A R C H I T E C T U R A L P O R T F O L I O
Cover: Understanding and Developing Contours, Sem 1 Year 1 2016
PALAK VERMA Selected Works 2016-20 SPA DELHI
CONTACT e-mail: palakverma98@gmail.com telephone: +91 9810449838 address: C-2/2070, Vasant Kunj, New Delhi-70 date of birth: 28-07-1998
ABOUT ME I am a 22-year-old undergraduate student currently studying B. Arch at School of Planning and Architecture, New Delhi. I have a thorough foundation of knowledge in architecture and design, and I possess the ability to adapt myself to different tasks and works, individually or as a team. I consider myself responsible, creative, and attentive to details. I am also a proficient vocalist and pianist — my free time is primarily devoted to practising and enjoying music. 02 | 03
EDUCATION BACHELORS OF ARCHITECTURE (2016 - 2021) School Of Planning And Architecture, New Delhi CBSE BOARD EXAMINATIONS (2016) The Mother’s International School, New Delhi AGG.: 97% in Science with Biology and Mathematics
CBSE CCE GRADE 10 (2014) The Mother’s International School, New Delhi CGPA: 10
RESEARCH & DOCUMENTATION DISSERTATION (2020) Biomimicry and Parametricism in Architecture SEMINAR (2019) Capitalising off of Climate Change in a group of 6 SETTLEMENT STUDY (2017) Documentation and Settlement Study of the Van Gujjar Settlements in Haridwar and Dehradun.
RESUMÉ
MEASURED DRAWING (2017)
life experience
Measured Drawing of the Bateshwar Temple
architect | singer | photographer
Complex, Gwalior, Madhya Pradesh.
WORK EXPERIENCE GREEN ENGINE LLC London, United Kingdom | New Delhi, India May 2020 — June 2020 Applications of Operations Research in Sports Venues - Graphic Design & 3D modeling on Rhinoceros.
NBCC (INDIA) LTD. (CONSULTANCY DIV.) East Kidwai Nagar, New Delhi January 2020 — April 2020 Working (tender) drawings of a university & college building, research of optimal & sustainable designs solutions, design of affordable housing schemes.
WORKSHOPS & COMPETITIONS Design of International Level Cricket Stadium cum Cricket Academy in Preliminary Evaluation round at Zonal level hosted by INSDAG (2019) Louis I Kahn Trophy hosted by NASA India (2019) Music (Vocal) at Inter-SPA, Bhopal (2018) Hands on workshop on Bamboo Curved Lattice Structures at Archade Building Centre, Anangpur (2017) and Installation of UPVC Doors and Windows at ENCRAFT, New Delhi (2017)
TECHNICAL SKILLS
GREHA
2D/3D Modeling: AutoCAD, Rhinoceros, Grasshopper, Sketchup
Aya Nagar, New Delhi
BIM & Rendering: Revit, Ecotect, Lumion, Vray
June 2019 — July 2019 Editing book on History of Architecture
TATA CONSULTANCY LTD. South Asian University, Maidan Garhi, New Delhi May 2017 — December 2017 On-site training & subsequent observations of construction of GRIHA rated project.
INTACH HERITAGE ACADEMY Janpath, New Delhi December 2016 — January 2017 Measured Drawing of Freemasons Hall, Janpath
Presentation: InDesign, Photoshop, MS Office Animation & Video Editing: After Effects, Premiere Pro
PERSONAL SKILLS & INTERESTS creative | energetic | communicative | positive | hard-working | responsible | focused | available to travel | team work | easy-going. singing | piano | art | design | literature | cinema
LANGUAGES Hindi | English | Sanskrit | Punjabi
04 | 05
CONTENTS work experience
INTL CRICKET OPS RESEARCH Integrated Models
URBAN DESIGN 2020
pg 08
STADIUM 2019
pg 14
SPORTS VENUES 2020
pg 20
SCH 2018
pg
PRODUCED BY AN AUTODESK STUDENT VERSION
A
C
E
F
G
H
J
K
L
M
65560 5490
5450
2590
3470
8500
8500
8500
8500
8500
5300
1
DN
2 3200
1:100 SLOPE TOWARDS KHURRA D2
RIDGE
1:100 SLOPE TOWARDS KHURRA
RIDGE D3
3100
RIDGE RIDGE
4
RIDGE
RIDGE
DN
3
1:100 SLOPE TOWARDS KHURRA
KHURRA (450X450)
RIDGE
5400
RIDGE
KHURRA (450X450)
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
1:100 SLOPE TOWARDS KHURRA KHURRA (450X450)
8500
RIDGE
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
5
RWP SHAFT (300X450)
RWP SHAFT (300X450)
RIDGE
KHURRA (450X450)
RIDGE
RIDGE 1:100 SLOPE TOWARDS KHURRA
6
RIDGE
5340
1:100 SLOPE TOWARDS KHURRA
RIDGE
RIDGE
3160
7 8 3110
1:100 SLOPE KHURRA TOWARDS KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA RWP SHAFT (300X450)
RWP SHAFT (300X450)
KHURRA (450X450)
9 5390
PRODUCED BY AN AUTODESK STUDENT VERSION
RIDGE 1:100 SLOPE TOWARDS KHURRA
RIDGE
10 5450
RIDGE
KHURRA (450X450) RIDGE RIDGE
1:100 SLOPE TOWARDS KHURRA
RIDGE
RIDGE
3050
RIDGE RIDGE
RIDGE RIDGE
KHURRA (450X450)
RIDGE
RIDGE
RIDGE
DN
RIDGE KHURRA (450X450)
RIDGE D2
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
3470
13
1:100 SLOPE TOWARDS KHURRA
RIDGE RIDGE
RWP SHAFT (300X450)
5030
102000
RWP SHAFT (300X450)
KHURRA (450X450) RIDGE
11 12
RWP SHAFT (300X450)
RIDGE
14
8160
1:100 SLOPE TOWARDS KHURRA
640
15
KHURRA (450X450)
RWP SHAFT (300X450)
RWP SHAFT (300X450)
