G4 - Final presenation 01/04/2011

XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud

association of opposites

day - night
summer - winter
city - nature
dynamic - static
3D - 2D

stadium two faces -
loudness of game time
silence of regular day

entry
entry

two faces apparent in context

25 % contraction

35%, 50%, 75% capacity/density

50 % conﬁgurative

50 % ﬁxed

D IGITAL D ESIGN M
ANAGEMENT

Magda Dzidek Lis | Ifigenia Riga | Pha
CONFIGURATION 1 CONFIGURATION 3

TOTAL M2 TOTAL M2
3158,75 6768,75

PERCENTAGE ‘SLOTS’ PERCENTAGE ‘SLOTS’
35% 75%

AMOUNT OF UNITS AMOUNT OF UNITS
OFFICES 7 OFFICES 16
LEISURE 5 LEISURE 15
SUP 6 SUP 10
STADIUM USES 11 STADIUM USES 13
GARDENS 4 GARDENS 12
CATERING 2 CATERING 9
25 % contraction 25 % contraction

35 % expanded 75 % expanded

CONFIGURATION 2

TOTAL M2
4512,5

PERCENTAGE ‘SLOTS’
50%

AMOUNT OF UNITS
OFFICES 11
LEISURE 9
SUP 8
STADIUM USES 11
GARDENS 8
CATERING 3
25 % contraction

50 % expanded

35 % expanded
25 % contraction

35% of max expansion (398 squares)
35% of max expansion (398 squares)
p o 9 q
max expansion 1152 squares
max expansion 1152 squares
s
(each square represents 100 sq
(each square represents 100 sq m

organization of the building/circulation

economy & season (winter/summer)
good economy & season
good economy & no season

bad economy & season
bad economy & no season

structural/grid expansion cladding expansion creating space

good economy & season
expansion - outward & inward
max cladding expansion
max structural expansion

3rd ﬂoor example

bad economy & season
expansion - outward
min cladding expansion
max structural expansion with platforms

good economy & no season
expansion - inward
max cladding expansion
min structural expansion

boundary
removing
changing
boundary

D D M

IGITAL ESIGN ANAGEMENT

Distribution of units according to the solar exposure

OFFICES SUP PARKING CATERING CIRC. S LEISURE GREEN SPACES

GEOMETRY
PERCENTAGE USED ‘SLOTS’

AMOUNT OF UNITS CORE MODEL RE-ARRANGEMENT OF UNIT
ACCORDING TO EXPOSURE
FIXED OBJECTS
ARRANGEMENT OF UNITS
SOLAR EXPOSURE ON EACH
UNIT
STRENGTH OF RELATIONSHIP
BETWEEN FAMILIES OF UNITS
AMOUNT OF SQUARE
METERS

W/h/m
W/h/m
W/h/m
W/h/m
W/h/m
W/h/m
50
60
65
55
55
78
LIST WITH EXPOSURES

STADIUM USES
CATERING

GARDENS
OFFICES
LEISURE

SUP
ANAGEMENT
M
ESIGN
D
IGITAL
D

Magda Dzidek Lis | Ifigenia Riga | Phaedra
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopou ou | Yassine ag oud
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoullou | Yassine Zaghdoud
s | Ifi n
s | Ifi n
s | Ifi n
s | Ifi n
s | Ifigen a
s | Ifigenia
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ANAGEMENT
M
ESIGN
D
IGITAL
D

movie

water harvesting potential
rainfall (m) x area of catchment x runof coeficient

area of catchment = 57600 sq m
average annual rainfall = 215 mm (.215 m)
runof coefficient = .85

annual water harvesting potential = 57600 x .215 x .85 = 10526.4 cu m = 10.526,400 liters (minimum)
yearly water harvesting potential = 57600 x .85 x .85 = 41616000 cu m = 41.616,000 liters (maximum)

ciistern size - 10 x10 x 5 = 500 cu m
cistern capacity - 500,000 liters

41.616,000 : 500,000 = 83.2 cisterns

Taking advantage of the Wind!

Wind Energy Strategy
_During a 4 - hour game, the stadium has approximately 6,5 MWh energy consump-
tion.
If there is a big event weekly, the annual energy consumption is 338 MWh.

_Sustainable solution: take advantage of the high energy density of the wind in the
area: installing Wind Turbines on the West and East side of the roof.

_According to the logarithmic law the velocity of the wind in 65 m height is
v = 7.5 m/s.

_A wind turbine “Excel-s 10 kW” (diameter 7 meters) installed over the roof of the
Stadium along the west-east axis produces 50 MWh Energy per year.

_In total, 12 Wind Turbines will produce 600 MWh annualy, covering 100% of the big
events average energy consumption.

_The produced power will be sold to electricity utility companies and bought when
there is a game/event.

_The weight of each turbine is 475 kg, which can be supported
by the existing structural grid.

_The distance between two wind turbines should be
approximately 4 diameters=28 meters.

ORD
ENO
FEY

G4 - Final presenation 01/04/2011

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G4 - Final presenation 01/04/2011