Booklet - Building Technology Integration

‘School of Architecture in Ghent’

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

PRESENTATION

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

PLANS - 1/150

N

BASEMENT

-1

LEVEL 0

B A

LEVEL 1

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

LEVEL 2

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

F I R E

S A F E T Y

&

A C C E S S I B I L I T Y

Staircase Corridors

Compartment 0 S = 509 sqm

Rooms (Ateliers, Offices)

Basement

Fire Safety Concept Note

Foyer

The “School of Architecture� project is a medium-high building, with G+2, H max= 21 m. The building is divided in compartments smaller than 2500 m2. Since the building is developed in one longitudinal direction, the proposed fire compartments are meant to provide multiple evacuation routes. The key points designed for this are situated in the middle of the building and at the two ends of the building. Both, the corridors and the staircases, are designed according to the passing through units dimensions, calculated for each compartment. Having all the measures according to Belgian regulations for fire safety, the emergency exit doors are fireproof EI 60, and the accesses to the staircases are preceded by buffer room (sas). As well the walls of all the rooms are fire resistant EI 60. The maximum distance from the nearest emergency exit is 19 m, less than 30m as stipulated in Belgian regulation.

Scale 1:250

Compartment 1 S = 246 sqm

Entrance

Compartment 2 S = 172 sqm

Main entrance Atelier 1

Emergency exit

Auditorium

-1 Floor

Atelier 2

Workspace

Compartment 3 S = 393 sqm Atelier 3

Atelier 4

Atelier 5

Atelier 6

Foyer

-3.00 Horizontal circulation Room

Elevators

Atelier 10

Atelier 11

Scale 1:250 Compartment 6 S = 302 sqm

+0.30

Atelier 10

Atelier 11

Workspace 2

Compartment 6 S = 302 sqm

Vertical circulation

Workspace 2

-1 Floor Compartment 5 S = 114 sqm Auditorium

Compartment 5 S = 114 sqm Auditorium

Compartment 4 S = 393 sqm Atelier 9

Evacution Floor Ground Floor

Library

Atelier 8

Atelier 7

Library

+1 Floor Atelier 8

Atelier 7

Compartment 4 S = 393 sqm Atelier 9

+1 Floor +0.00

Compartment 7 S = 196 sqm

Ground Floor

Compartment 8 S = 161 sqm

Office L

Office R

Compartment 7 S = 196 sqm

Compartment 8 S = 161 sqm +2 Floor

Office L

+5.15

+3.30

+6.10

+6.10

+4.10

+6.10

+4.20

+4.20

Office R

+4.20 +2 Floor +4.20

+5.15 +3.30

+4.20 +1 Floor

Access Facade

+9.10

+7.70

+7.70

+9.10 +2 Floor

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Ground Floor Exits

W o r k b o o k

Building Technology Integration

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I N S T A L L A T I O N S

STRUCTURE Concept Note

INSTALLATIONS Concept Note

Structural schemes proposed for our project are developed to have a short research of the most sustainable way for solving the structural behavior of the building. After considering the positive and negative aspects of each of the structural schemes we concluded that the one using prefabricated hollow-core slabs would suit our purposes. Therefore the chosen structural system is a quick one, having also the advantage of possibility to be used for the relatively large span (10 m) with 2 m cantilevers on both sides. The challenging aspect was to assure continuous and logical connections for the concrete walls. Moreover, using the prefabricate roof system provided by Lignatur we managed to have also a quick fitting of the roof, including the ceiling finish. Using a warm and beautiful wood in combination with soft concrete walls gives the interesting touch of material and texture contrasts, suitable for a School of Architecture.

Although the idea of having a warehouse building as an Architecture School may sound strange, but there are examples of existing ones, successfully working (see The Innovation Dock designed by Groosman Partners - foto). Therefore, in what concerns naked structure and visible installation system seem appropriate for a School of Architecture, where students can observe and notice all installation systems. Starting with the big ventilation ducts, though hidden in two vertical shafts to avoid noise that such a system can make, the biggest part of it remains visible, along with other installations such as heating systems, water pipes or electrical cables. A small scale interior Pompidou-Centre-like that is sincere with all the equipment that makes such a building to work properly.

