ANDREA DAL NEGRO born: 13.05.1990 - Bolzano (ITA) address: Via Mendola 49/C - Bolzano (ITA) e-mail: and.dalnegro@gmail.com website: http://andreadalnegro.wix.com/architect youtube, vimeo: Leda Dna RELEVANT TRIPS Amsterdam|Athens|Berlin|Canterbury|Chicago| Cincinnati|Detroit|Dublin| Eindhoven|Florence| Lisbon|London| Maastricht|Munich|New York|Rome| Rotterdam|Tbilisi|Utrecht|Valencia|Venice|Zurich
SOCIAL COMPETENCE
LANGUAGES
SOFTWARE SKILLS
Team spirit Multicultural adaptation Management and organization ability Resistance to stress On time
Italian - motherlanguage German - fluent English - fluent
Rhinoceros Maxwell Render Vray Render Autocad Cinema 4D Photoshop Illustrator Indesign Premiere
EDUCATION 2001
Primary School - Bolzano (ITA)
2004
Intermediate School - Bolzano (ITA)
2009
Humanystic High school “Carducci” - Bolzano (ITA)
2012
Bachelor of Architecture - University of Innsbruck (AUT)
2013
University of Technology - Eindhoven (NL)
2015
Master of Architecture - University of Innsbruck (AUT)
WORK EXPERIENCE 2011 Now
Collaboration with arch. Wolfram Pardatscher - Merano (ITA) Collaboration with “Work System”, arch. Renzo Gennaro - Bolzano (ITA)
PUBLICATIONS 2011-2013 2014
Research and Project Almanac - Institute for Experimental Architecture.Hochbau Alps N.2
COMPETITIONS 2014
2nd price | 3. Real Estate Award - Munich Airport
EXHIBITIONS 2012
Venice Architecture Biennale, SLO Pavillion - Venice (ITA)
2012
Prague Biennial - Prague (CZ)
2013
Architektur und Tirol, Best of 2.0 - Innsbruck (AUT)
2014
Arredo Design Fair - Bolzano (ITA)
2014
Modern Art Museum “MART” - Rovereto (TN)
2014
Expo Real 2014 - Munich (DE)
PARAMETRIC SEMIOLOGY 2: UNIVERSITY CAMPUS - Exsurgi ALPINE HUT “MALGA FOSSE” SWIMMING POOL TELFS - Acqua Neritea LINES IN ARCHITECTURE DEMOCRATIC VISION OF GEORGIA - Social Platform Tbilisi ON TOP OF EVERYTHING - Observatory Shiny Rock ECOLOGICAL EXHIBITION - ECcO
3. REAL ESTATE AWARD MUNICH AIRPORT BIO ARCHITECTURE CENTER
- M-TEC
- Graduation Thesis
Copyright Š 2015 | All rights reserved. Unless mentioned differently, all rights on texts, layout, pictures and images found in this publication, belong to Andrea Dal Negro and to the mentioned collaborators
MUSIC
lecture halls EXSURGI
congress halls In collaboration auditorium
canteen
with Felix Perasso
printshop
stationery store laboratories entertainment/relax stations Bachelor practice roomsproject - Part2 grocery store workshop Prof. Dr. Patrik Schumacher, Ass. Prof. cafeteria pc rooms Dr. Toni Kotnik, DI Paul Mandler, DI student’s flats restaurant
Thomas Mathoy | 2012
interfacultary building
http://www.youtube.com/watch?v=YgsJnOc5RM4
The program of the campus includes three faculties (architecture, arts and design, music) and various interfacultary buildings. Each of the three faculties is organised as a segment of the radial system. As a result we get a hierarchy in the location of the buildings of one faculty. Consequently the higher ranked buildings (institutes, rector ships) are located at the center of the radial grid, while the subsidiary buildings (laboratories, practice rooms, workshops) are situated at the building site borders. The interfacultary buildings and the green areas generate a continuation of the existing accesses to the campus. Consequently one row of interfacultary buildings and green areas goes along the river bank, and the other row runs across the central space of the radial grid.
field application
MUSIC
youtube:
ARTS & DESIGN
facultary building
ARCHITECTURE
ARTS & DESIGN
PARAMETRIC institutes info point rectorships SEMIOLOGY 2: administrative/student services secretariats UNIVERISTYCAMPUSlibrary
institutes rectorships secretariats
info point administrative/student services library
lecture halls congress halls auditorium laboratories practice rooms workshop pc rooms student’s flats facultary building
canteen printshop stationery store entertainment/relax stations grocery store cafeteria restaurant interfacultary building
1. At first we defined the central area of the campus, choosing tree central points, which later should be the centers of the three faculties.
1
3
2
4
2. The next step was to create flows which produce a correlation between the existing environment and the central area of the building site. This flows create a new path network which can be seen as an extension of the existing one to the center of the campus. Resultant there is the possibilitynto access the campus from every position at the border of the building site. 3. The next step was to create a radial street system in the campus. This radial path network reacts to the border of the building site and creates a central area in the middle of the campus. Around this center there are a first, a second and a third ring. 4. As a result we get a radial raster in the building site. To create little squares at the crossroads the building lots were brought down to a round figure. 5. The path network was build trough an offset of the obtained raster. The paths wide increases with the expected number of users on this path.
