕ ƐŽŶ ĂƐƉĞĐƚ ƚĞĐŚŶŝƋƵĞ͕ ůƵĚŝƋƵĞ Ğƚ ƐŽŶ ŝŵƉĂĐƚ ĠŶĞƌŐĠƚŝƋƵĞ
« En ce moment, l'énergie fournie peut alimenter .. lampadaires » « Ici la rue est éclairée grâce à Vous ! »
/ůůƵƐƚƌĂƚŝŽŶ ϲϲ͗ ΗdŽƚĞŵΗ ƐŝŐŶĂůĂŶƚ ůΖĞdžŝƐƚĞŶĐĞ ĚƵ ƉƌŽũĞƚ Ğƚ ŵĞƚƚĂŶƚ ă ĂǀĂŶƚ ůĂ ƉƌŽĚƵĐƚŝŽŶ ũŽƵƌŶĂůŝğƌĞ
Parcours, jeux urbains : C /ůůƵƐƚƌĂƚŝŽŶ ϲϱ͗ WůĂŶ ŵĂƐƐĞ ĞdžƉůŝĐĂƚŝĨ ĚƵ ƉƌŽũĞƚ
A' correspond à la signalisation du projet au Nord de la rue Lescot. Un panneau d'information ainsi qu'un panneau lumineux donnent en temps réel la production d'énergie fournie par les pas des piétons. B correspond à une emprise du sol entièrement recouverte de dalles piézoͲélectriques. Les piétons entrant et sortant dans les Halles passent obligatoirement dessus. La production d'énergie est maximale à cet endroit (emplacement optimal). A correspond à la signalisation du projet au Sud de la rue Lescot. Un « Totem » indiquant le pourcentage de lampadaires pouvant être alimenté pour la nuit est mis en place. Ce symbole, haut et imposant, met en valeur le travail collectif fait pas la foule de piétons. De plus, un panneau d'information expliquant le principe technique de la piézoͲélectricité, le projet, ses impacts et les estimations est installé. Cet aspect pédagogique offre aux grands et aux petits la possibilité de mieux comprendre et appréhender le projet. C correspond au « parcours ». Des dalles piézoͲélectriques sont placées d'une façon à dessiner une forme en zigͲzag. Les piétons peuvent alors se prendre au jeu et « suivre ce parcours ». Chaque dalle s'illumine sous la pression des pas. Les passants sont alors amenés à suivre ce cheminement particulier. Cette nouvelle manière de marcher donne un aspect un peu ludique à l'expérience.
Un projetǦprototype dans le Paris piétonnier : le Quartier des Halles | 97
/ůůƵƐƚƌĂƚŝŽŶ ϲϴ͗ sƵĞ ĚĞ ůĂ &ŽŶƚĂŝŶĞ ĚĞƐ /ŶŶŽĐĞŶƚƐ͕ ƐŝŐŶĂůŝƐĂƚŝŽŶ ĚƵ ƉƌŽũĞƚ ƉĂƌ ůĞ ΗdŽƚĞŵΗ
98 | MÉMOIRE / Innovation urbaine : la Marche Productive
/ůůƵƐƚƌĂƚŝŽŶ ϲϵ͗ sƵĞ ĚĞ ůĂ WůĂĐĞ ĚĞ ůĂ &ŽŶƚĂŝŶƌĞ ĚĞƐ /ŶŶŽĐĞŶƚƐ͕ ĚĞ ũŽƵƌ Ğƚ ĚĞ ŶƵŝƚ͕ ƐŝŐŶĂůŝƐĂƚŝŽŶ ĚƵ ƉƌŽũĞƚ ƉĂƌ ůĞ ΗdŽƚĞŵΗ Ğƚ ůĞ ƉĂŶŶĞĂƵ ĚΖŝŶĨŽƌŵĂƚŝŽŶ Un projetǦprototype dans le Paris piétonnier : le Quartier des Halles | 99
33
COURSE
PROJECT MANAGEMENT Civil Engineering project, 3rd year - 2012 / 2013
Civil Engineering
Professor : Mr Gobin
34 PerspecƟves of the project
The statement of the subject was a simple drawing of a residenƟal complex. The aim was to discover construcƟon and architectural professions. A complete Įle with all documents has been done through this residenƟal program. • As a building owner : A site was chosen depending on its physical characterisƟcs (soil study, social environment,...). A program was then implemented (surfaces, distribuƟon of accommodaƟons, special arrangements related to architectural design). • As an architect : With the program deĮned, an architectural soluƟon was proposed (plans, secƟons, renderings, materials).