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
RIDGE
16 8200
RIDGE
RIDGE 1:100 SLOPE TOWARDS KHURRA RIDGE 1:100 SLOPE TOWARDS KHURRA
RIDGE
17
8500
RIDGE
KHURRA (450X450)
RWP SHAFT (300X450)
RWP SHAFT (300X450)
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
18 UP 5300
RIDGE
3200
19
RIDGE
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
RIDGE
D3
RWP SHAFT (300X450)
21
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
RIDGE
KHURRA (450X450)
RIDGE
RIDGE
RIDGE
1:100 SLOPE TOWARDS KHURRA RIDGE
RIDGE
8500
20
RWP SHAFT (300X450)
DN
D3
DN RIDGE 1:100 SLOPE TOWARDS KHURRA
22 D
PRODUCED BY AN AUTODESK STUDENT VERSION
HOOL DESIGN 8
g 22
B 6060
DESIGN DEVELOPMENT 2019
pg 28
WORKING DRAWINGS 2019
pg 36
RESEARCH & DOCUMENTATION
pg 38
OTHER WORKS
pg 42 06 | 07
REDEVELOPMENT OF MARKET PRECINCTS [HAUZ KHAS, NEW DELHI] SEMESTER IX YEAR V 2020 [URBAN DESIGN — GROUP OF 4]
08 | 09
URBAN CORRIDORS AND PUBLIC PLAZAS
RESPONDING TO CONTEXT
RESPONDING TO RICH HERITAGE
PRESERVING THE SITE GREENS
The proposal of the design is to blur the boundaries, and this has been achieved by providing a porous boundary all around the site. For retail, there is a retail street that starts from the highly commercial node around Sharada park and goes till the hotel passing alongside the sunken courtyard or the central public plaza. The Kharera Wall-the heritage structure present on the site-acts as a backdrop to the entrance foyer, creating an uninterrupted visual axis and providing a grand sense of entry. The Wall also marks the starting point of the central green corridor that runs through the site. The housing edges are also kept porous with multiple internal entries and exit points. The massing stands connected with all the functions, leaving the major greens of the site uninterrupted, thus catering to the central green corridor. SITE PLAN
10 | 11
RETAIL & OFFICE The retail and office spaces have been designed around the trees and the green spaces, thus giving them utmost priority. The facade follows a catenary arch typology, inspired by the monuments in the context of the site situated in Hauz Khas. Visual and pedestrian axes have been maintained.
KEY PLAN
SITE PLAN (Retail & Office)
SECTION A-A’
SECTION B-B’
WEST ELEVATION
NORTH ELEVATION
12 | 13
INTERNATIONAL CRICKET STADIUM [GHAZIABAD, UTTAR PRADESH] SEMESTER VII YEAR IV 2019 [GROUP OF 2]
14 | 15
The design was inspired by the radial geometry of the lotus, the petal was manipulated as a motif to create illustrious archways as facade for the stadium. The petals are also arrayed at the roof. The truss was thus conceived accordingly, with members bifurcating from the base, intersecting at the middle, and then again diverging to finally meet the ring beam.
facade composed of ETFE panels and cushions
truss composed of three main steel tubular sections joining into the ring beam
upper tier
V structure to support additional seating
lower tier
site located in Ghaziabad
16 | 17
SECURITY
DN
SECURITY
DN
LOBBY
UP
UP
LOBBY DN
LOBBY
SECURITY ROOM
UP
DN
DN UP
UP
MEDIA/ PRESS PROCESSING AREA
CORPORATE LOUNGE
MEDIA LOUNGE
VIP LOUNGE
MEDIA/ PRESS WORKING OFFICE
UP
DN
UP DN
UP
DN
DN
UP
UP
UP
UP
UP
UP
UP
DN
DN
STAFF DINING GROUND STAFF AND STORAGE
STORE ROOM PITCH COVER PITCH COVER AREA
PITCH COVER
COUNTER AREA
UP
UP
DN
DN
KITCHEN STAFF ROOM SATELLITE KITCHEN
ASSOCIATION OFFICE
FIRSTAID
UP
STORAGE
SECURITY STAFF OFFICE
VENUE MANAGER'S OFFICE
DN
LOWER TIER LVL +2900
SECTION A THROUGH SPECTATOR STANDS AND ESCALATOR
SITE PLAN
SITE SECTION
SECTION A THROUGH SPECTATOR STANDS, STAIRCASE, VOMITORIES
DN
DN
DN
PHYSIOTHERAPY ROOM
DN
PHYSIOTHERAPY ROOM
DN
STORE
LOUNGE
UP
LOUNGE
UP
PRESS CONFERENCE ROOM
CONGREGATION/ REFRESHMENT AREA
UP
PANTRY
SMOKING ROOM
DN
LOUNGE
CORPORATE BOX
UP
MEETING ROOM
BAR
PRESS SEATING DN
DN
DN
SAUNA
SAUNA
UP
PANTRY UP
UP
SOUND BLOCKING CORRIDOR
UP
UP
UP
UP
COACH ROOM REFRESHMENT ROOM
PLAYERS LOUNGE
MASSAGE ROOM
COACH ROOM
UP
TV STUDIO
DN
UP
UP
RADIO ROOM
THIRD UMPIRE
UP
UP
COMMENTATOR 1 COMMENTATOR 2
UP
UP
UP
UP
UP
UP UP
UP UP
UP
UP
UP
UP
UP UP
UP
DN
DN
DN
UP
DN
UP
DN
UP UP
UP
UP UP
UP UP
LOCKER ROOM
UP
UP
UP
UP
DN
UP
UP
UP
UP
UP
UP
DN
UP UP
UP
PLAYERS LOUNGE REFRESHMENT ROOM
LOCKER ROOM
CORPORATE BOX
UP
UP UP
MASSAGE ROOM
UP
UP
VIP SEATING
UP
UP
CORPORATE BOX
DN
UP
UP
DN
UP
UP
DN
UP UP
UP
DN
STORE ROOM
VIDEO UPLINK ROOM
UP
DN
DN
UP UP
DN
UP
UP
DN
UP
DN
UP
DN
DN
STAFF LOUNGE EDITING ROOM
PRODUCTION ROOM
UP
UP
UP
DN
DN
UP
DN
DN
PRODUCTION CONTROL ROOM
UP DN
CONCOURSE LVL +9390
UP UP
DN DN
UPPER VOMITORY LVL +14010
UP
DN
LVL +20010
Coated Steel Drain Channel 100 DIA Air Flow Pip 200x200 Hollow Steel Framework. ETFE Cushion Panels 60 THK Steel Grill Fixture
18 | 19
Stad.AI sits at the intersection of gameday venue operations and algorithmic design.