2.0

10.0

2.0

S T R U C T U R E

Scale 1:250

2.0

10.0

2.0

Scale 1:250

Scale 1:250

2.0

10.0

2.0

Scale 1:250

Scale 1:250

LUCA

2.0

10.0

2.0

Scale 1:250

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

Scale 1:250

1 MaAR int

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

LUCA W o r k b o o k

Building Technology Integration

1 MaAR int

Summer

Spring / Autumn

Winter

E n v e l o p e The envelope of our building consists of a two-layered space. First of all, there is a curtain wall, that separates the corridors from outside, but which has no other thermal control, because the corridors are considered to be a closed exterior space. The second layer is the concrete wall of the ateliers and offices. The last one has the meaning of an exterior wall, being included insulation and protection layers. Therefore vertical envelope of this building is a space that is used for horizontal connection. Regarding the roof envelope, the team choose to use a prefabricated roof system – Lignatur, that gives the great advantage of being easy, favors a fast fitting and has included the necessary protection layer such as vapor and thermal insulation. Being a wooden structure we covered it with ribbed metal roof shingle, a light roof system that can be easily adapted to various declivities of the roof.

Buildin Envelope Concept Note

B u i l d i n g

Morning

Research Daylight

Noon

Evening

Greceniuc Alexandru Ivan Lander Mentens Kristien Nantens

Team No. 3

FIRE SAFETY

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Fire Safety Concept Note The “School of Architecture� project is a medium-high building, with G+2, H max= 21 m. The building is divided in compartments smaller than 2500 m2. Since the building is developed in one longitudinal direction, the proposed fire compartments are meant to provide multiple evacuation routes. The key points designed for this are situated in the middle of the building and at the two ends of the building. Both, the corridors and the staircases, are designed according to the passing through units dimensions, calculated for each compartment. Having all the measures according to Belgian regulations for fire safety, the emergency exit doors are fireproof EI 60, and the accesses to the staircases are preceded by buffer room (sas). As well the walls of all the rooms are fire resistant EI 60. The maximum distance from the nearest emergency exit is 19 m, less than 30m as stipulated in Belgian regulation.

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Access Facade

Ground Floor Exits Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Staircase Corridors

Compartment 0 S = 509 sqm

Rooms (Ateliers, Offices)

Basement

Foyer Auditorium

-1 Floor

Compartment 1 S = 246 sqm Atelier 1

Atelier 2

Workspace

Compartment 2 S = 172 sqm

Compartment 3 S = 393 sqm Atelier 3

Atelier 4

Atelier 5

Atelier 6

Foyer

Evacution Floor Ground Floor

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

1 MaAR int

Atelier 10

Atelier 11

Workspace 2

Compartment 6 S = 302 sqm

Compartment 5 S = 114 sqm Auditorium

Compartment 4 S = 393 sqm Atelier 9

Library

Atelier 8

Atelier 7

+1 Floor

Compartment 7 S = 196 sqm

Compartment 8 S = 161 sqm

Office L

Office R

+2 Floor

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

1 MaAR int

# user per compartiment

note office = 7 m2 vloeropp. pp meating room = 3.5 m2 vloeropp. pp cafe = 1.5 m2 vloeropp. pp

n(p) = nr + S'/10 (no public acces) n(p) = nr + S'/3 (public acces)

theoretical usefull width b(t) = n(p) * a a = 1,00 horizontale vluchtwegen a = 1,25 stairs ê a = 2,00 stairs é

Floor

Function # m2 0 Atelier 1 Atelier 2 Workspace Atelier 3 Atelier 4 Atelier 5 Atelier 6 Foyer

89 107 50 150 80 94 69 172

max # persons 29 35 16 50 26 31 23 114

1 Atelier 7 Atelier 8 Atelier 9 Library Audi Workspace Atelier 10 Atelier 11

69 94 150 80 114 50 163 89

23 31 50 34 99 16 54 29

2 Office L Office R

196 161

19 ê 16 ê

LUCA

escape direction Safety factor è è è è è è è è

ê ê ê ê ê ê ê ê

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

B(t) # passing untis 1 29 1 35 1 16 1 50 1 26 1 31 1 23 1 114 324 6 1,25 29 1,25 39 1,25 63 1,25 43 1,25 124 1,25 20 1,25 68 1,25 37 423

3

1,25 1,25

1 1

24 20

87

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Building Technology Integration