5
6
6. The parts of the raster, which are not part of the path network, are the building lots.
faculty1_arts & design
faculty2_music
faculty 3_architecture laboratories_practice rooms_workshop_pc rooms_student’s flats
lecture halls_congress halls_auditorium
Looking at the different functions of the buildings from one faculty, we get three main categories of buildings which are attended by different social individuals. With the intention to create a system of signification, we changed the topology of the buildings from one category to the next one. As a result we get an evolution of the buildings in the campus from the border to the center of the field: The buildings at the border of each Faculty with function of laboratories, practice rooms, workshops and pc rooms consist of a number of smaller buildings. The next buildings, which contain the functions of lecture and congress halls, are the fusion of these smaller buildings into one bigger building. And finally the last buildings which are located in the middle
institutes_rectorships_ secretariats
of the campus and contain the institutes, change topology, acquiring a courtyard. The buildings of one faculty are always made up of the same number of smaller shells and so they differentiate from each other with the number of excrescences the buildings have. Accordingly the faculty of architecture has four excrescences, the faculty of music tree, and the faculty of arts and design has two of them. So as a result the user of the campus understands trough the morphology and the topology of a building what goes on inside and which faculty it is part of. The connections take place in the middle of the buildings and they are in direct contact with the entry. The user arrives in a hall and from there he can reach the different floors.
main accesses
main accesses main accesses
interfacultary orientation facultary orientation
connection ramps surface height
interfacultary interfacultary orientation orientation facultary orientation facultary orientation
To get a second higher ranked street system for the campus, was introduced a surface which works as a second layer for the orientation of the users. The vertical connections between these two layers are located at the headbuildings of the faculties - the Institutes, and at the interfacultary buildings. In those areas the surface sunk in the ground. When the user arrives at the campus he will get on this second surface. At first he has to
connection connection ramps ramps surface height surface height
find the faculty he is looking for: his first orientation is an interfacultary one. So when the user finds his faculty, he steps down to the lower level. On this lower level a facultary orientation takes place. If the user is searching for a specific building of this faculty, he can find that trough the topological differentation of the forms. user on upper level -> interfacultary orientation user on lower level -> facultary orientation
interfacultary buildings green areas
interfacultary windows
The interfacultary buildings like library, cafeteria and restaurant are located around the green areas and under the surface. Normally the building takes place on a site, but for the interfacultary buildings it is different. They develop around the sites, producing a sort of “negativ�. The pattern is flipped. This sites are filled with threes and fountains. In
interfacultary buildings interfacultary surface
conclusion, when the user on the upper surface sees a gree area, he understands that an interfacultary building takes place around this area. The perforation on the upper surface shows where an interfacultary building takes place. The user can reach them going down the ramps to the green areas.
perforation
green areas
result topology_1
topology_2
The perforation shows the access to a building. It consists of 2 Systems: 1) Engraving: it brings the user to the main entry 2) Opening: it builds the main entry The density of the engraving lines decrease in direction of the entry. The ground design shows the access to the building. The site surface is in green parts and fountains subdivided. They
topology_3
interfacultary buildings
bring the user to the main entry. This ground design shows the topology of the building: - 2 green parts: Topology_1 - 3 green parts: Topology_2 - 3 green parts + fountains: Topology_3 - 4 green parts + fountains: green areas The result of perforation and green areas are the semiological aspect which brings the user to the entrance of the buildings.
ALPINE HUT “MALGA FOSSE” Competition for the redevelopment of the alpine hut “Malga Fosse” in Siror [Tn-Italy]
Arch. Armando Marra The construction of the new shelter in a site of special landscape value, such as Malga Fosse, was regarded as an opportunity to overhaul the entire complex and provide outdoor spaces suitable for various activities and events for the promotion of Alpine culture. The main outdoor space became a sort of ‘square-viewpoint’, which gives the character of a small urban aggregate. Therefore emerges the image of a ‘refuge fortress’ which refers to the complex architecture memory typical of this region, made from castles and fortresses perched on the mountain to guard the territory. Artificial structures that look like true natural concretions, they work as referential semiotic fires for the whole landscape.
17,0 2,0 5,0 2,0 0,5 3,0 10,0 6,7 10,0
60,0 28,0
2,2 2,0 0,5 5,0
COATING WITH STONE GABIONS METAL STRUCTURE METAL HOOKS VENTILATED INTERSPACE WOODEN BEAMS WOODEN PANEL THERMAL INSULATION WIND BARRIER LOW DENSITY WOOD-WOOL PANEL THERMAL INSULATION VAPOUR BREAK OSB PANEL THERMAL INSULATION LARCH WOOD PANELS
pannello fotovoltaici per la produzione di elettricità pannello solare termico per acqua calda sanitaria
+10,40 U < 0,15 W/ m
2
k
+6,30
+3,40 2 U < 0,2 W/ m k
+0,00
+0,00
-2,90
-2,90
+0,00
Cover with Photovoltaic Panels
Jacket with Photovoltaic Panels
Floor 2 - Hotel Rooms
Floor 1 - Custodian Apartments
Multi Purpose Area (Court)
Ground Floor - Restaurant
Garage (Porch)
Basement - Services and Technical Area
Geschlossen
Weit geöffnet
Leicht geöffnet
Geschlossen
07.00 Uhr
09.00 Uhr
12.00 Uhr
18.00 Uhr
SWIMMING POOL TELFS ACQUA NERITEA
in collaboration with Barbara Striebl and Simon Vettori
Schnitt B
Tiefgarage
DI Heike Bablick | 2012
Materialraum Wellness -5,00m
Solarium Massage Massage Fango
WC m WC w
Entspannungsliegen Whirlpool
Wartebereich Dampfbad -5,00m
Schnitt A Technik
Sauna
The building lies over the landscape and the height differences are made tangible in interior. This organic form should thus deliberately differentiate from the environment. This “shell” is structured by bands, consisting of photovoltaic panels and translucent insulating glass panels . The photovoltaic panels follow the solar cycle, so that a vertical sunlight and thus optimal energy is created. Curved forms are present in the outdoor area, on the ramp indoors and again further into the outdoor area. This creates a direct connection between inside and outside. These free forms lead to the various areas such as swimming pools, lawn areas, etc. Outside the shape of the shell is again taken up for the kiosk to create an uniform design.