Founded by experts in stadium design and computational research, the firm is exploring cutting edge solutions for driving operational efficiency in venue design. These solutions are especially relevant as venues look to reopen post Covid-19.
A combination of artificial intelligence, mathematical, applied statistics and algorithmic design techniques.
CONVEX OPTIMISATION
COMPLEX ADAPTIVE SYSTEM
DIMENSIONALITY REDUCTION
PROBABILISTIC DECISION MODELLING
DEMAND MODELLING
GRAPH THEORY
CLUSTERING TECHNIQUES
STATISTICAL ANALYSIS
TIME-SERIES ANALYSIS
SENSITIVITY ANALYSIS
RANDOM FORESTS
EPIDEMIOLOGICAL MODELS
MATHEMATICAL PROGRAMMING
REGRESSION MODELS
QUEUING THEORY
STOCHASTIC PROCESSES
NATURAL LANGUAGE PROCESSING
NEURAL NETWORKS
GEOGRAPHIC INFORMATION SYSTEM
INTERNET OF THINGS
Operations Research
APPLICATIONS OF OPERATIONS RESEARCH IN SPORTS VENUES
[RESEARCH, GRAPHIC DESIGN & 3D MODELING INTERNSHIP] 2020 1. Regulations
2. Distancing
INGRESSAND EGRESS ALLOWEDCAPACITY AMENITIES QUARANTINEZONES GRAPH THEORY
LAYOUTS
MATHEMATICAL PROGRAMMING
DISTANCE
PROBABILISTIC DECISION MODELLING
REGRESSION MODELS
EPIDEMIOLOGICAL MODELS
COMPUTATIONAL DESIGN
NEURAL NETWORK
STATISTICAL ANALYSIS
BUILDING INFORMATION MODELLING
RANDOM FORESTS
3. Revenue Management
4. Broadcasting
DIMENSIONALITY REDUCTION
DEMAND MODELLING
LOUNGE/MEMBER CORPORATE SUITES PAVILLION LOWER MIDDLE LOWER SIDE UPPER MIDDLE UPPER SIDE
STOCHASTIC PROCESSES
CONVEX OPTIMISATION
CLUSTERING TECHNIQUES
SENSITIVITY ANALYSIS
TIME-SERIES ANALYSIS
NATURAL LANGUAGE PROCESSING
SHAPE GRAMMARS
QUEUING THEORY
Seating Allocations
Adaptive Allocation and Zoning Metrics
Q1
1.
TOTAL SEATS
REGULATED SEATS (30%)
SEATS ALLOCATED
UPPER FRONT
16,000
4,800
4,200
UF
UPPER SIDE
32,000
9 , 6 00
8,000
US
LOWER FRONT
15,000
5,000
4,000
LF
CATEGORY
CODE
LOWER SIDE
24,000
7,200
7,000
LS
PAVILLION
15,000
4 , 50 0
6,000
P
LOUNGE/MEMBER
6 , 50 0
1, 9 50
2,300
L
CORPORATE SUITE
1, 50 0
4 50
1, 50 0
C
2.
33000
Identifies exactly where each ticket holder sits and what is their relative risk.
1
UF US
Q4
LF
Q2
LS
3.
P
TOTAL
Adaptively changes the seating layout as tickets get sold.
L S
4.
33000 Q3
2
UF
Created a zoning chart with how many toilets, food and beverage stalls, parking layout and entry/exit points should be active for each quadrant (zone).
US LF
3
LS
5
P L S
4
Designates emergency quarantine zones.
20 | 21
K-12 SCHOOL SCHEMATIC DESIGN [GURUGRAM, HARYANA] SEMESTER V YEAR III 2018
22 | 23
use of lig building roof to m
top floor to act as absorbe
MASSING ITERATION 1: THE STAGGERED PYRAMID This iteration was proposed with terrace gardens outside each classroom so as to promote children to move outdoors. It aimed to provide a wholesome learning experience and environment.
MASSING ITERATION 2: THE LINEAR STEPS A major issue with the previous iteration was that each classroom received a very different type of sun quality, which posed an issue with the day to day activities. To resolve this, all the classrooms were placed with windows facing the same direction.
second fl classes o activity ro central c
first floor on the o rooms fa courtyard
wooden drop-off as well as
ground fl pre-prim
MASSING ITERATION 3: THE OPEN OCTAGON This iteration took a step away from the previous two iterations by removing the staggering, but at the same time providing a slight sense of the same by giving balconies of different widths overlooking the central courtyard.
FINAL ITERATION: THE CIRCULAR STAGGER This is the final design in the process of design development, which combines all the previous iterations by providing a central courtyard overlooked by staggered classrooms opening into terrace gardens.
site loca Gurugram
ght coloured material and cool minimize heat gain
r with laboratories s buffers for the heat ed from the roof
floor with senior on the outside and ooms facing the courtyard
r with junior classes outside and activity acing the central d
pergola over the ff to provide cover s a sense of entry
floor with mary classrooms
ated in Sector 43, m
24 | 25
PHYSICAL MODEL P HOTOGR AP HS
THE CIRCULAR STAGGER
THE FINAL DESIGN WAS ARRIVED AT AFTER EXPERIMENTING WITH MANY ITERATIONS, AND THEN EVENTUALLY FIXING THE DESIGN WITH A CENTRA COURTYARD TO KEEP THE AMBIENT TEMPERATURE OF THE SCHOOL LOW ADDITIONALLY, ALL THE CLASSROOMS HAVE BEEN ARRANGED IN A RADIA FASHION, FACING THE NORTH, EAST, AND SOUTH DIRECTIONS ONLY. A GREEN TERRACE HAS BEEN PROVIDED OUTSIDE EACH CLASSROOM IN ORDER TO PROMOTE THE STUDENTS TO MOVE OUTDOORS.
