Elevation
RIGHT ELEVATION 25th level
24th level
23th level
22th level
21th level
20th level
19th level
18th level
17th level
16th level
15th level
14th level
13th level
12th level
11th level
10th level
9th level
8th level
7th level
6th level
5th level
4th level
3rd level
2nd level
1st level
Ground level
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Section Perspective
SECTION A-A’
RWDP
Water distributed pump
to chiller for server
purposes
(suppoerted rainwater
harvesting)
100Plus fitness
Generating kinetic
energy while exercise
102
Section Perspective
SECTION B-B’
Green Hub +
Restaurant
Green Hub Area
Generate fresh air
Blow to office tower
Neuralink server and
facilities
Generator and
Transformer for
electricity converter
C T R L + Studio • Master of Architecture 02 • 103
Section PerspectiveParadoxing The Next • Universiti Teknologi MARA
Neuralink Detail Figure
Casper Treatment Pod Detail Figure
104
C T R L + Studio • Master of Architecture 02 • 105
Programs PerspectiveParadoxing The Next • Universiti Teknologi MARA
Neuralink Server Treatment
106
C T R L + Studio • Master of Architecture 02 • 107
Perspective ViewParadoxing The Next • Universiti Teknologi MARA
108
C T R L + Studio • Master of Architecture 02 • 109
Perspective ViewParadoxing The Next • Universiti Teknologi MARA
110
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C T R L + Studio • Master of Architecture 02 •
Paradoxing The Next • Universiti Teknologi MARA
Working Idle : Linked In Tower
Chapter 5
Sustainability Stratergies
112
EnergycEoffnicsiiednecrayt(ioPna)s(skivineedtiecseignneragnyd) active
Water Efficiency rainwaterharvesting
C T R L + Studio • Master of Architecture 02 • 113
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Kinetic energy diagram
114
Rainwater Harvesting
rain water harversting pipe
collector
rain water flow
from drinage
-1.5m slope
rain water flow
from drinage
transfer to filtration tank
C T R L + Studio • Master of Architecture 02 • 115
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C T R L + Studio • Master of Architecture 02 •
Paradoxing The Next • Universiti Teknologi MARA
Working Idle : Linked In Tower
Chapter 6
Building Structure
116
Structure system Uses
C T R L + Studio • Master of Architecture 02 • 117
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Structure Study
Overall structure
uses
Post and beam with
shearwal l (core)
118
Structure Study
Belt trusses and
brassing structure
35m overhang
C T R L + Studio • Master of Architecture 02 • 119
Paradoxing The Next • Universiti Teknologi MARA
Structure Study
Steel construction
Using ibeam structure
Bundled Tube
structure external
structure
Using castellated
beam use for opening
for pipe and duct to
go throught to office
120
Precedent Study
Atomic building brussels
Structure support and staircase
Salburua Nature Interpretation
centre
Structure cantiliver reference
C T R L + Studio • Master of Architecture 02 • 121
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C T R L + Studio • Master of Architecture 02 •
Paradoxing The Next • Universiti Teknologi MARA
Working Idle : Linked In Tower
Chapter 7
Building Services
122
Passive Fire safety requirement
• Indication of building height( fire appliance
access level to topmost floor
• Fire appliance access
• Purpose group
• Fire evacuation- fire lift, fire access lobby,
