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Portfoliokumar biswajit debnath
Portfoliokumar biswajit debnath
Contents
Project_01 Power of Planes (Level1, Term2)
Project_02 design of a Pre-school and Child care center (Level3, Term1)
Project_03 design of a Ready made Garments Factory (Level5, Term1)
Project_04 Maximizing the utilization of daylight and natural ventilation in retail shopping Environments in the context of Dhaka city (Level5, Term2)
Undergraduate Studio Projects
Methodology:Students will work individually on a 8 x 24base with planes(square/triangular/rectangularshape) of varying size and monochromatic colour. Number of planes may vary from a minimum of 20 tomaximum unlimited. Planes may intersect but cannotbe perforated.
Media: Red Paper, Grey Paper
Duration:One week.
A line extended becomes a plane conceptually a plane has length and width but no depth. In the formation of visual construction, a plane serves to define the limits or boundaries of a volume. As architecture deals specially with the formation of three-dimensional volumes of form and space, the plane becomes a key element in the vocabulary of architectural design.
POWER OF PLANE
Level1 Term 2
Understanding nature in terms of forms. Exercises in t h r e e d i m e n s i o n a l composition in various media. Basic composition w i th co lour schemes; planes, cubes and other geometric forms.
Design of a
Design Program
Multi purpose Space Infant Room Young Toddler Classroom Older toddler Classroom Play yard Play yard storage Directors Office Asst. Directors Office Sick Bay Staff work Station Parent and teacher Conference Central storage Child Toilet Service Toilet Kitchen Laundry Janitors Closet
Duration_ 4 Weeks
Won the BERGER BEST DESIGN AWARD 2008-09 for the design of a 'Preschool and child care center'
Children are the pioneer of the future. Every children possess its own creativity, exploring capability and dream. A pre school and child care center is a place where they start to learn about the surrounding world and develop communication skills.
Desig
n C
on
cept
The pre school and child care center has to be a second home for the children. Its environment should be inviting to learn, explore and play.
In this project the pre school and child care center was designed with the view to focus the softness and play full character of the children. The main part of the site is the play ground, which is the most interesting part of the site for the children. They will explore the building as a toy. Its fluid character of the interior and exterior spaces will reveal the building to the children as if they are living and playing in a toy.
no play ground
always video games
creates psychological and physical problems
Softness
Toys
Playfulness
Problems
Problems
Site P
lan
13
60' wide road
40'w
ide
road
Site plan
up
A'
A
B
B'
+1'
0'1
2
3
4
5
6
7
8
910
11
12
13
14
23
23
20
15
16
17
18
19
22
21
up
Pla
n
1. Entry2. Reception3. Multi purpose Space4. Young Toddler Classroom5. Child Toilet6. Older toddler Classroom7. Stair 8. Service Toilet9. Kitchen 10. Laundry11. Janitors Closet12. Play yard storage13. Play yard 14. Infant Classroom15. Directors Office16. Asst. Directors Office17. Sick Bay18. Staff work Station 19. Parent and teacher Conference20. Central storage21. Male toilet22. Female toilet23. Tarace
Ground Floor Plan First Floor Plan
Elevatio
n
South Elevation
West Elevation
Elevatio
n
Sectio
n
East Elevation
Section AA
matressfloor
Section BB
design of a Ready Made Garments Factory
In previous studies it was found that an efficient lighting and ventilation system can reinforce the production of a ready made garments factory. Bangladesh has a tropical climate. This climatic condition enables the use of daylight through out day time and the utilization of wind and rainwater in natural ventilation and rain water harvesting respectively.
The main motivation of this design was to give the workers a work place with sufficient natural settings. The provision of sufficient glare free daylight and fresh natural air for every worker was a major goal of this design. Also water efficiency of the project was another important issue. The functional efficiency was equally important for the project. As it is a factory building the work flow and the zoning has to be flawless and efficient.
The area of the site is 2385 sqm. The main zones of the building are the production & distribution area, Administrative area, Training and testing area and the Service area. The main part of the building is the sewing area, which is in the middle with administrative area, training and testing areas to the left and distribution & service areas to the right.