Lager
Sprungbecken
Schwimmbecken Liegebereich
-5,00m
Schnitt A Spaßbecken
Küche
Restaurant
-5,00m
Grundriss Erdgeschoss 0
5
10
20
Schnitt B
0,00m
-5,00m
Schnitt A 0
5
10
20
Ansicht Nord 0
5
10
20
5
10
20
5
10
20
Ansicht West 0
Ansicht Ost 0
Gas Pressure Spring
Photovoltaic Panel
Insulated Glazing Photovoltaic Panels
Insulated Glazing
Translucent Glazing
Steel Ring
Insulated Glazing
Concrete Wall
Truss Structure
Floor -Tiles -Screed / Pavement Heating -Thermal Insulation -Reinforced Concrete -Subconcrete
Thermal Skin
Facade System
LINES IN ARCHITECTURE In collaboration with Felix Perasso
Prof. Kolatan Ferda Rahim Ali, Thomas Grabner, Ursula Frick | 2013 There is no architecture without the line. The straight line connecting two points, two lines are crossed to the grid, three lines to the area. Geometry describes the logic and proportionalities we think we find in nature. But the line is much more than just an expression of the laws, it is a cultural asset which stood for centuries generations of artists and architects as a means of creative creation for ever newer forms of expression to the side. In antiquity and the Renaissance, the line has been understood and applied as ordering principle behind which hid universal ideas of truth and beauty. In the Baroque period then it was transformed ( as a moving curve) in a dimensional - spatial element, which hitherto unknown forms created. The once symbolic content became the emotion of the viewer at once actively and directly that involved. Still later, in Art Nouveau style , the line was further swung the ambivalent interdependence of space and detail with all direct references to the physical form and an entirely new conception of motion. ( In reference to modern dance, film, and the automobile, which all huddled at the same time as new achievements in the company) SE Architektur als Zeichen Die Autonome Linie
Andrea Dal Negro 0917878 Felix Perasso 0916069
DEMOCRATIC VISION OF GEORGIA SOCIAL PLATFORM TBILISI
Dr. Arch. AAdipl Eric Sidoroff | 2013
REGIME
Architecture for the system
OLD
Transparency
Edgy
Round
Monochrome
Colorful
http://www.youtube.com/watch?v=bGaww5bSfDc
Object-like Character Hidden
-8.20
NEWBUILDING
NEW
Monumentality
youtube:
The project consists on a space that reflects the different aspects of Georgian and shows what the past was and what the future may be. This project aims to provide a new input into the Georgian architecture. The new design shows how the mentality of the times changed the architecture. New times require new architecture. The building takes place near the Parliament, a tipical Georgian building with a representative character. Thus, the democratic situation is placed under the eyes of politicians. Art Gallery: is the largest building, art is not hidden. Atelier: The production of art is visible and transparent. Restaurant: â&#x20AC;&#x2DC;The Supraâ&#x20AC;&#x2122; can spread to a larger area. Country product market: the sale of typical products is no longer fragmented, but you can find many products on the same site. Media Library: Technology linked to culture for all ethnic groups. Place of event: Multi-functional and flexible in use.
Architecture for people
Topographic Landscape Disclosed
B
raumpro-
სივრცე პროგრამა
Place of Event
Media Library
-10.50
A
-10.00
Art Gallery
A
Atelier Place of Event
C.P. Market
Media Library U-April Park
Art Gallery Restaurant
U-Parlament
-8.50
Restaurant C.P. Market -9.00
B
-2.00
-5.00 -7.00
-10.00
-10.20 -10.80
-10.50
Atelier
Atelier
ON TOP OF EVERYTHING
OBSERVATORY ‘SHINY ROCK’ Prof. Sjef Van Hoof, Jan Schevers| 2013 The building is shaped like a rock, giving the experience to stay inside a mountain.The surface are made of aluminium panels, making the building shining and visible from the distance. The path of the mountain continues all around the building until the cupola, the top of everything. The way to reach the cupola gives different views, different framings, different sensations. The cupola and its terrace allow to look everywhere: at the landscape and at the sky, during the day and during the night. The main structure is made out of a concrete core, which supports the truss of the floors. The last floors are supported by a steel beam. The inclination of the facade gives the impression to the user to be suspended in the air.
The object is placed on the top of a mountain, on top of everything
The parts are manipulated, to give to the object an irregular shape, like a mountain
The facade are optimized for the sun and for a better view of the landscape giving a “suspension effect”
The top is taken off to let the space for the observatory
The object is splitted in diagonal parts, changing the perception of the inside and of the horizontal floors, avoiding also excessive snow loads
All around the building the hiking path continues until the cupola
Observatory
Facade Panels
Floors Structural Beam
Stairs Central Core
Path
Floor 6 - Observatory Floor 6 - Observatory
Floor 5 - Terrasse / Laboratory Floor 5 - Terrasse / Laboratory
Floor 4 - Rooms
Floor 4 - Rooms
Floor Floor 3 - Rooms Floor 3 - Rooms Pavement > Larch wood 7
Wall Aluminium panels > Alucobond Plus
1
Aluminium structure > Alucobond System
Pavement heating 8
2