staircase and other fire evacuation features
• Compartmentation
• Travel distance and dead end limit
Active fire requirement
• Fire hydrant
• Hose reel
• Wetriser
• Sprinkler system
• Command and control centre
Vertical Transportation
Electrical supply
Water supply
HVAC - air conditioning system
Refuse disposal
C T R L + Studio • Master of Architecture 02 • 123
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Fire Appliance
124
Staircase Calculation
STAIRCASE CALCULATION Occupancy load for Office = 10 sq.m per person
Largest Gross Floor Area = 1529.21 sq.m
A - Level
B - Purpose Group / Occupancy Load BASEMENT PODIUM TOWER
C - Gross Floor Area (GFA) B1 - B2 GF - L4 L5 - L25
D - No. of person per floor (C/B) V(10) IV (10) IV (10)
E - Exit Capacity Required for Stairs (D/60) 9000 4438 2346
F - Minimum Staircase Width (EX550mm) 900 443.80 234.60
G - No. of Staircase Required (F/1550/1250) 15.00 7.40 3.91
H - Additional Staircase Required 8250.00 4068.17 2150.50
I - Total Staircase Required 5.32 3.25 1.72
1 1 1
6 4 3
C T R L + Studio • Master of Architecture 02 • 125
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Fire Hydrant
1 87m 2
45 m
75 m 3
5 43 m
4
62 m
FIRE PROTECTION
Guide to fire protection Malaysia
FIRE HYDRANT 90m radius apart
Fire hydrant distance 5 NOS
Fire hydrant provided
Fire hydrant tank (effective capacity) 135000 litres
TOTAL WATER TANK REQUIRED 337.5 unit
TOTAL WATER TANK PROVIDED 360 unit
126 WET RISER TANK 45500 litres
Minimum Effective Capacity
Travel Distance & Dead end Limit
Maximum Travel
Distance Sechedule 7
Dead end 15m
Unsprinkler 45m
Sprinklered 75m
This building provided
sprinker for fire fighting
appliance - the travel
distance still below 45m
for each staircase distance
because of square area
Provided that the travel
distance from any point in
the room to the room door
does not exceed 15m.
15m maximum dead end
for green hub area
C T R L + Studio • Master of Architecture 02 • 127
CompartmentationParadoxing The Next • Universiti Teknologi MARA
128
Fire Hose Reel
FIRE PROTECTION Guide to fire protection Malaysia
FIRE HYDRANT 90m radius apart
Fire hydrant distance 5 NOS
Fire hydrant provided
Fire hydrant tank (effective capacity) 135000 litres
TOTAL WATER TANK REQUIRED 337.5 unit
TOTAL WATER TANK PROVIDED 360 unit
WET RISER TANK 45500 litres
Minimum Effective Capacity 1365 l/min
Auto Refill Rate
113.75 unit
WATER TANK SIZE REQUIRED 180 unit
WATER TANK PROVIDED
Ordinary Hazard for Commercial and Industrial Occupancies under :
AUTOMATIC SPRINKLER SYSTEM a) OH Group i
Occupancy Hazard Group b) OH Group iii
SPRINKLER PUMP (OH GROUP iii) 15 meters : 2250 cu dm/min at 1.4 bars
SPRINKLER TANK (OH GROUP iii) 15 meters : 135 cu. meters
TOTAL WATER TANK REQUIRED 135 / 1.73 78 unit
TOTAL WATER TANK PROVIDED 108 unit
HOSE REEL 30m coverage of each
Hose reel distance unit
Total hose reel provided
Hose reel tank (max capacity) 9100 litres
TOTAL WATER TANK REQUIRED 22.75 unit
TOTAL WATER TANK PROVIDED 72 unit
TOTAL FIRCET TRALN+KSRtuEdQioU•IMRaEsDter of Architec5tu5r2e UU02NN•IITT129
TOTAL FIRE TANK PROVIDED 720
Paradoxing The Next • Universiti Teknologi MARA
Wet Riser
FIRE PROTECTION Guide towfieret prrisoetercttiaonnkMalaysia
FIRE HYDRANT 90m radius apart
Fire hydrant distance 5 NOS
Fire hydrant provided
