Architectonic Design

BUILDING DESIGN WILLEM KOK

REMI LEGIERSE

Building Technology 4 0 3 2 7 7 2

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION

CONCEPT

19.01.2011

GROUP - K

Building Technology 4 0 3 0 4 9 4

1 14

PROGRAM workshop and installations

9

cabinets and labs

8

cabinets and labs

7

cabinets and labs

6

cabinets and labs

5

cabinets and labs

4

exhibition

3

basement

?

buildings

lounge

media room

2

lounge

1

lecture room

media room

entrance – restaurant – small expo - information

0

parking

-1

parking

-2

mass volume

MAIN STRUCTURE building services

sculpture corridor

routing & function

function seal

SITUATION

architecture

facade design

structural design

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

19.01.2011

2 14

DET 12

architecture

facade design

structural design

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

19.01.2011

3 14

DET 13

DET 14

architecture

facade design

structural design

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

4 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

DET 09

DET 10

19.01.2011

5 14

DET 11

DET 08

DET 06

DET 05

DET 02 DET 04 DET 01 DET 03

architecture

facade design

structural design

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

6 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

7 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

8 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

9 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

architecture

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

facade design

structural design

19.01.2011

climate design

10 14

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

Civil Engineering 1 3 5 4 1 1 6

AR2AE035

KEVIN VERMEULEN

FINAL PRESENTATION

19.01.2011

GROUP - K

Building Technology 4 0 3 0 4 9 4

11 14

FACADE OVERVIEW

1

Structure

architecture

2

Anchors, cables and fastenings

facade design

3

Concrete sandwich elements

4

structural design

Glass facade

5

Final assembly

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

AR2AE035

KEVIN VERMEULEN

Civil Engineering 1 3 5 4 1 1 6

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

Upper floor plan

12 14

19.01.2011

Foundation plan

Total weight on stability cores: 114724 kN Total windforce: 2252 kN

EI = 7,24 * 108 kNm2 Cleft = 1,89 kNm/rad Cright = 1,73 kNm/rad

Loads

Uleft = 34,79 mm Uright = 45,79 mm

Bending with stiff truss

Bending without use of truss

Stability principle The stability is guranteed by the two concrete cores on each side of the building. In the calculation it is assumed that the trusses in the upper part of the building are not part of the stability structure, while in reality the trusses keep the cores straight. In doing so the real deflection will be far less than the one from the calculation.

Steel Structure

7 6

5

4

3

2

1

Steel concrete floor

architecture

facade design

1

HE 180 B steel beam

2

ComFlor 95 steel plate

3

Steel reinforcement bars

4

Reinforced concrete height = 150 mm

5

Insulation layer height = 45 mm

6

Concrete top layer height = 50 mm

7

Floor heating/cooling pipes

structural design

Column beam connection with steel concrete floor

climate design

lighting

BUILDING DESIGN WILLEM KOK

REMI LEGIERSE

Building Technology 4 0 3 2 7 7 2

AR2AE035

KEVIN VERMEULEN

Civil Engineering 1 3 5 4 1 1 6

FINAL PRESENTATION

Summer situation daytime

19.01.2011

GROUP - K

Building Technology 4 0 3 0 4 9 4

Winter situation daytime

13 14

Summer situation night

14 15

12

11

14 15

16

12

11

16

air

air

12

12 17

13

11

13

11

13

10

10

9

9

8

8

7

7

5

5

80C

6

200C

350C ‐ hp +

wtw

80C

2

4 18‐250C

1

Cold Well

1

+ hp ‐

wtw

80C

2

2

4 180C

1

Warm Well

Winter situation night

550C

1

18

2

Cold Well

Warm Well

1

Cold and heat storage

7

Cooling / heating by floor

13

Exhaust air

2

Injection source

8

Air supply

14

Exhaust air by roof vents

3

Heat exchanger

9

Air supply by chair

15

Daylight control by prism

4

Heat pump

10

Natural air supply by facade openings

16

Air handling unit

5

Distributor

11

Triple glazing (U = 0,6)

17

Cooling / heating by ceiling

6

Additional cooling by Vliet

12

Electrochromic screen (ZTA = 1,0) controllable screen

18

Thermally closed (retain heat)

CLIMATE CONCEPTS CLIMATE ZONES, DIMENSIONS AND OPERATION

FIRE CONCEPT 4

6

Zone 1 5

2

Zone 2

3 1

Zone 3

8

7 1

1

Fire starts

5

Activating sprinklers

2

Smoke will fill the atrium

6

Buffer for smoke

3

Activating facade openings (air)

7

CO2 and LPG detectors

4

Activating roof openings (air)

8

Activating fan for extraction smoke

3

main airduct 250x800mm

main waterpipe 32x85mm

climate ceiling

air supply unit

2

light-unit 60 minutes exhaust air by extraction

shaft-duct 1600x1600mm

shaft

waterpipe

250x800

1

5

200x800

6

7 corridor

office

passage

supply air

architecture

4

facade design

structural design

1

Zone atrium = compartment

2

Escape

5

Safety zone

3

Fire door

6

Fire lift

4

Fire separation (60 min.)

7

Escape by staircase

climate design

lighting

BUILDING DESIGN WILLEM KOK

Building Technology 4 0 3 2 7 7 2

REMI LEGIERSE

AR2AE035

KEVIN VERMEULEN

Civil Engineering 1 3 5 4 1 1 6

FINAL PRESENTATION GROUP - K

Building Technology 4 0 3 0 4 9 4

More reflection

14 14

19.01.2011

Passage more than 500 lux Better daylight control

Econ-light

Prism

Translocate tables

NATURAL DAYLIGHT

January 12:00

April 12:00

July 12:00

October12:00

NATURAL DAYLIGHT CONTROL

Econ-Light

Without prism

With prism

lux

architecture

facade design

structural design

climate design

lighting