1 MaAR int

ACCESSIBILITY

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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Entrance Main entrance Emergency exit -3.00 Horizontal circulation Room -1 Floor Vertical circulation Elevators

+0.30

+0.00

Ground Floor

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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+5.15

+3.30

+6.10

+6.10

+4.10

+6.10

+4.20

+4.20

+4.20

+4.20

+5.15 +4.20

+3.30

+1 Floor

+9.10

+7.70

+7.70

+9.10 +2 Floor

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

1 MaAR int

STRUCTURE & CONSTRUCTION

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Structure Concept Note Structural schemes proposed for our project are developed to have a short research of the most sustainable way for solving the structural behavior of the building. After considering the positive and negative aspects of each of the structural schemes we concluded that the one using prefabricated hollow-core slabs would suit our purposes. Therefore the chosen structural system is a quick one, having also the advantage of possibility to be used for the relatively large span (10 m) with 2 m cantilevers on both sides. The challenging aspect was to assure continuous and logical connections for the concrete walls. Moreover, using the prefabricate roof system provided by Lignatur we managed to have also a quick fitting of the roof, including the ceiling finish. Using a warm and beautiful wood in combination with soft concrete walls gives the interesting touch of material and texture contrasts, suitable for a School of Architecture.

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Structural Scenario 1 Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Structural Scenario 1 Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Structural Scenario 2 Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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Structural Scenario 2 Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Structural Scenario 3 Scale 1:250

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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Strucural estimations Prop I prefabricated conctrete : L/35

Prop II I-­‐Beams : concrete slab : v

Prop III Cassette floor :

10

0,29

0,22

L/20 L/25

10 5

0,5 0,2

0,38

L/35

10

0,29

0,22

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Material & Product Research

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

EPB

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

BUILDING ENVELOPE

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Envelope Concept Note The envelope of our building consists of a two-layered space. First of all, there is a curtain wall, that separates the corridors from outside, but which has no other thermal control, because the corridors are considered to be a closed exterior space. The second layer is the concrete wall of the ateliers and offices. The last one has the meaning of an exterior wall, being included insulation and protection layers. Therefore vertical envelope of this building is a space that is used for horizontal connection. Regarding the roof envelope, the team choose to use a prefabricated roof system – Lignatur, that gives the great advantage of being easy, favors a fast fitting and has included the necessary protection layer such as vapor and thermal insulation. Being a wooden structure we covered it with ribbed metal roof shingle, a light roof system that can be easily adapted to various declivities of the roof.

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Morning

Noon

Evening

Winter

Spring / Autumn

Summer

Research Daylight

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Outside buiten U1*(Tx-­‐(-­‐8)

U1 =

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Balance (unheated corridor) evenwicht Te = -­‐U1*8-­‐U2*21/U1-­‐U2

Inside binnen U2*(21-­‐Tx)

1,65

10,6276596

0,418 U2

1,65

9,41489362

0,418

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Facade Material & Construction

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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Facade Material & Construction

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Building Technology Integration

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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INSTALLATIONS

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Installations Concept Note Although the idea of having a warehouse building as an Architecture School may sound strange, but there are examples of existing ones, successfully working (see The Innovation Dock designed by Groosman Partners - foto). Therefore, in what concerns naked structure and visible installation system seem appropriate for a School of Architecture, where students can observe and notice all installation systems. Starting with the big ventilation ducts, though hidden in two vertical shafts to avoid noise that such a system can make, the biggest part of it remains visible, along with other installations such as heating systems, water pipes or electrical cables. A small scale interior Pompidou-Centre-like that is sincere with all the equipment that makes such a building to work properly.

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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Ventilation ducts Scale 1:250

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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Ventilation ducts Scale 1:250

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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GENERAL PLANS

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

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LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:250

W o r k b o o k

Building Technology Integration

1 MaAR int

Facades

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Scale 1:300

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Sections

Scale 1:300

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ARCHITECTURAL DETAILING

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Overview Details Scale 1:300

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Staircase section

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Detail 2 Scale 1: 5

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Shaft space

Plaster, (1.2 cm) Thermal insulation, (4.0 cm) Non-bearing concrete wall (15.0 cm) L - profile, steel