Fire hydrant tank (effective capacity) 135000 litres
TOTAL WATER TANK REQUIRED 337.5 unit
TOTAL WATER TANK PROVIDED 360 unit
WET RISER TANK 45500 litres
Minimum Effective Capacity 1365 l/min
Auto Refill Rate
113.75 unit
WATER TANK SIZE REQUIRED 180 unit
WATER TANK PROVIDED
130AUOTcOcuMpAaTnIcCy SPRINKLER SYSTEM Ordinary Hazard for Commercial and Industrial Occupancies under :
Hazard Group
Vertical Transportation
LIFT CALCULATION Occupancy load for Office = 10 sq.m per person
Largest Net Floor Area = 3605 sq.m
p=(POP X
HCP)/(300/ ) 65.44 PROVIDED 8
4674.00
p = number of passenger per trip
POP = number of persons on floors served 14
HCP = handling capacity percentage (%) 30
I = maximum acceptable interval (s)
7
TOTAL NUMBER OF LIFT REQUIRED
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Electrical Supply
AB CDEF GHI J KLM
H MSB
H T&B Substation
MDF
retail retail retail administration pump room Genset Room
retail
hosereel hosereel up Disposal area
retail retail loading /unloading Visible30asqmnd easy access
77 sqm
retail up
retail
Elec Elec AHU
HT HT
Tel / Tel /
Elv Elv
AHU wet riser
wet riser
retail
Hosereel hosereel
2116 sqm Toilets 1982 sqm retail
Toilets
M retail H
retail Electrical and HT
located at core in every
retail retail floor
H
Substation Double chamber
retail
H MSB up
up
H T&B Substation
MDF
Genset Room Genset area
nloading
U
Disposal area
Kiblat
ND FLOORm 30sqm
ELECTRICAL Total Area Total Area Est. Supply / Total Supply Total Supply
(sq.m) (sq.ft)
20 30 40 50M 1 sq.ft (Watt) (Watt) (MW)
Electrical Load 46740 503105 10 5031050 5.03
Genset Room size Total Area Total Area Est. Room Room Room size X 2
(sq.m) (sq.ft) size (sq.m)
132
46740 503105 1000 46.74 93.48
H
Water Supply
Domestic water tank
Rainwater harvesting
pump and tank
WATER SUPPLY Quantity Water Required per item (l) Total Water required
WATER CONSUMPTION 8 40 320
Level Occupancy Use 6 20 120
WC 00 0
GF Basin 8 40 320
Urinal 6 20 120
WC 00 0
L1W-L2ATER SUBPaPsiLnY
8 40 320
Urinal Quantity 6 Water Required per item (l2) 0
WATWERC CONSUMPTION Total Wa1t2e0r required
LeLv3e-lL5 OccuBpaasnicny Use 08 400
68 2400 3200 transfer straight in
WUrCinal 60 200 312200 core
GF BWaCsin 08 400 1020
L6-L8 UBarisnianl
762 2400 3200
WUrCinal 540 200
L1-L2 BWaCsin 08 400 2182800
L9-L19 BUarisnianl
166 2400 10080
WUrCinal 120 200
L3-L5 BWaCsin 08 400 3200
L21-L22 UBarisnianl
68 2400 614200
UWrCinal 60 200
L6-L8 WBaCsin 702 400 2400
L23-L25 BUarisnianl
540 2400 3200
WUrCinal 00 200
L9-L19 BWaCsin 106 400 312200
120 2400
0 UBarisnianl 00 200 1200
UWrCinal 08 400
28080
L21-L22 WBaCsin 60 2400
0 BUarisnianl 00 200 10080
UWrCinal 00 400
00
L23-L25 BWaCsin TOTAL AMO0UNT OF WATER REQUIRED2(0l )
0 UBarisnianl 6400
UWrCinal 00
0 Basin 2400
Urinal 00
WATWERC TANK CALCULATION 3200
0 WaBtaesritnank (1.2m x 1.2m x 1.2m)
1020
ToUtarlinwaal ter required
WC 00
0 TOBTaAsLinWATER TANK REQUIRED 00
TOUTrAinLalWATER TANK PROVIDED
70040
SUCTION TANK
0
WATER TANK CALCULATION
0 40 0
Water tank (1.2m x 1.2m x 1.2m)
4000 gallons 20 0
70400 litres 0
40 0
0
0
17.60 unit 20 0
360 unit 0 0 Domestic water tank
TOTAL AM3O6UuNnTitOF WATER REQUIRED (l ) 7040
400 gallons C T R L + Studio • Master of Architecture 02 • 133
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HVAC
Cooling tower
AHU at every floor
break tank for
liquid cooler
Chiller plant
Basement