From cutting to the packaging all the steps can be performed in well light and naturally ventilated spaces. The solar power generated from the roof will light the interior at night. The construction system is tensile and frame structure. This will enable the fast construction process within 2-3weeks. The material used in the roof and exterior surface is Corrugated Galvanized Iron (CGI) sheets, which is well-found in Bangladesh. But it has some designed modifications to reduce the thermal heat gain.
Fabric store23.25x10.97
273.38 sqm
Loading & unloading deck
6.24x5.15
32.71 sqm
Finished productstore
9.73x6.24
65.97 sqm
Packing room
6.09x10.3262.8 sqm
Cutting area23.04x15.84
360.87 sqm
CAD room10.6x5.04
51.24sqm
Sewing area
34.97x52.941841 sqm
Thread
sucking
room3x5.16
15.57 sqm
Stain
removingroom
5.16x2.92
15.10 sqm
Male toilet
4.47x9.66
43.18sqm
Utility
store
3.66x2.007.44 sqm
Cuttingmanager's
room
3.43x2.04
7.28 sqm
Managing director's room
5.14x7.1936.35 sqm
Office area10.32x35.69
338.69 sqm
Conference room
6.69x9.99
70.86 sqm
Quality
manager's
room
3.39x6.3922.17 sqm
Meeting room3.38x7.05
24.13 sqm
Recption & waiting area
7.39x1011
74.73 sqm
Guard room
1.75x3.54
6.195 sqm
Locker room
8.88x12.85
103.87 sqm
Guard room
2.70x2.97
8.02 sqm
Pump room2.70x2.82
7.66 sqm
Female toilet4.25x9.57
40.67 sqm
Store room
1.82x2.75
5.58 sqm
Male toilet
2.88x5.34
15.38 sqm
Female toilet1.88x5.34
10.04 sqm
Electrical substation
4.19x7.49
31.38 sqm
Generator
4.69x7.49
35.13 sqm
Boiler room
4.19x 7.49
31.38 sqm
23m wide road
+0m
+0.15m
+1m
+1m
UPUP
UP
UP
UP
UP
UP
UP
UP
DN DN
B B'
C'
C
A'
A
DN
DN
DN
Female prayer room
10.57x13.99126.77 sqm
Kitchen
7.36x8.7865.55 sqm Medical room
7.20x10.4377 sqm
Dinning area20.51x27.15
516.47 sqm
Child care center
8.72x16.39134.20 sqm
Lecture room9.83x9.89
100.06 sqm
Laboratory9.8x12.03
121.69 sqm
Samplle making room10.1x33.22
299 sqm
Female toilet
2.84x5.0714.40 sqm
Male room
4.25x4.3418.445 sqm
Ablution space
4.43x5.5224.45 sqm
Male prayer room
10.76x13.98124.88 sqm
Ablution space
4.18x5.1121.35 sqm
Store room
1.82x2.755.58 sqm
B B'
C'
C
A'
A
Ground Floor Plan
First Floor Plan
Site Plan
Admin
Lab Lab
Sewing
Dinning and service
Cutting and Store
South Elevation
West Elevation
Section AA
The width of the sewing area is 150' in the North-South direction. It is possible to ensure cross ventilation as the main source of wind in Bangladesh is the south side. But the main problem is the sewing lines. There are six lines. The first line in the south side will get fresh air. But as the air will travel in the inner part of the sewing section the next lines will get hotter air with less oxygen components for the metabolism of the workers. That's why in the design there was a duct beneath the floor to supply fresh air to the middle portion of the sewing area. The mixed air then travels through out the system creating a well ventilated space. The position of the exhaust fans and the inlets & outlets were simulated with Comsol Multi-Physics 3.4.
Daylight level at +2m3:00 pm1st April
CI sheet
Styrofoam
Fero-cement
Solar panel
North Elevation
East Elevation
Section CC
Detail of Roofing Material
View of the factory from the Admin entry
Sewing area
Design Studio Xlevel 5
term 2
Identification of viable projects of significance as thesis projects. Preparation of complete design solution based on investigation and analysis of the physical and contextual aspects of the problem, and on the understanding of design considerations of material , structure and form. Stress is given on the objective analysis of the related factors and in transforming them into a tangible architectural solution of professionally acceptable quality.