Waterpfoor membrane > Sika Sarnafil G476
Screed on metal deck 9
3
Thermal insulation > Mineral wool in OSB sandwich
Floor 2 - Restaurant
Installations 10 2 - Restaurant Floor
4
Thermal insulation > Mineral wool 11
Steel structure 5 Aluminium panels > Alucobond Plus
Truss structure 12
6
Floor 1 - Reception
Aluminium panels > Alucobond Plus 13 Floor 1 - Reception
Floor Pavement > Larch wood
7
Pavement heating 8 Screed on metal deck 9 Installations 10 1
Thermal insulation > Mineral wool 11 5
Truss structure 12 6
Aluminium panels > Alucobond Plus 13 7
Wall Aluminium panels > Alucobond Plus
1
Aluminium structure > Alucobond System
2
Waterpfoor membrane > Sika Sarnafil G476
4
Pavement heating 8
13
10 11
Installations 10 Thermal insulation > Mineral wool 11
Steel structure 5 Aluminium panels > Alucobond Plus
7
12
Screed on metal deck 9
3
Thermal insulation > Mineral wool in OSB sandwich
9
Floor Pavement > Larch wood
Truss structure 12
6
Aluminium panels > Alucobond Plus 13 1
8
3
4 2
AUTARCHIC SYSTEM WATER
ENERGY
Water and snow are collected in a tank
Solar panel collect the sun-heating
the water is filtered with bacteria
the energy is collected in an accumulator
used for services
used for boilers
the gray water is filtered and used for washing machines, WC and for the heating
and for electricity
the dirty water is collected in a septic tank
an extra fuel-generator is placed in case of emergency
F0 - Custodian apartments
D1
D2
D3
F1 - Reception/Bar/Services
D4
D5
D6 F2 - Restaurant
F4 - Hotel Rooms
S1
S1
F5 - Common Space/Laboratory
F3 - Hotel Rooms
F6 - Observatorium/Laboratory
D1
F6
F6 D2
F5
D3
F5
F4
F4 D5 D4
F3
F3
F2
F2
F1
F1
F0
F0
D6
S1
ECOLOGICAL EXHIBITION ECcO
In collaboration with Felix Perasso
Competition for ecological and recycle exhibition systems | 2014 The project aims to create stands simple to carry and to assemble, with a wide variety of shapes, avoiding the stand with a traditional mold, monotonous and equal to each other, with the advantage of drastically reducing costs and preserving the nature. ECcO is an ecological project, simple and fun. It consists of three elements: cartons, pallets (or’ benches’ ) and electric cables. Each of these is easily available as a used product or sold on the market at low prices. Moreover, all the elements used are 100% eco-friendly and reusable. The company has the option to choose the size of the cartons appropriate to their needs and the provision of them using the ‘component schedule’, which provides a wide range of compositions, original and highly customizable.
TRANSPORT
UNLOADING
G
ASSEMBLY
PERSONALIZATION
STAND
SYSTEM A
MA CREATION OF SLOT
OVERLAY PIECES ON CABLE
VARIATION IN DEPTH
ROTATION
MB ROLLOVER INTERNAL SIDE
CREATION OF SLOT
DISPOSITION OF PIECES
JOINT
SYSTEM B
CREATION OF SLOT
OVERLAY PIECES ON CABLE
VARIATION IN DEPTH
ROTATION
MB ROLLOVER INTERNAL SIDE
CREATION OF SLOT
DISPOSITION OF PIECES
JOINT
3. REAL ESTATE AWARD MUNICH AIRPORT
M-TEC - PARK OF INNOVATIONS In collaboration with Thomas Hinterholzer, Felix Perasso, Patrik Schmied, Daniel Tolpeit
1 EVENT SQUARE Das Herzstück des Parks. Besucherströme werden hier bei verschiedensten Events gebündelt. 1 EVENT SQUARE Das Herzstück des Parks. Besucherströme werden hier bei verschiedensten Events gebündelt. 1 EVENT SQUARE Das Herzstück des Parks. Besucherströme werden hier bei verschiedensten Events gebündelt.
P
2nd PRICE - Competition for the new visitors park in the airport of Munich | 2014 The M-TEC is an innovative and multi-functional park thought for the guests of the Munich airport. The park stands for innovation and technology, a place where tecnhical progresses are visible and usable for everybody. This area under the brand “M-TEC - Park of Innovations” is perceived as a unit, in which a variety of uses are possible. Its design attract different target groups, mixing activities for locals and for international audiences. In the long term, the park with its buildings will become a Landmark for the Munich airport, reinforicing its tecnological and sustainable politic. Guests will fly to Munich over the weekend to the M-TEC to visit and participate in its events. By creating an urban scenario, the Munich Airport continues develop into a Park dertoInnovationen city-like structure with all its advantages.
1 EVENT SQUARE 6 E-LADESTATIONEN Das PARKPLATZ Herzstück desMIT Parks. Besucherströme werden Besucher parken und können gleichzeitig hierPbei verschiedensten Events gebündelt. ihre Elektrofahrzeuge aufladen, die durch Solar-Carports mit Energie versorgt werden. 6 PARKPLATZ MIT E-LADESTATIONEN 1 EVENT SQUARE Besucher parken und können gleichzeitig DasPElektrofahrzeuge Herzstück des Parks. Besucherströme werden ihre aufladen, die durch Solar-Carports hierEnergie bei verschiedensten Events gebündelt. mit versorgt werden. 6 PARKPLATZ MIT E-LADESTATIONEN Besucher parken und können gleichzeitig ihrePElektrofahrzeuge aufladen, die durch Solar-Carports mit Energie versorgt werden.
2 MUSEUM Vermittlung der Geschichte mit Verknüpfung zu zukünftigen technologischen Entwicklungen. 2 MUSEUM Vermittlung der Geschichte mit Verknüpfung zu zukünftigen technologischen Entwicklungen. 2 MUSEUM Vermittlung der Geschichte mit Verknüpfung zu zukünftigen technologischen Entwicklungen.