SECTION - SOUTH
SECTION - WES
ELEVATION - WES
ELEVATION - EAS
Y AL W. AL N O
H
ST
ST
ST
26 | 27
K-12 SCHOOL DESIGN DEVELOPMENT [GURUGRAM, HARYANA] SEMESTER VI YEAR III 2019
28 | 29
200 600 450
STEEL REINFORCEMENT GOING THROUGH BRICKS
600
600
200
PRODUCED BY AN AUTODESK STUDENT VERSION
2850
4200
TERRACOTTA BRICK JAALI
450
STAINLESS STEEL WEIGHT ANCHORS 600
2850
4200
C-SECTION (200x125MM) ANCHORED TO WALL
200
DOUBLE GLAZED FIXED GLASS WINDOW (2350x2850MM)
600
PRODUCED BY AN AUTODESK STUDENT VERSION
VENTILATOR
600
±00
P.C.C. (150THK) SAND (75THK) 4200
BRICK BAT (100THK) RAMMED EARTH
EXTERNAL WALL SECTION
PLASTER (20THK)
CLASSROOMS
600
PRODUCED BY AN AUTODESK STUDENT VERSION
ADMIN
600
4200
CORE
PRODUCED BY AN AUTODESK STUDENT VERSION
WATERPROOFING (PIDICRETE)
ACTIVITY SWIMMING POOL & AUDITORIUM
TRANSVERSE SECTION THROUGH FOCUS AREA
TAPERING R.C.C. RETAINING WALL
LONGIT
GOLA IN PLASTER (75MM)
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
TUDINAL SECTION THROUGH AUDITORIUM
SITE PLAN (DESIGN DEVELOPMENT)
30 | 31
CERAMIC TISSUE: FLEXBRICK THE FACADE OF THE SCHOOL BUILDING IS DESIGNED BY USING ROTATING ‘FLEXBRICK’ MODULES, WITH EACH MODULE HAVING A DIFFERENT ANGLE OF ROTATION SUCH THAT THE CLASSROOMS DO NOT HAVE DIRECT SOLAR HEAT GAIN FROM THE GLAZING. THIS HELPS IN MAINTAINING A LOWER AMBIENT TEMPERATURE DESPITE HAVING LARGE SIZED WINDOWS. THE SIZE OF THE GLAZING AND THE ROTATING ‘FLEXBRICK’ MODULES HELP IN ALLOWING SUFFICIENT DAYLIGHT FOR VARIOUS TASKS ALONG AS WELL AS OPTIMAL VISIBILITY. FACADE WITH ROTATING ‘FLEXBRICK’ MODULES STANDARD DIMENSIONS
DESIGNING CERAMIC TISSUES
MATERIALS Terracotta, Glazed Ceramic, Wood, Stainless Steel, Glass, Aluminium, etc.
INTERIOR CLASSROOM DAYLIGHT RENDER
INTERIOR COURTYARD DAYLIGHT RENDER
PHYSICAL MODEL PHOTOGRAPHS
32 | 33
CLIMATE RESPONSIVE PASSIVE STRATEGIES USED IN DESIGN via CLIMATE CONSULTANT
ENCLOSED WELL SHADED COURTYARDS
USE OF LIGHT COLOURED BUILDING MATERIALS TO MINIMIZE CONDUCTED HEAT GAIN
SHADOW ANALYSIS via ECOTECT
MINIMAL WEST FACING GLAZING
USE OF SCREENS
FLAT ROOFS
APRIL 15TH - 8:00 AM
SEPTEMBER 15TH - 8:00 AM
APRIL 15TH - 2:00 PM
SEPTEMBER 15TH - 2:00 PM
DAYLIGHT ANALYSIS via DESKTOP RADIAN
S OF CLASSROOM NCE
DAYLIGHT ANALYSIS via ECOTECT
34 | 35
PRODU
PRODUCED BY AN AUTODESK STUDENT VERSION L
M
NOTES
150 150 150 150 D1
W1
8200
EQ
8350
W1
150
EQ
CLASSROOM
D1
W1
W1
D1
150
150 MID LANDING -1650
UP
1000 HIGH S.S. RAILING
DN
12001200
35203520 D3
W1
150 150
D3
W1
W1
EQ EQ
W1
W1
EQ EQ
W1
W1
150 150 150 150
W1
W1
EQ EQ
W1
W1
EQ EQ
W1
W1
150 150 150 150
W1
W1
EQ EQ
T- 300T- 300 R- 150R- 150
W1
EQ EQ
W1
150 150
11700
UP 11700 UP
10500
UP UP 64006400
W1
W1
PALAK VERMA IV A A/2958/2016 GROUND FLOOR PLAN
6
7 5340
8 3160
9
10
3110
11
5390
12
13
3050
5450
5030
14 3470
D4
D3
D4
D3
D4
D3
D4
D3
D4
D3
D3 D4
D3
D5
D3
D1
D1
W1
W1
W1
W1
W1
W1
D1
W1
W1
W1
W1
W1
D1
D1
W1
W1
W1
W1
D3 D3
D1
D2
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
D3
W1
W1
W1
W1
W1
W1
W1
W1
W1
W1
D2
WEST ELEVATION
1:100 DATE
12.12.19
PRODU
1. All 1.dimensions All dimensions andand measurements measurements are are in in mm.mm. 2. This 2. This drawing drawing is property is property of the of architect the architect andand will not will be notused be used for any for any purpose purpose other other thanthan specified. specified. 3. The 3. The drawing drawing is toisbe toread be read andand not not measured. measured. 4. Any 4. Any discrepancy discrepancy in the in drawing the drawing is toisbe to be brought brought to the to notice the notice of the of architect the architect immediately. immediately. 5. All 5.dimensions All dimensions are are clearclear masonry masonry openings. openings.