• As a construcƟon engineer : The technical aspect of the project was studied through construcƟve choices (engineers and foundaƟons plans, detailing drawings,...). • As a construcƟon company : The site installaƟon was planned with site plans and secƟons as schedules showing the workloads and esƟmated prices for the construcƟon of the complex. DuraƟon of the exercise : 2 months. Work in group of 4 persons. Worked with Revit version 2011, AutoCAD 2D, MS Project, Word, Excel, Photoshop, Illustrator, InDesign.
Q
Planning prévisionnel
Planning constructif étendu
LEGENDE
INT
SdB
R vid obin an et ge d'e s et ssa dé is, sin fe cti on
Alimentation électrique spécifique
C div om isio pte nn ur air D e de ispo pr sit ote if cti on V co ann m e pte ap ur rès
Luminaire en applique
Tableau abonné
RJ
V co ann m e pte av ur an t
RADIATEUR
Détail :
Luminaire (douille en bout de fils au plafond)
Combiné interphone logement
C d'e olon au ne fro id e
INT
Luminaire en applique au dessus de la vasque + inter + PC+T (classe II)
Liaison équipotentielle des masses métalliques
Interrupteur simple allumage
Raccordement à la terre de l'immeuble
Interrupteur SA avec voyant lumineux
Radiateur électrique
Interrupteur va et vient
EV Dint = 80mm
EU Dint = 30mm
S SdB 10 A
Radiateur
LL
ML
Sèche - serviettes
Hotte 10A
Ballon 20A
Prise de courant 16A + T
x2
LV
LV
Four 20A
RJ
Double prises de courant 16A + T
RADIATEUR
x2
Double prises de courant hautes 16A + T
x2
RJ
RADIATEUR
Maitrise et Gestion de Projet M. Gobin ESTP / B3 / BAI
Décembre 2012
Dint = 20mm
RADIATEUR
B
Dint =10mm
Repérage logement type
Bouton poussoir
x2
TV
RJ
Prise de communication RJ45 (PTT)
TV
Prise TV + FM
LL
Prise spécialisée 20A + T pour lave-linge
LV
Prise spécialisée 20A + T pour lave-vaisselle
S
Bouton poussoir sonnerie
=1 D
int
m 0m mm = 10
ML
Dint = 14mm EU Dint = 33mm
Dint = Dint = 12mm 10mm LV EU Dint = 33mm
35
Sortie de câble 2x32A + T pour plaque de cuisson
RJ
LOGEMENT TYPE : PLAN D'ELECTRICITE
B
t
Din
Echelle : 1/100e 0
0,5
1
2
BOUSSARD-PHELIPOT Ophélie DUPIN Alice FLORES Sandra LENCOT Julie
Plan 40
Maitrise et Gestion de Projet M. Gobin ESTP / B3 / BAI
Décembre 2012
LOGEMENT TYPE : RESEAUX FLUIDES
Echelle : 1/50e 0
0,5
1
2
BOUSSARD-PHELIPOT Ophélie DUPIN Alice FLORES Sandra LENCOT Julie
Plan 41
COURSE
STEEL CONSTRUCTION Civil Engineering exercises, 2nd year - 2011 / 2012
Civil Engineering
Professor : Mr Quenelle
36
Extraits des applicaƟons
Work at home to calculate and design detailing drawings as : • girder conƟnues on four supports (exercise 2), • truss (exercise 3), • steel column (exercise 4), • steel cross-beam (exercise 5). DuraƟon of the exercise : 1 day per exercise. Individual work. Worked with hand drawings, calculator.
37
Thank you
Alice Dupin 708/76 Roslyn Gardens, Elizabeth Bay, NSW 2011, Sydney - Australia +61(0)435 323 297 adupin88@gmail.com LinkedIn / Website