Arch 504Design Studio X (Thesis)12.00 Credits. 15 Hrs/Wk
Design Guidelines for Maximizing the Use of Daylight and Natural Ventilation in Retail Shopping Environments in the Context of Dhaka City
Pre Mughal Period[before 1604]
Bangladesh Period
Exa
mple
of
shoppin
g
envi
ronm
ent
Sele
cted
exa
mple
P
lan
Sect
ions
Pre
sent si
tuatio
nD
ayl
ight util
izatio
nN
atu
ral
Ventil
atio
nC
ircu
latio
n
1. Shakhari Bazar2. Tanti Bazar3. Laksmi Bazar
Shakhari Bazar Cawk Bazar
1. Chawk Bazar2. Bakshi Bazar3. Dewan Bazar
Cawk Bazar 1. Chawk Bazar2. Nawabpur Bazar3. Islampur Bazar
1. New Market2. Gausia Market3. DCC Market
Polton super market
1. Century arcade2. Sharif Market
1. Eastern plaza2.Riffels square
1. Annam rangs plaza2. Plaza A R3. Basundhara city
New market Polton super market Century arcade Eastern Plaza Basundhara cityCawk Bazar Cawk Bazar
Loca
tion
Mughal Period[1608-1764]
East India company Period
[1764-1857]
British Colony Period
[1858-1947]
Pakistan Period[1947-1971]
1971-1980 1981-1990 1991-2000 2001-2011
Entirelydependent on
daylight
Entirelydependent on
daylight
Entirelydependent on
daylight
Entirelydependent on
daylight
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Natural Ventilation
Entirelydependent on
Artificial Ventilation600 ton
Entirelydependent on
Artificial Ventilation7000 ton
4
14
En
erg
y U
se No use of electricity at that period
No use of electricity at that period
No use of electricity at that period
No use of electricity at that period
4.2 W/sft 211.73 W/sft146.27 W/sft 100 W/sft 445 W/sft
Case Study
0%
20%
40%
60%
80%
100%
120%
Shakhari bazaar Chawk Bazaar New market Polton super market
Century Arcade Eastern plaza Basundhara city
Pe
rce
nta
ge
of
da
yli
gh
t u
se
Day light use
Day light use
0
50
100
150
200
250
300
350
400
450
500
New market Polton super
market
Century Arcade Eastern plaza Basundhara city
Electricity use per square feetWatt/sft
0%
20%
40%
60%
80%
100%
120%
Pe
rce
nta
ge
Use of natural and artificial Ventilation
Natural ventilation
Artificial ventilation
The use of electricity in per square feet is rising with the increasing in the use of artificial lighting and artificial ventilation. So, these types of multistoried shopping environments are increasing the use of energy at a higher rate.
In this study parametric study was done to identify and quantify the effect of each individual factor/parameters on daylight and natural ventilation. The main focus was to develop relations between the parameters of the shopping environments to maximize the use of daylight and natural ventilation. The parameters which were considered in this study were- width, height and depth of the shops; the depth of the corridor between two rows of shops; the height and width of the light wells. All the parametric relations are derived in the form of proportion to the width of the shop. As a part of idea testing, the findings of parametric study were applied through designing a retail shopping mall. Daylight and natural ventilation level were measured and compared with the given level in the BNBC code.