2 MUSEUM Vermittlung der Geschichte mit Verknüpfung zu zukünftigen technologischen Entwicklungen.
6 PARKPLATZ MIT E-LADESTATIONEN Besucher parken und können gleichzeitig 7 Elektrofahrzeuge ihre aufladen, die durch Solar-Carports INNOVATIONSZENTRUM mit versorgt werden. Bietet die Möglichkeit zur Ausstellung aller Neuerungen auf PEnergie dem Technologiemarkt in Verbindung mit Mobilität. 6 PARKPLATZ MIT E-LADESTATIONEN 7 INNOVATIONSZENTRUM Besucher parken und können gleichzeitig Bietet die Möglichkeit zur Ausstellung aller Neuerungen auf ihre Elektrofahrzeuge aufladen, die durch Solar-Carports dem Technologiemarkt in Verbindung mit Mobilität. mit Energie versorgt werden. 7 INNOVATIONSZENTRUM Bietet die Möglichkeit zur Ausstellung aller Neuerungen auf dem Technologiemarkt in Verbindung mit Mobilität. 7 8 INNOVATIONSZENTRUM E-MOBILITY CENTER Bietet die Möglichkeit aller Neuerungen auf Ein Verleih für jeglichezur ArtAusstellung von Elektrofahrzeugen. dem Technologiemarkt in Verbindung mit Mobilität. Außerdem Start für E-Mobility Rundfahrten am Flughafen. 8 E-MOBILITY CENTER Ein für jegliche Art von Elektrofahrzeugen. 7 Verleih INNOVATIONSZENTRUM Außerdem Start für E-Mobility Rundfahrten am Flughafen. Bietet die Möglichkeit zur Ausstellung aller Neuerungen auf dem Technologiemarkt in Verbindung mit Mobilität. 8 E-MOBILITY CENTER Ein Verleih für jegliche Art von Elektrofahrzeugen. Außerdem Start für E-Mobility Rundfahrten am Flughafen. 9
8 E-MOBILITY CHECK-IN BEREICH CENTER Besuchern wirdjegliche die Möglichkeit geboten, bereits am Ein Verleih für Art von Elektrofahrzeugen. M-TEC Gelände einzuckecken. Außerdem Start für E-Mobility Rundfahrten am Flughafen. Dies ermöglicht ihnen einen längeren Aufenthalt im Park. 9
CHECK-IN BEREICH Besuchern wird die Möglichkeit geboten, bereits am 8 CENTER M-TECE-MOBILITY Gelände einzuckecken. Ein für jegliche Art vonlängeren Elektrofahrzeugen. DiesVerleih ermöglicht ihnen einen Aufenthalt im Park. Außerdem Start für E-Mobility Rundfahrten am Flughafen. 9 CHECK-IN BEREICH Besuchern wird die Möglichkeit geboten, bereits am M-TEC Gelände einzuckecken. Dies ermöglicht ihnen einen längeren Aufenthalt im Park.
9
Park der Innovationen
CHECK-IN BEREICH Besuchern wird die Möglichkeit geboten, bereits am M-TEC Gelände einzuckecken. Dies ermöglicht ihnen einen längeren Aufenthalt im Park.
9 CHECK-IN BEREICH Besuchern wird die Möglichkeit geboten, bereits am M-TEC Gelände einzuckecken. Dies ermöglicht ihnen einen längeren Aufenthalt im Park.
Park der Innovationen
2 MUSEUM Vermittlung der Geschichte mit Verknüpfung zu zukünftigen technologischen Entwicklungen.
Park der Innovationen
10 TESTSTRECKE
Interessenten können hier die Fahrzeuge aus dem Innovationszentrum oder dem E-Mobility Cente
10 TESTSTRECKE
Interessenten können hier die Fahrzeuge aus dem Innovationszentrum oder dem E-Mobility Cente
10 TESTSTRECKE
Interessenten können hier die Fahrzeuge aus dem Innovationszentrum oder dem E-Mobility Cente
10 TESTSTRECKE
Interessenten können hier die Fahrzeuge aus dem Innovationszentrum oder dem E-Mobility Cente
10 TESTSTRECKE
Interessenten können hier die Fahrzeuge aus dem Innovationszentrum oder dem E-Mobility Cente
er testen.
er testen.
360°
4 360°RESTAURANT Ein Restaurant mit unvergesslichem Ausblick. Beide, Touristen und Geschäftsleute können dieses Angebot nutzen.
3 MULTI-MEDIA FASSADE Blickfang sowie Landmark des Areals. Ermöglicht kulturelle und soziale Events, Liveübertragungen, Infotainment und Bespielung durch Werbung.
5 AUSSICHTSPLATTFORM Ein Lift ermöglicht das barrierefreie Erreichen der neuen Aussichtsplattform auf dem Dach des Museums mit einem späktakulären Ausblick.
360°
4 360°RESTAURANT +- 0,00 Ein Restaurant mit unvergesslichem Ausblick. Beide, Touristen und Geschäftsleute können dieses Angebot nutzen.
3 MULTI-MEDIA FASSADE Blickfang sowie Landmark des Areals. Ermöglicht kulturelle und soziale Events, Liveübertragungen, Infotainment und Bespielung durch Werbung.
2328 m²
5 AUSSICHTSPLATTFORM Ein Lift ermöglicht das barrierefreie Erreichen der neuen Aussichtsplattform auf dem Dach des Museums mit einem späktakulären Ausblick. ERWEITERUNGSZONE A
3095 m² + 3,00
+- 0,00
+ 6,00
2432 m²
+- 0,00
+ 3,00
SZONE B
ERWEITERUNG
N
-1,50 11 PARK UND FITNESSBEREICH Die jetzige Anlage wird durch einen Fitness Parcour erweitert, der sowohl für Besucher als auch für Gäste eine Oase im Grünen bietet.
12 OUTDOOR-MUSEUM
13 LASER GAME Eine neue Art von Spielen mit Lasertechnologie. Teams können sich hier durch virtuelle Flughafenwelten kä
Die bestehende Ausstellung wird mit neuen Flugzeugen erweitert, und die Attraktivität gesteigert.
10m
11 PARK UND FITNESSBEREICH Die jetzige Anlage wird durch einen Fitness Parcour erweitert, der sowohl für Besucher als auch für Gäste eine Oase im Grünen bietet.
