3. 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
10. XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
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
11. XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
organization of the building/circulation
12. XXL WORKSHOP.01.04.11
economy & season (winter/summer)
good economy & season
good economy & no season
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
bad economy & season
bad economy & no season
structural/grid expansion cladding expansion creating space
13. XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
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
16. D D M
XXL WORKSHOP.01.04.11
IGITAL ESIGN ANAGEMENT
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
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
18. 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
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ANAGEMENT
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46. XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
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
47. XXL WORKSHOP.01.04.11
XXL WORKSHOP.01.04.11
Taking advantage of the Wind!
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
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.
48. XXL WORKSHOP.01.04.11
Magda Dzidek Lis | Ifigenia Riga | Phaedra Oikonomopoulou | Yassine Zaghdoud
ORD
ENO
FEY