134
Refuse Chaber
Loading/
Unloading
Disposal area
Service road
WASTE PRODUCED
Level Occupancy Use Net Floor Area (sq.m) Estimated Waste per day Total Waste area Waste Produced (litre)
4000 0.8 sqm / 300 sqm 13.33 10.67
GF Commercial 6000 0.15 sqm / 300 sqm 20.00 3.00
2500 0.15 sqm / 300 sqm 8.33 1.25
L1-L2 Commercial 4500 0.15 sqm / 300 sqm 15.00 2.25
3000 0.15 sqm / 300 sqm 10.00 1.50
L3-L5 Institution 500 0.15 sqm / 300 sqm 1.67 0.25
6000 0.15 sqm / 300 sqm 20.00 3.00
L6-L9 Institution 500 0.15 sqm / 300 sqm 1.67 0.25
0.15 sqm / 300 sqm 6.67 1.00
L10-L12 Office 2000.00 7.00
0.15 sqm / 300 sqm 1.05
L13 Storage 2100.00
L14-L19 Office
L20 Storage
L21-L22 Shop
L23-L25 Institution
TOTAL WASTE PRODUCED (litre) 24.22
TYPE OF WASTE SYSTEM Double Screw System
C T R L + Studio • Master of Architecture 02 • 135
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Overall services combine
136
Overall services Diagram
C T R L + Studio • Master of Architecture 02 • 137
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Precedent Study
Towering Turbine: The Vertacal Farm
Squall Tower in Dubai Ciftlik Gokdeleni
Building Form
Both design using element of de-centralization within the core in the
middle of the tower. Using this building space arrangment can easily
connect to theory of permeability which can connect eacy space
physically and visually
Reference :
1 Ahuja, A. (2021, February 5). Towering Turbine: The Squall Tower in Dubai is designed
to rotate with the wind. Stir World. https://www.stirworld.com/see-features-towering-
turbine-the-squall-tower-in-dubai-is-designed-to-rotate-with-the-wind
138
Precedent Study
Energy pod
Google building from Metro Nap
Neuralink Technology By Elon Musk
can handle high working capacity
with minimal workforce
Both study is on application of programmes and cooperate with building
spaces. Energy pod is study on how to come out with mix use programme
in one spaces.
C T R L + Studio • Master of Architecture 02 • 139
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Precedent Study
140
Precedent Study
AirAsia Headquarters
Redefined workplace function and
tackle workplace stress
We WORK
Redefined workplace function
and tackle workplace stress
This precedent study is about refining the workplace which elevate and
increase the poor environment with more interactive spatial layout.
Prioritizing personal space for workplace distancing to enable productivity
in safety. Leverage on our flexibility to strategize how & where you need
your office
C T R L + Studio • Master of Architecture 02 • 141
Paradoxing The Next • Universiti Teknologi MARA
Precedent Study
GCooooglinlegSteercvhenroFloagrmy
Air conditioning Raise to Hot air
units along server and transfer into
coil then to
perimeter wall cool the cooling plant
force cold air server
under floor
Central data server
This study is on the cooling system use for server of Neuralink for the
building programme. Optimizing usage of air conditioning system in
building which using centralize server.
142
Conclusion
Productivity level of workers increase
People can dfoinwisohrkeamrulych better and
Can have more time for their daily life
Increase work life balance
‘ To iancthhieevirewfeoerkliinngg cliofent’ent
C T R L + Studio • Master of Architecture 02 • 143
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