12 OUTDOOR-MUSEUM Die bestehende Ausstellung wird mit neuen Flugzeugen erweitert, und die Attraktivität gesteigert.
50m
13 LASER GAME Eine neue Art von Spielen mit Lasertechnologie. Teams können sich hier durch virtuelle Flughafenwelten kä
ACTUAL AND FUTURE SITUATION
2014
2018
hotovoltaikfläche
BRANDING
n
Park der Innovatione
Park der Innovationen
Park der Innovationen
äche
Park der Innovationen
Recognition of park
Homepage
obilität durch Verleih
Brochure and directory
Merchandise
Park der Innovationen
n
Park der Innovatione
n
Park der Innovatione
Park der Innovationen
Park der Innovationen
Park der Innovation
en
Park der Innovationen
Park der Innovationen
Park der Innovationen
ch E-Parkplätze
Park der Innovationen Park der Innovationen Park der Innovationen
Park der Innovationen
Park der Innovationen
lungen im Innovationszentrum Park der Innovatione
n
MASSENAUSGLEICH
Park der Innovationen
Park der Innovationen
Park der Innovation
en
en
Besucherhügel
VISIBILITY SICHTBARKEIT
Multi-Media Fassade
Photovoltaik
Park der Innovation
Park der Innovationen
Teststrecke
INFRASTRUCTURE The entire airport area has already well-connected structures. This infrastructure could be improved and made usable by electric vehicles. A long path surrounds the airport, offering interesting viewpoints on the runways so that visitor and residents can watch the airport everyday and get new impressions. This path connects the neighbouring towns with green roads, so that the airport employees and citizens can reach the airport with silent e-vehicle, surrounded by the nature.
15 min 44 min
15 min
1h
FREIBERGMOOS
FREISING 45,654 EINWOHNER (2013)
Bike E-Bike Segway P.U.M.A. E-Quad E-Auto
27 min 22 min 22 min 15 min 13 min 13 min
Bike E-Bike Segway P.U.M.A. E-Quad E-Auto
24 min 20 min 20 min 13 min 11 min 11 min
Bike E-Bike Segway P.U.M.A. E-Quad E-Auto
60 min 46 min 46 min 27 min 21 min 21 min
Bike E-Bike Segway P.U.M.A. E-Quad E-Auto
47 min 37 min 37 min 21 min 19 min 19 min
Parkhaus West
9,2 km
8,8 km
Park der Innovationen 18,6 km
,9
16
km
7,9
km
17,8 km
14 ,3
5,2 km
10 min
2h
km
5,5 km
11,2 km
HALLBERGMOOS 10,464 EINWOHNER (2012) 34,020 EINWOHNER (2008)
ERDING
HALLBERGMOOS 23 min
11 min
45 min
1,5 h
S-Bahn
Fußgänger
ANREISE 1 Anreisende zum Flughafen Ausfluggäste
(vom Parkhaus West)
Fahrrad/E-Mobility
öffentliche Verkehrsmittel
S-Bahn
ANREISE 3
ANREISE 2
vom Rückflug auf dem Zwischenstopp
aus der Periphärie
ERDING, FREIBERGMOOS, MOOSBURG, HALLBERGMOOS, uvm. 5 min
4 min
7 min
10min 20min
42 min
20 min
2h
MOOSBURG
e-mobility RUNDWEG
Park der Innovationen
ERDING 47 min
18 min
1h
2,5 h
4,5 h
BIO ARCHITECTURE CENTER
RESTORING THE ECOSYSTEM OF LAKE BURLEY GRIFFIN Graduation Thesis, Prof. Marjan Colletti | 2015 The last decade has witnessed a tremendous intoxication caused by the overgrowth of algae on the surface of the lake Burley Griffin, in Canberra, the Australian Capital Territory, a process called eutrophication. This phenomenon is the ecosystem response to the addition of artificial or natural substances, mainly phosphates, through detergents, fertilizers, or sewage. Negative environmental effects include hypoxia, the depletion of oxygen in the water, which may cause death to aquatic animals. This problem affects many areas, like the lake Chahou in China, or lake Erie in North America. The use of non-suitable fertilizer discharged large quantities of phosphates into the water. These, with nitrates, are the main nutrient for plants and, together with the sun, have stimulated an uncontrolled growth of blue-toxic algae. The blue algae, called also cyanobacteria, smother plants and fish and produce dangerous, sometimes lethal, toxins for humans. The ecosystem is heavily compromised, creating serious damage to the lake. In recent years the government has launched a po-
licy of environmental improvement, designed to reduce phosphate pollution and avoid large accumulations of algae on the surface. The project aims to strengthen the policy in architectural scale, alongside the measures taken by the government. The intention of this project is to clean the water of the lake through the controlled cultivation of microalgae. Under the motto “Algae destroy Algae”, microalgae grow in the lake’s water, where nutrients are assimilated and reduced by them, which allows a rapid growth. The lake water is then collected, used for the cultivation of microalgae and released into the lake at the end of the process containing a lower level of phosphates, since the majority has been “eaten” by the microalgae. This continuous filtration process lowers the overall level of phosphates, with the aim of bringing it back to normal in few years. In addition to acting on the problem, it is possible to obtain various biological products from the algal biomass, including bio-fertilizers, which would replace the old fertilizers, thus affecting also the root of the problem. The result is a dynamic architecture, which changes its appearance thanks to the color variation of microalgae and which acts continuously on a environmental disequilibrium. Architecture and biotechnology merge, creating a large and fascinating treatment system with a biological production, reducing the carbon footprint and contextualize itself in the environment in which it is built.