1
2 5300
3 3200
5
6
8500
8
8500
10
8500
8500
11
12 3050
5450
5
2100 2100 2100 2100 2100 2100
DESCRIPTION DESCRIPTION
DATE DATE
2100 2100
2100
150
W3
200 OPENING 200 OPENING
AS PER AS PER SHOPSHOP DWG DWG
TYPE TYPE WIDTH WIDTHSILLSILLLINTEL LINTEL HEIGHT HEIGHT D1 D1 1200 1200 00 00 2100 2100 2100 2100 D2 D2 1800 2100 1800 00 00 2100 2100 2100 D3 D3 900900 00 00 2100 2100 2100 2100 D4 D4 600600 00 00 2100 2100 2100 2100 D5 D5 1100 1100 00 00 2100 2100 2100 2100 D6 D6 800800 00 00 2100 2100 2100 2100 W1 W1 2400 2400 200200 2650 2650 2850 2850 W2 W2 915915 305305 1525 1525 1830 1830 W3 W3 1890 1890 900900 2100 2100 1200 1200
A
B
C
200 2850 1000 200 2850 1000
2100
640
REVISION REVISION SCHEDULE SCHEDULE
E
F
G
H 65560
6060
5490
5450
2590
3470
8500
PROJECT PROJECT
K-12 K-12 SCHOOL SCHOOL
MID LANDING MID LANDING -1050 -1050
1000 HIGH 1000 HIGH S.S. RAILING S.S. RAILING
MID LANDING MID LANDING -1650 -1650
CLIENT CLIENT
SPA, SPA, NEW NEW DELHI DELHI
600 600
DRAWN DRAWN BY BY
PALAK PALAK VERMA VERMA IVIV AA A/2958/2016 A/2958/2016 GROUND GROUND FLOOR FLOOR PLAN PLAN SCALE SCALE
1:100 1:100
15800 15800
W1
NORTH
SCALE
PRODUCED BY AN AUTODESK STUDENT VERSION
150 W3
26502650
UP
W1
D3 D3
W1
DRAWN BY
SCHEDULE SCHEDULE OFOF OPENINGS OPENINGS
150 DN DN
4200
W1
200 2850 1150
W1
4200
W1
200 2850 1000
W1
DRAWING DRAWING
23 23
NORTH NORTH
8500
DATE DATE
UP UP
12.12.19 12.12.19
17050 17050
D D
PRODUCED PRODUCED BY BY AN AN AUTODESK AUTODESK STUDENT STUDENT VERSION VERSION
T- 300T- 300 R- 150R- 150
W1
200 2850 1000
D3
W1
W1
200 2850 1000
D3
12001200 LIFTLIFT LOBBY LOBBY
W- 2100 W- 2100 T- 300T- 300 R- 150R- 150 UP
GR. LVLGR. LVL ±00 ±00
GR. LVLGR. LVL ±00 ±00
PLINTHPLINTH LVL LVL +750 +750
10500
6880
6880
8800
8800
85008500
W1
D6
150
D4 D6
59005900 PLINTHPLINTH LVL LVL +750 +750
64006400
W1
200 2850 1000
67006700
D6
D3
W1
200 2850 1000
8350
8350
8350
8350
8200
8200
CLASSROOM CLASSROOM
D3
W1
200 2850 1000
CORECORE DETAIL DETAIL REFERREFER D.2 D.2
83508350
CANTEEN CANTEEN
2000
2290
EQ
D1
W1
200 2850 1000
D1
D1
W1
8500
2100 D1
5300
D6
5 5400
W1
EQ
EQ EQ W3
150 150 D1
UP UP
23102310
22 22
2000
D4 D4
700 1200 700
D1
D1
T- 300T- 300 R- 150R- 150
1200
D4 D4
700 1200 700
D1
ACTIVITY ACTIVITY ROOM ROOM
46804680
1200
D4 D4
1200
D1
1200
D1
D1
21 21
5300
D4
TOILET TOILET
D4 J.C. J.C.
F.H.C.
D1
D4
SLOPE 1:12
33703370
16700 16700
8500
D4 D4
D3
F.H.C.
15001500
1200
D3
1200
3450
D3
SLOPE 1:12
D3
3450
F.H.C.
F.H.C.
59005900
D4
CORRIDOR CORRIDOR WIDTH WIDTH 34503450
3200
3200
1200
1200
LIFTLIFT LOBBY LOBBY 12001200
46804680
8500
D4 D4
WATER WATER COOLER COOLER
700 1200 700
700 1200 700
3200
3200
200
D4 D4
P.H. TOILET D5 P.H. D5TOILET
RWP RWP SHAFT SHAFT (300X450) (300X450)
600
RWP RWP SHAFT SHAFT (300X450) (300X450)
19 19
20 20
4 3100
W1
150 150
150 150 W3
EQ W1
D3 D4
PLINTHPLINTH LVL LVL +750 +750
D3
W1
110500
SPA, NEW DELHI
EQ
W1
W1
PLUMBING SHAFT
D3
1200
1200
26502650
W1
W2
CLIENT
EQ
W1
PLUMBING SHAFT
D3
32860 32860
5300
5300
TOILET TOILET
R- 150R- 150
DN DN
3 3200
W1
150 150
W1
150
D1
W- 2100 W- 2100
MID LANDING MID LANDING -1050 -1050
2 5375
W2
K-12 SCHOOL
150
W1
5780
5780 D1
UP UP T- 300T- 300
1000 HIGH 1000 HIGH S.S. RAILING S.S. RAILING
OPENING OPENING AS PER200 AS PER SHOPSHOP DWG DWG
EQ
CORRIDOR WIDTH 3450
ACTIVITY ACTIVITY ROOM ROOM
RWP RWP SHAFT SHAFT (300X450) (300X450)
1500
1500
RWP RWP SHAFT SHAFT (300X450) (300X450)
W1
W1
200 2850 1000
W1
EQ
EQ W1
W1
18 18 MID LANDING MID LANDING -1650 -1650
1
PROJECT
NO.NO.
PLINTHPLINTH LVL LVL +750 +750
SLOPE SLOPE 1:12 1:12
W1
EQ
8200
W1
W1
1000 HIGH 1000 HIGH S.S. RAILING S.S. RAILING
6400
6400
W1
600
MID LANDING MID LANDING -1650 -1650
16700
MID LANDING MID LANDING -1050 -1050
UP UP
UP UP
LINTEL HEIGHT 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2650 2850 1525 1830 2100 1200
PRODUCED BY AN AUTODESK STUDENT VERSION PRODUCED BY AN AUTODESK STUDENT VERSION
8500
W1
83508350
16700
OPENING OPENING AS PER AS PER SHOPSHOP DWG DWG
W1
4200
D1
T- 300T- 300 R- 150R- 150
8500
W1
EQ D1
17 17
PRODUCED BY AN AUTODESK STUDENT VERSION PRODUCED BY AN AUTODESK STUDENT VERSION
W1
COURTCOURT +550 +550
OPENING OPENING
AS PER AS PER SHOPSHOP DWG DWG
GR. LVLGR. LVL ±00 ±00
W1
W1
640
200
200
600 600 10941094 600 600 600 600 10941094 600 600
38600
UP UP
CORRIDOR WIDTH 3450
W- 2100 W- 2100 T- 300T- 300 R- 150R- 150
LIFTLIFT LOBBY LOBBY
38600
1200
2650
1200 5900
5900 8200
STAFF STAFF ROOM ROOM
D3
DN DN
CORRIDOR WIDTH 3450
D3
12001200
CORRIDOR WIDTH 3450
D2
F.H.C. F.H.C.