Field study
Problem Statement
Parametric studyin context of Dhaka city
Design Implementation
Thesisproblem
Literature review
Historical background of Shopping in Dhaka city
Sustainability in Shopping
Principles
Evolution of shopping
environments of Dhaka city
Evaluation of the better sustainable
design development
Parametersof sustainabledevelopment
[Daylight, Natural
ventilation,Urban Public
space]
Findings[design
considerations for Dhaka]
Research Structure
Section AA' [h=12']
h=8, d=1/2w, 100% aperture with clear glasson East side
d
w
h
Plan
A'A
Section AA' [h=8'] Section AA' [h=10']
Acceptable AcceptableNot
AcceptableAcceptable Acceptable
NotAcceptable
Acceptable AcceptableNot
Acceptable
Acceptable AcceptableNot
AcceptableAcceptable Acceptable
NotAcceptable
Acceptable AcceptableNot
Acceptable
AcceptableNot
AcceptableNot
AcceptableAcceptable
NotAcceptable
NotAcceptable
AcceptableNot
AcceptableNot
Acceptable
h=8 h=10 h=12
Height
Opening
100%
25%
1:1 1:2 1:3 1:1 1:2 1:3 1:1 1:2 1:3
50%
w:d
0
100
200
300
400
500
600
700
800
900
1000
w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w
100% 50% 25% 100% 50% 25% 100% 50% 25%
8' 10' 12'
Lowest Daylight Level for Single Shops with External Aperture
Lowest Daylight level
For h=8', 10', 12' and 50-100% opening, d= [1-2] wFor h=8', 10', 12' and 25% opening, d= w
lux
4540+
4110
3680
3250
2820
2390
1960
1530
1100
670
240
Single shop
Relation between Height, Width, Depth for a single shop with aperture on one side North-South-East-West
Plan
Parametric Study
Relation between Height, Width, Depth for a single shop with corridor on one side
Wc=0.5w
Wc=w
Wc=2w
Wc=3w
Wc=1.5w
Acceptable AcceptableNot
AcceptableAcceptable Acceptable
NotAcceptable
Acceptable AcceptableNot
Acceptable
Acceptable AcceptableNot
AcceptableAcceptable Acceptable
NotAcceptable
Acceptable AcceptableNot
Acceptable
Acceptable AcceptableNot
AcceptableAcceptable Acceptable
NotAcceptable
Acceptable AcceptableNot
Acceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
NotAcceptable
h=8 h=10 h=12
Height
Width of corridor
w:d 1:1 1:2 1:3 1:1 1:2 1:3 1:1 1:2 1:3
North-South-East-West
Plan
Section AA' [h=8']
Section AA' [h=10']
Section AA' [h=12']
A'
A
6900
7000
7100
7200
7300
7400
7500
7600
7700
7800
w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w
.5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w
8' 10' 12'
Lowest Daylight Level for SIngle Shops with External Corridor
Lowest Daylight level
For h=8', 10', 12' d= [1-2] w Wc= [.5-1.5] w
lux
9900+
9630
9360
9090
8820
8550
8280
8010
7740
7470
7200
h
d
wWc
Multiple shops
Relation between Height, Width, Depth, Width of the corridor and Length for shop with aperture on one side for daylight
Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable
Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable
Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable
Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable
Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable
Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable
Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable
Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable Not Acceptable
100%
Wc=0.5w
Wc=w
Wc=1.5w
w:dOpening Wc
Height h=8
1:1 1:2 1:3
[North-South]-[East-West]
50%
Wc=2w
Wc=2.5w
Wc=0.5w
Wc=w
Wc=2w
Wc=2.5w
Wc=1.5w
h=10 h=12
1:1 1:2 1:3 1:1 1:2 1:3
Plan A'A
'
Section AA' [h=8']
Section AA' [h=10']
Section AA' [h=12']
0
200
400
600
800
1000
1200
1400
w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w
.5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w
8' 10' 12'
Lowest Daylight level 100% Apparture
Lowest Daylight level
0
100
200
300
400
500
600
700
800
900
1000
w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w w 2w 3w
.5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w .5w w 1.5w 2w 2.5w
8' 10' 12'
Lowest Daylight level 50% Apparture
Lowest Daylight level
w WcL d
For h=8', 10', 12' and 100% opening, d= [1-2] w, Wc= [0.5-1.5] wFor h=8', 10', 12' and 50% opening, d= [1-2] w, Wc= [0.5-1] w