AVENUE NORTHBOU RNE
T CLU
NIE
RNE AVENUE
SR OS SS TR EE
UE AVEN
*TOAL BLUE-GREEN ALGAE CONCENTRATION (CELLS/ML)
CIVIC
NE
Period: 8 October 2013 - 7 April 2014
AUSTRALIAN WAR MEMORIAL NORTHBOU
T EE SR
NIE
CLU
COMMONWEALTH PARK
WA
WEST LAKE
Y
NS
L AW S O N C R E S C E N T
OW E GAR R Y
LTH AVENUE COMMONWEA
E
AC
PL
ES
E
RK TE
RR
AC
E
GS
ALEXANDRIN
G
GE
D DY
OR
GE
TE
AC
I
E
RR
GS
KIN
U
N AVE
EN B OW
JERRABOMBERRA WETLANDS
EAST BASIN PARLIAMENT HOUSE
BARTON
BO P
AVENUE
K PA R VE
EA
AA
NU
ENUE
IDE AV
ADELA
TE LO P
E NU EA VE
FORREST
BERR
E
RN
AN
C
OU
KINGSTON
EY ST
DEAKIN
RN OU
BERR
AA
VE
NU
ME LB
FORREST
E
DAY 8
AN
C
REET
PA
DUDL
E
R R OAD
NU
COT T E
EA VE
IVE
DR
BRISBANE
ME LB
N
MA
DEAKIN
https://www.youtube.com/watch?v=lZ2yQEIz6mQ
DAY 4
RR
BOWEN PARK
AVENUE
ADELA
EN
youtube:
REET
TE
B OW
EN D R IVE
BANKS ST
BRISBANE
UE
EN IDE AV
LA
EY ST
CENTRAL BASIN RD
BARTON YARRALUMLA
DR
ROYAL CANBERRA GOLF COURSE
WA
EA
IVE
DR
DUDL
ED
AC E MOLONGLO REACH
IVE
R R OAD
G
DAY 10
DAY 14
DAY 18
TE LO P
N
MA
EN
D DY
NR
OS SIL
K IN
A DR
I VE
BANKS ST
UE
N AVE
LOTUS BAY
PARLIAMENT HOUSE
LA
DU
GOVERNMENT HOUSE LOOKOUT
COT T E
DAY 1
E
ATTUNGA POINT PA
GE
YARRALUMLA YARRALUMLA
IVE
Experiment
IV E
AC
AC
ES
RR
PL
TE
NN
RD
YARRALUMLA BEACH
DR
N
DR
RK
EX
OR
DR
WARRINA INLET
CO
RUSSELL
K IN
GOVERNMENT HOUSE
AY
KINGS PARK
F LY
DRI
PA
DR
AN
AL
SW
LTH AVENUE
IV E F LY
NN
DR NA
DR
NA
GE
DRI
G
COMMONWEA
K RD
N P AR ST O
DR IVE DY DE NM AN LA
WA Y PAR K NG TUG GER AN O
AN
K IN
ASPEN ISLAND
CENTRAL BASIN
KIN
ROYAL CANBERRA GOLF COURSE
ROYAL CANBERRA GOLF COURSE
WA
A DR
YARRALUMLA LOTUS BAY BAY
NR
OS SIL
ED
EE
GOVERNMENT HOUSE LOOKOUT
G
ND
DU
FERRY TERMINAL
NI
YARRALUMLA
K IN
ALEXANDRIN
YARRALUMLA BEACH SCRIVENER DAM
BLUE GUM POINT
ORANA BAY
KE
REGATTA POINT
ME
WARRINA INLET
ROYAL CANBERRA GOLF COURSE
LAKE BURLEY GRIFFIN
EX
NURSERY BAY
GOVERNMENT HOUSE
D R IVE
AL
SCRIVENER DAM
HOSPITAL POINT REE
WESTON PARK EAST
PAR
COMMONWEALTH PARK
NERANG POOL
OU
TARCOOLA REACH
LINDSAY PRYOR YARRALUMLA ARBORETUM BAY
E
WEST BASIN
ACTON PENINSULA
SPINNAKER BLACK MOUNTAIN BEACH ISLAND
ATTUNGA POINT
ORANA BAY
NU
ND
BLUE GUM POINT
CAMPBELL
AV E
AY
WESTON PARK EAST
ION
WE
B A R R E N J O E Y D R I VE
NURSERY BAY *source: Australian Government - National Capital Authority: Lake Burley Griffin water quality monitoring - algae and bacteria sample results
FERRY TERMINAL BLACK MOUNTAIN PENINSULA
WESTON PARK WEST
SPRINGBANK ISLAND
UT
W
LAKE BURLEY GRIFFIN
HOSPITAL POINT
TIT
ES
SPINNAKER BLACK MOUNTAIN BEACH ISLAND
TARCOOLA REACH LINDSAY PRYOR ARBORETUM
ACTON PENINSULA
REGATTA POINT
REID
RK
1442
BLACK MOUNTAIN PENINSULA
CO
NERANG POOL
N
WE
YARRAMUNDI REACH
CITY HILL
AC PA RA DE
AUSTRALIAN PAR KE NATIONAL UNIVERSITY S
AN Z
DR
AN
AVENUE
PA
WA Y
FAIRBAIRN
ST O
DR IVE
DY DE NM AN
WESTON PARK WEST
B A R R E N J O E Y D R I VE
PAR K
WEST BASIN
ROWING CLUB
KURRAJONG POINT
LA
BLACK MOUNTAIN BEACH 1640
CIVIC
REID
R B A R I N E D R IVE
2076
FERRY TERMINAL
ROWING JETTY SPRINGBANK ISLAND
ACACIA INLET
N P AR
K RD
YARRAMUNDI REACH
PA R K E S W AY
GAR R Y
2577
L ADY DE N M
OW E
KURRAJONG POINT
CENTRAL BASIN
OS SS
TR
2760
WEST LAKE
D R I VE
ROWING CLUB
L AW S O N C R E S C E N T
ROWING JETTY
ACACIA INLET
LOTUS BAY
AUSTRALIAN NATIONAL UNIVERSITY CANBERRA NATURE PARK BLACK MOUNTAIN
PA R K E S W AY
2811
EAST BASIN
AN
IVE
L ADY DE N M
WE
WESTON PARK EAST
IVE
3440
CITY HILL DR
YARRALUMLA BEACH
CANBERRA NATURE PARK BLACK MOUNTAIN
D R I VE
21974
N
WESTON PARK WEST
R B A R I N E D R IVE
ty: teria sample results
ALGAE CONCENTRATIONS
ESTO LIM
AE /ML)
Lake Burley Griffin Algae Concentrations LAKE BURLEY GRIFFIN
NG
April 2014
TUG GER AN O
ONS
Develop private park
LABORATORY
park
EVENT - EXPO
ALGAL ART PLATFORM BIO RESTAURANT
EVENT - EXPO main entry
BIO MARKET
Public
LABORATORY ARCHITECTURE STUDIO
ARCHITECTURE STUDIO
ALGAL ART PLATFORM
BIO MARKET
BIO RESTAURANT yarralumla nursery
Semi-Public Private
Organization
Central points
BUILDING RELATIONS BUILDING’S LOCATION
Border lines
BUILDING’S AREA
13
Bio Market 1 Bio Restaurant 2 Expo - Event Area 3 Laboratory 4 Architecture Studio 5 Algal Art 6 Panoramic Platform 7 14 Palms 8 Canopy 9 Photovoltaics 10 Docks 11 Parking 12 Private parking 13 Algaenerator 14 Yarralumla Nursery 15