8200
D1
SILL 00 00 00 00 00 00 200 305 900
12001200
2650
D2
16 16
D1
W1
EAST ELEVATION
2100
EQ EQ
8200
7560
7560
8160
8160
EQ EQ
640
15 15
640
60656065
RWP RWP SHAFT SHAFT (300X450) (300X450)
2290 300
W1
20302030
83508350
RWP RWP SHAFT SHAFT (300X450) (300X450)
3320
D4
150
D4
150
280 D1
280
D3
930
D1
34503450
W1
200 2850 1000
600 1090
ELECTRICAL ELECTRICAL ROOM ROOM
D1 D3
W1
NOTES NOTES
73007300
2200
600 600
D1
OPENING AS PER SHOP DWG
SHOPSHOP DWG DWG
930
EQ
EQ
7300
2200
EQ 150
W1
150
3470
3470
W1
PRODUCED PRODUCED BY BY AN AN AUTODESK AUTODESK STUDENT STUDENT VERSION VERSION
EQ
110500
EQ
PRODUCED BY AN AUTODESK STUDENT VERSION
14 14
W1
OPENING AS PER SHOP DWG
300
5900
600
OPENING AS PER SHOP DWG
2290
32860
200
2290
7480
LIFT LOBBY
W1
W1
W1
DRAWING
600 1090 600 600 1090 600 600 1090 600
1200
D2
EQ
110500
RWP SHAFT (300X450)
3450
5780
EQ
5030
1200
17000
150 150
RWP SHAFT (300X450)
W1
110500
F.H.C.
CORE DETAIL REFER D.1
ADMINISTRATION OFFICE
W1
MID LANDING -1050
EQ
3050
CORRIDOR WIDTH 9100 W1
12
W1
W1
2290
D3
EQ
10800
2650
600 1090
8500
3320
8500 9100
8500
9100
W1
11
8500
1200
EQ
5450
PLINTH LVL +750
6060
W1
4200
W- 2100 T- 300 R- 150
D1
W1
W1
200 2850 1000
EQ
1790
RWP SHAFT (300X450)
RWP SHAFT (300X450)
W1
D3
W1
CLASSROOM
COURT +550
D1
10
8200
3450
EQ
5390
3450
W1
EQ
8350
EQ
T- 300 R- 150
W1
4200
RWP SHAFT (300X450)
150
9
W1
200 2850 1000
RWP SHAFT (300X450)
W1
PLINTH LVL +750
SCHEDULE OF OPENINGS TYPE WIDTH D1 1200 D2 1800 D3 900 D4 600 D5 1100 D6 800 2400 W1 915 W2 W3 1890
D3
200 2850 1000
ADMINISTRATION OFFICE
GR. LVL ±00
150 150
16550
8 3110
W1
D1
UP 570
3160
14610
W1
W1
4200
CORRIDOR WIDTH 3450
EQ
30100
CORRIDOR WIDTH 3450
EQ 5340
7
W1
200 2850 1000
EQ
2840
W1
D1
D1
W1
W1
200 2850 1000
EQ W1
CLASSROOM
D3
10800
W1
200 2850 1000
8200
8350
7900
8500
8350
W1
W1
W1
DATE
W1
900
13 13
DESCRIPTION
200 2850 1000
EQ SLOPE 1:12
D1
8350
4860
13
NO.
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
W3
1500
6
W1
W1
REVISION SCHEDULE
D4
TOILET
3450
MEDICAL ROOM
W1
W1
200 2850 1000
D4
7000
2290
W1
W1
200 2850 1000
D4
D3
RWP SHAFT (300X450)
W1
W1
4200
D6
P.H. TOILET D4
RWP SHAFT (300X450)
W1
W1
200 2850 1000
D4
D3
5
W1
W1
4200
D4
12 5030
4200
D4
150
D5
W1
200 2850 1000
W3
200 2850 1000
D4
5250
2960
EQ
RECEPTION
D2
13 3470 110500
D3
RWP SHAFT (300X450)
32860
14
SION
5400
PLINTH LVL +750
UP
RWP SHAFT (300X450)
15 17000
4200
TOILET
WATER COOLER
10940
16
200 2850 1000
CORRIDOR WIDTH 3450
J.C.
4
17 8500
4200
D4
CORE DETAIL REFER D.2
18 5300
D3 D3
200 2850 1000
5900 1500
3450
LIFT LOBBY
D1
D1
430
19 3200
D3
4200
D1
D1
430
20 3200
W2
OPENING AS PER SHOP DWG
200 2850 1000
F.H.C. 1200
D3 D1
21 5300
W2
3660
3960
22
MID LANDING -1050
200
4200
120 D1
430 1540
2500
2500
270
D3
EQ
23 8500
DN
D3
4200
D2
EQ
UP
2650
PLINTH LVL +750
1. All dimensions and measurements are in mm. 2. This drawing is property of the architect and will not be used for any purpose other than specified. 3. The drawing is to be read and not measured. 4. Any discrepancy in the drawing is to be brought to the notice of the architect immediately. 5. All dimensions are clear masonry openings.
200 2850 1000
CLASSROOM
SLOPE 1:12
8350
8350
7900
8350
CLASSROOM
3450
F.H.C.