Atelier 3

Expansion joint profile, 3 cm

Concrete floor finish Concrete, 10 cm Hydro-insulation, PE folio Rigid thermal insulation, 5 cm General foundation plate, 30 cm Screed protection, 4 cm Horizontal hydro-insulation Correction mortar, 4 cm Leveling concrete, 10 cm Compressed earth filling

Expansion joint, styrofoam, 3 cm

Reinforced concrete load bearing wall, 25 cm Hydro-insulation, PE folio, 2 layers Rigid thermal insulation, 15 cm Drainage mat Compressed earth filling

Detail 4 Scale 1: 5

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

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LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

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Detail 6 Scale 1: 5

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Metal Ridge Shingle

Screw with waterproof washer

Ribbed Metal Roof Shingle (2.5 cm) Roof Batting (3cm x 5cm) Roof Counter - bating (4cm x 6cm) BauderTOP UDS 1,5 Hydro-insulation System Lignatur LSE (28.0 cm)

Detail 7 Scale 1: 5

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Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

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Building Technology Integration

1 MaAR int

Ribbed Metal Roof Shingle (2.5 cm) Roof Batting (3cm x 5cm) Roof Counter - bating (4cm x 6cm) BauderTOP UDS 1,5 Hydro-insulation System Lignatur LSE with acoustic panel (28.0 cm) Screw with waterproof washer Aluminium Box Gutter

Acoustic Insulation, Encased foam (5 cm) Polyurethane foam

Sound Trap Panel, wood, (1.2 cm)

Non-bearing concrete wall (15.0 cm)

Auditorium

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

Detail 8 Scale 1: 5

1 MaAR int

Lignatur LSE (28.0 cm) BauderTOP UDS 1,5 Hydro-insulation System Roof Counter - bating (4cm x 6cm) Roof Batting (3cm x 5cm) Ribbed Metal Roof Shingle (2.5 cm) Screw with waterproof washer Aluminium Box Gutter

Ribbed Metal Roof Shingle (2.5 cm) Roof Batting (3cm x 5cm) Roof Counter - bating (4cm x 6cm) BauderTOP UDS 1,5 Hydro-insulation System Lignatur LSE (28.0 cm) Polyurethane foam

Expansion joint, elastomer, 3.0 cm

Non-bearing concrete wall (15.0 cm)

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Lignatur LSE (28.0 cm) BauderTOP UDS 1,5 Hydro-insulation System Roof Counter - bating (4cm x 6cm) Roof Batting (3cm x 5cm) Ribbed Metal Roof Shingle (2.5 cm) Screw with waterproof washer Aluminium Box Gutter

Ribbed Metal Roof Shingle (2.5 cm) Roof Batting (3cm x 5cm) Roof Counter - bating (4cm x 6cm) BauderTOP UDS 1,5 Hydro-insulation System Lignatur LSE (28.0 cm) Polyurethane foam Non-bearing concrete wall (15.0 cm)

Detail 10 Scale 1: 5

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Detail 11 Scale 1: 5

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Ribbed Metal Roof Shingle ( 2.50 cm ) Roof Batting ( 3cm x 5cm ) Roof Counter - batting ( 4cm x 6cm ) BauderTOP UDS 1,5 Hydro-insulation System

Aluminum roof nosing PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Lignatur LSE ( 28.0 cm )

Softwood packer with sealant and backing rod Sealant with backing rod Double glazed window unit

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

Detail 12 Scale 1: 5

1 MaAR int

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Roof Batting ( 3cm x 5cm ) Roof Counter - batting ( 4cm x 6cm ) BauderTOP UDS 1,5 Hydro-insulation System Lignatur LSE ( 28.0 cm )

L - Profile (Steel support equipment)

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Polyurethane foam

Rigid insulation material (5cm) Plaster (1.20 cm) Reinforced concrete load bearing wall

LUCA

W o r k b o o k

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT

Ribbed Metal Roof Shingle ( 2.50 cm )

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

Building Technology Integration

Detail 13 Scale 1: 5

1 MaAR int

Detail 14 Scale 1: 5

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Detail 15 Scale 1: 5

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

Detail 16 Scale 1: 5

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

WEEKLY REPORTS

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int

PROGRESS SKETCHES

LUCA

Team 3: Alexandru Ivan Greceniuc, Lander Mentens, Kristinen Natens

W o r k b o o k

Building Technology Integration

1 MaAR int