North-West
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Acceptable Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
Not Acceptable
LWindDirection
North
South
East
West
South-East
South-West
North-East
L=2w L=3w L=4w L=5w L=6w L=7w L=8w L=9w L=10w L=11w L=12w L=13w
Relation between Height, Width, Depth, Width of the corridor and Length for shop with corridor on one side for natural ventilation
Wc
d
w
Plan A'A
'
Section AA' [h=8']
Section AA' [h=10']
Section AA' [h=12']
h
L
For h= 8' L= [2-7] wFor h= 10' L= [2-8] wFor h= 12' L= [2-8] w
Wind flow in a corridor with close end
Wind flow in a corridor with open end
C
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
C=0.25w
WcC
Height h=8 h=10 h=12
0.5w
C=0.50w
C=w
C=1.5w
C=2w
C=2.5w
C=3w
w 1.5w 2w 3w 0.5w w 1.5w 2w 3w 0.5w w 1.5w 2w 3w
Multiple shops with horizontal layers
Relation between Floor height and width of the light well for shops with corridor on both sides
A'Plan
Section AA' [h=8']
Section AA' [h=10']
Section AA' [h=12']
A'
L
Wc
w
Cd
For h= 8',10, 12 c= [0.25-0.50] w when Wc = [0.5-1] w c= [1-1.5] w when Wc = [0.5-1.5] w c= [1.5-3] w when Wc = [0.5-2] w
lux
9000+
8100
7200
6300
5400
4500
3600
2700
1800
900
0
Daylight AnalysisDaylighting LevelsValue Range: 0 - 9000 lux ECOTECT v5
h=12, d=1/1.5w, c=w, Wc=1.5w
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Not Accepta
ble
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
Acceptable
C=w
HC
Height h=8 h=10 h=12
2h
C=2w
C=3w
C=4w
C=5w
C=6w
3h 4h 5h 6h 2h 3h 4h 5h 6h 2h 3h 4h 5h 6h
Multiple shops with Vertical layersRelation between Building height, width of the corridor and width of the light well for shop with corridor on both sides
A'
Plan
A'
Section AA' [h=8']
Section AA' [h=10']
Section AA' [h=12']
Wc
C
d
w
L
H
H
C
C
d
w
0
200
400
600
800
1000
1200
1400
2h 3h 4h 5h 6h 2h 3h 4h 5h 6h 2h 3h 4h 5h 6h 2h 3h 4h 5h 6h 2h 3h 4h 5h 6h 2h 3h 4h 5h 6h
w 2w 3w 4w 5w 6w
Light level at lowest level for h=8'
Light level at lowest level
For h= 8', 10', 12' c=nw when H=nh Here, n>1
Width of the shop [w] -12'Floor to floor height [h] - 12'Number of floors [n] - 6-8
From the parametric relations the results are-
Depth of the shops [d] -12'-24'Width of the corridor [Wc] -6'-18'Length of the shops [L] -84'-120'Width of the light well [C] -72'-96'Height of the light well [H] -72'-96'
Design guidelines for the selected site according to the BNBC code-Land size-63918.19sftFloor area required - 31960sft x 6=191760 sftFloor area required for sales- 143820sftCirculation, service, planting area-47940sft (25%)Number of Parking-89 Width of road- 35mFAR- NARMGC- 31960sft (50%)Set-back- Front-1.5mBack- 2mSides- 1.5m
UP
DN
UP
DN
UP
DN
UP
UP
UP
DN
UP
DN
UP
DN
DN
UP
DN
0'+6"
+4'
+4'
+4'
+6"
+6"
+6"
+6"
B
B'
c
c'
A
A'
1
5
51
1
12
5
11
1
1
1 1
11
1
11
11
121
5
4
2
12
111
6
1
7
5
76
1
11
1
7 7
1
1
11
1
1
1
5
4
1
8
4
4
5
1
1
2
1
1
1
2
3 34
1
41
14
4
26
1
5 1 4
1
4
11
1
1
4
1
1 1
8
1
1
54
2
4
21
1
4
6
3
3
4
1
1
1
5
5
1
11
1
1
11
3
5
4
1
5
21
21
2
31
2 2
53
3
5 111
5
11
1
4
2
1
8
1
11
1
1
5
1
6
4
2
2
5
6
1
1
1 111
5
61
6
3
3
1
1
11
2
2
1
3
41
4
1 111
1 6611
34
21
1
4
1
1
2
1
2
4
4
1
1
411
1
Ground Floor PlanSite Plan
Design Implementation of the Parametric Findings
Electro-Mechanical room
Electro-Mechanical room
Pump room
UP
UP
B
B'
c
c'
A
A'
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
Maletoilet
Femaletoilet
Maletoilet
Femaletoilet
B
B'
c
c'
A
A'
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
Maletoilet
Femaletoilet
Maletoilet
Femaletoilet
B
B'
c
c'
A
A'
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
Maletoilet
Femaletoilet
B
B'
c
c'
A
A'Basement Plan Third Floor Plan
Fourth Floor Plan Sixth Floor Plan
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
UP
DN
Maletoilet
Femaletoilet
Admin
B
B'
c
c'
A
A'
Seventh Floor Plan
Section AA
Section BB
Section CC
South Elevation
West Elevation
Lighting level at ground floor Lighting level at 3rd floor
North Elevation