D3
1200
600
1200
3
600
3200
6400
CLASSROOM
600
MID LANDING -1650
200 2850 1000
8350
W- 2100 T- 300 R- 150
2200
W- 2100 T- 300 R- 150
6060
5900
7440 1160
DN
UP
1000 HIGH S.S. RAILING
UP T- 300 R- 150
ELECTRICAL ROOM
LIFT LOBBY
2
8500
6400 UP
W1
200 2850 1000
8200
GR. LVL ±00
150
W1
200 2850 1000
EQ
W1
200 2850 1000
8200
W1
8500
EQ
150 150
W1
200 2850 1000
8500 EQ
W1
200 2850 1000
EQ
150 150
W1
200 2850 1000
3320
7300
5300
600 1080 600 600 1080 600 600 1080 600
2500
8500 200
W1
200
1000 HIGH S.S. RAILING
CORE DETAIL REFER D.1
3100
200
W1
600
8500 150
150
3470
2280
OPENING AS PER SHOP DWG
150
300
600
2280
OPENING AS PER SHOP DWG
700 1200 700
2590
300
OPENING AS PER SHOP DWG
PLUMBING SHAFT
5450 2280
MID LANDING -1050
MID LANDING -1650
1200
5490 600
1200
6060
1
200 2850 1000
K
200 2850 1000
J 65560
200 2850 1000
H
200 2850 1000
G
200 2850 1000
F
E
200 2850 1000
C
PRODUCED BY AN AUTODESK STUDENT VERSION
B
SION
A
WORKING DRAWINGS
UCED BY AN AUTODESK STUDENT VERSION
NOTES
+28450 F.F.L. MUMTY LEVEL
19 5300
20 3200
21 3200
1200
18 8500
600
3200
22
23
5300
8500
F.H.C.
3
W2
W2
D3
+28450 F.F.L. MUMTY LEVEL
D3 D3 D3
2500
PLINTH LVL +750
EQ
D1
D1
D1
4200 4200 4200
4200
D1
D5
D5
D5
D3
L.V. SHAFT
SILL LINTEL HEIGHT 00 2100 2100 H.V. SHAFT 00 2100 2100 00 2100 2100 00 2100 2100 2100 00 2100 00 2100 2100 200 2650 2850 305 1525 1830 900 2100 1200
D3
F.H.C.
+17550 F.F.L. FOURTH FLOOR
+9150 F.F.L. SECOND FLOOR
+750 F.F.L. PLINTH LEVEL ±00 GROUND
LIFT LOBBY
OPENING AS PER SHOP DWG
OPENING AS PER SHOP DWG
OPENING AS PER SHOP DWG W- 6400 T- 300 R- 150
PLINTH LVL +750
-12 -18
OPENING AS PER SHOP DWG
200
-20
4
2 D4
JANITOR'S CLOSET
900
900
900
700
700
TOILET
700
700 W3
PARTITION WALL 2100MM HIGH
D3
150
K-12 SCHOOL
150
150
D4
WATER COOLER
D4
150 D4
150 D4
D6
SPA, NEW DELHI D5
PALAK VERMA IV A A/2958/2016
P.H. TOILET
2500 150
D4
D4
150
150
D4
150
D4
150
TOILET
DRAWING 3450
2
UP EXTERNAL SCHEDULE OF OPENINGS STAIRCASE
3
900
LINTEL HEIGHT 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100PLINTH LVL +750 2100 2100 2650 2850 1525 1830 2100 1200
600
600
1080
600
600
1080
600
-8
-6
7440
-2
PRESSURISATION SHAFT 1200
DN
D3
ELECTRICAL ROOM
LIFT LOBBY
-4
F.H.
2200 L.V. SHAFT D3
D3
H.V. SHAFT
F.H.C. D3 D2
EQ
1200
EQ
D4
D3
K-12 SCHOOL
450 HIGH GRANITE SLAB
CLIENT
W
D5
DRAWN BY 150
1:200
DETAIL 2
12.12.19
STONE COPING
PRODUCED BY AN AUTODESK STUDENT VE
1200
HYDRATED SLATE LIME WATER : POWDER 1:3
±00 GROUND
DATE
12.12.19
500
75 5340 3160 3110
BRICK BAT (100THK)
RWP SHAFT (300X450)
RWP SHAFT (300X450)
RAMMED EARTH
5390
PLASTER (20THK) WATERPROOFING (PIDICRETE)
KHURRA (450X450) RIDGE
RIDGE
RIDGE
RIDGE RIDGE RIDGE
RIDGE
RIDGE
3050
102000
RIDGE
(300X450)
KHURRA (450X450)
RIDGE
KHURRA (450X450)
RIDGE
5030
1:100 SLOPE TOWARDS KHURRA
RIDGE
RIDGE
DN
RIDGE
RIDGE
KHURRA (450X450)
RWP SHAFT (300X450)
RIDGE D2
RWP SHAFT (300X450)
SCHEDULE OF OPENINGS
GOLA IN PLASTER (75MM)
3470
1:100 SLOPE TOWARDS KHURRA
200
WATERPROOFING (PIDICRETE) RWP SHAFT
600
8160
1:100 SLOPE TOWARDS KHURRA KHURRA (450X450)
RIDGE
PLASTER (20THK)
FILLET (15MM)
RWP SHAFT (300X450)
(300X450)
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
640
PLASTER (20THK)
RIDGE
16 8200
±00
15
RIDGE
600
WATERPROOFING (PIDICRETE)
R.C.C. RETAINING WALL
RIDGE 1:100 SLOPE TOWARDS KHURRA
RWP SHAFT (300X450)
RWP SHAFT (300X450)
KHURRA (450X450)
UP
1:100 SLOPE TOWARDS KHURRA
RIDGE
20 21
WATERPROOFING (PIDICRETE)
RWP SHAFT (300X450)
DN
19
20THK PLASTER
R.C.C. FOOTING
WORKING DRAWING CLIENT
RIDGE
FOOTING DETAIL (1:5)
18
R.C.C. GOLA
1:4:8 150THK P.C.C.