Stream lines
INTERCONNECTIONS
12
4
11 10 3
5 7
6
9 8
2
1
Hexagona
WALK PL
al elements
LATFORM
Building panels
Covering structure
COVERING PANELS
CANOPY
Open space elements
A
Cle
an
Masterplan
ALGAE PALMS
BIO ARCH. CENTER
A
Wa te
r
Tank Biomass
Laboratory Area: 1.100 m² +0,30m
+/- 0,00m
+/- 0,00m Laboratory Area: 650 m² +3,50m
Technical
WC Storage
WC
Architecture Studio Area: 910 m² +3,50m
Architecture Studio Area: 677 m² +0,30m
+4,50m
Expo/Event Area Area: 976 m² +0,30 m
564 AMSL = +/- 0,00m
564 AMSL = +/- 0,00m +0,30 m
+1,50m -0,60 m -0,60 m
+0,30m
+/- 0,00m
-0,30 m
+0,30m
+/- 0,00m
-0,30 m
Bio Restaurant Area: 661 m² +0,30 m
+0,30 m
WC Storage Kitchen
Bio Market Area: 1.167 m² +0,30 m
+0,30 m
N
N
GROUND FLOOR PLAN 0 1 2,5
5
1st FLOOR PLAN
10
0 1 2,5
A
5
10
A
Explosion A) Canopy B) Algae Palms C) Buildings 5
1 2 3 4 5 6 7
Bio Market Bio Restaurant Expo-Event Area Bio Architecture Studio Laboratory Panoramic Platform Algal Art
4 6 3
7 2
1
D) Walking Platform
Microalgae are contained in ETFE panels, on the roof of the buildings. With sunny weather the microalgae grow faster due photosinthesis, creating a darker surface and protecting the inside from heavy sunbeams. SYSTEM SYSTEM This creates a naturalSHADING shading system. SHADING
With cloudy weather the microalgae grow slower, allowing more light to pass through the panels, so that the indoor illumination remains balanced in every situation.
With sunny weather the microalgae grow faster due photosinthesis, creating a With cloudy weather the microalgae grow slower, allowding more light pass Withthe sunny weather the microalgae duea photosinthesis, creating a through the panels, so that With the microalgae grow slower, darker surface and protecting inside from heavy sunbeams.grow Thisfaster creates thecloudy indoor weather illumination remain balanced in everyallowd through the panels, so that the indoor illumination remai natural shading system. darker surface and protecting the inside from heavy sunbeams. This creates a situation. natural shading system. Biomass production increases Biomass production decreases situation. Biomass production increases Biomass pr With sunny weather the microalgae With sunny grow faster weather duethe photosinthesis, microalgae grow creating fastera due photosinthesis, creatingWith a cloudy weather the microalgae With cloudy grow weather slower, allowding the microalgae more grow light slower, pass allowding more light pass darker surface and protecting the darker inside surface from and heavy protecting sunbeams. the This inside creates from heavy a sunbeams. This createsthrough a the panels, so that the through indoorthe illumination panels, soremain that thebalanced indoor illumination in every remain balanced in every natural shading system. natural shading system. situation. situation. Biomass production increases Biomass production increases Biomass production decreasesBiomass production decreases
SHADING SYSTEM SHADING SYSTEM
Biomass production increases
Biomass production decreases
Filtering Process 1) Lake water fills the panels on the buildings
4) Biomass and clean water are separated and bio - products are produced
2) Microalgae grow and change their colors
5) Clean water is released in the lake
3) Microalgae are brought to the laboratory
6) Algaenerator reproduce the same process in different points of the lake
BIO Life Cycle
AGRICULTURE
FERTILIZER
LAKE BURLEY GRIFFIN
FILTERED WATER
FISH WATER ANIMAL FOOD FOOD SUPPLIES
Phosphorus Nitrogen
FARM ANIMALS
NUTRIENTS
MEDICINES
GLYCERINE
PEOPLE
OIL BIOMASS SEPARATION
ALGAE CULTIVATION
BIO DIESEL
BIOMASS
COSMETICS
SUNLIGHT
BIO OIL BIOHYDROGEN
BIO
BIOETHANOL
CARBON DIOXIDE
BIO FUEL
BIO
BIO GAS
FUEL CELL
JET
FACTORY
CARS
HEATING
ELECTRICITY
+7,30 +6,50
+1,20 +0,30
+/-0,00
-0,60
SECTION A-A 0 1
2,5
5
10
Cleaning Simulation youtube:
Bio Architecture Center Algaenerator
https://www.youtube.com/watch?v=jss8j_juZPk
Year 1
Year 4
Year 2
Year 5
Year 3
Year 6
+8,30
+3,80
+1,10 +0,30 -0,60