LINTEL HEIGHT 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 3050 2850 2135 1830 2100 1200
SPA, NEW DELHI DRAWN BY
600 115 THK BRICK WALL FOR CONDUITS
SILL 00 00 00 00 00 00 200 305 900
RIDGE
1:4:8 PCC (150THK) RAMMED EARTH
KHURRA (450X450)
TYPE WIDTH D1 1200 D2 1800 D3 900 D4 600 D5 1100 D6 800 W1 2400 W2 915 W3 1890
PROJECT
1:100 SLOPE TOWARDS KHURRA
RIDGE
17
Date
NIB (1:5) RWP DETAIL SHAFT
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
RIDGE
5450
2850 425
VENTILATOR
Description
1:100 SLOPE TOWARDS KHURRA KHURRA (450X450)
20THK PLASTER
600
SECTION B-B'
1:100 SLOPE KHURRA TOWARDS KHURRA (450X450)
RIDGE
600
REVISION SCHEDULE
No.
SAND (75THK)
1:100 SLOPE TOWARDS KHURRA
14
RAMMED EARTH
200
1:200
RIDGE
PCC (150THK)
100THK BRICK BAT
SCALE
+7650 F.F.L. BASEMENT 2
3200 5400 8500
SECTIONS
-3450 F.F.L. BASEMENT 1
5300
600 450
DRAWING
RIDGE
1:100 SLOPE TOWARDS KHURRA
RIDGE
13
W1
75THK SAND
PALAK VERMA IV A A/2958/2016
+750 F.F.L. PLINTH LEVEL
RIDGE
±00
NIB
BRICK WALL FOR CONDUITS (115THK)
DRAWN BY +4950 F.F.L. FIRST FLOOR
12
RIDGE
RIDGE
KHURRA (450X450)
DRIP
11
SPA, NEW DELHI
+9150 F.F.L. SECOND FLOOR
COLUMN
DOUBLE GLAZED FIXED GLASS WINDOW
600
4200
+13350 F.F.L. THIRD FLOOR
GROUND LEVEL
RIDGE
1:4:8 150THK P.C.C.
4200
4200 4200 4200 4200 4200
4200
4200
4200 4200 4200 4200 4200 4200
CLIENT
1:100 SLOPE TOWARDS KHURRA
RWP SHAFT (300X450)
1:100 SLOPE TOWARDS KHURRA
10
DOUBLE GLAZED FIXED GLASS WINDOW
K-12 SCHOOL
+17550 F.F.L. FOURTH FLOOR
RIDGE
KHURRA (450X450)
RIDGE
8500
+21750 F.F.L. FIFTH FLOOR
LINTEL HEIGHT 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2100 2650 2850 1525 1830 2100 1200
D3
RWP SHAFT (300X450)
RWP SHAFT (300X450)
5300
4200
4200
+25950 T.O.S. ROOF
SILL 00 00 00 00 00 00 200 305 900
1:100 SLOPE TOWARDS KHURRA
KHURRA (450X450)
9
W1
450
+7650 F.F.L. BASEMENT 2
RIDGE
1:100 SLOPE TOWARDS KHURRA KHURRA (450X450)
8
600
2850
±00 GROUND
1:100 SLOPE TOWARDS KHURRA
RWP SHAFT (300X450)
3200
+28450 F.F.L. MUMTY LEVEL
7
+750 F.F.L. PLINTH LEVEL
-3450 F.F.L. BASEMENT 1
RIDGE
1:100 SLOPE TOWARDS KHURRA
6
DATE
PROJECT 4200
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
450 600
DESCRIPTION
M 1. All dimensions and measurements are in mm. 2. This drawing is property of the architect and will not be used for any purpose other than specified. 3. The drawing is to be read and not measured. 4. Any discrepancy in the drawing is to be brought to the notice of the architect immediately. 5. All dimensions are clear masonry openings.
RIDGE RIDGE
RIDGE
450 2850 NO.
8500
DETAIL 2
1:100 SLOPE TOWARDS KHURRA D2
4
DOUBLE GLAZED FIXED GLASS WINDOW
REVISION SCHEDULE
600
+4950 F.F.L. FIRST FLOOR
L 8500
DN RIDGE
RIDGE
DN
5
W1
K 8500
RIDGE
RWP SHAFT (300X450)
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
KHURRA (450X450)
1:100 SLOPE TOWARDS KHURRA
RIDGE
D3
RWP SHAFT (300X450)
RIDGE
1:100 SLOPE TOWARDS KHURRA
RIDGE
KHURRA (450X450)
RIDGE
RIDGE
1:100 SLOPE TOWARDS KHURRA RIDGE
RIDGE
8500
+9150 F.F.L. SECOND FLOOR
PRODUCED BY AN AUTODESK STUDENT VERSION 600
4200 4200 4200 4200 4200 4200 4200 4200
2100
4200 4200 4200 4200 4200 4200
2100
8500
600
J 8500
200
8500
H 8500
2
VENTILATOR +13350 F.F.L. THIRD FLOOR
TYPE WIDTH 1200 D1 1800 D2 900 D3 600 D4 1100 D5 800 D6 2400 W1 915 W2 W3 1890
M
2500
8500
L
G 3470
DRAWING
EXTERNAL WALL SECTION
D3
DN RIDGE
PALAK VERMA IV A A/2958/2016
SCALE
1:50
1:100 SLOPE TOWARDS KHURRA
22
DATE
36 | 37 12.12.19
D
RAMMED EARTH
PRODUCED BY AN AUTODESK STUDENT VERSION
4200
+17550 F.F.L. FOURTH FLOOR
PRODUCED BY AN AUTODESK STUDENT VERSION
4200
200 2850 1000
2100 2100 2100 2100 2100 2100 2100 2100 2100 2100
200 2850 1000
200 2850 1000
200 2850 1000 200 2850 1000
200 2850 1000
200 2850 1000 200 2850 1000 200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
200 2850 1000
2100 2100 2100
2100
200 2850 1000
2100 2100 2100
2100
200 2850 1000
2100 2100 2100
2100
200 2850 1000
+21750 F.F.L. FIFTH FLOOR
SCHEDULE OF OPENINGS K
F 2590
3
DOUBLE GLAZED FIXED GLASS WINDOW
SECTION A-A'
J
5450
3100
+28450 F.F.L. MUMTY LEVEL +25950 T.O.S. ROOF
600
5300
4200
3200
4200
8500
DATE
12.12.19
E
65560
W1
4200
8500
22
PRODUCED BY AN AUTODESK STUDENT VERSION
8200
21
2500
640
20
C 5490
PRODUCED BY AN AUTODESK STUDENT VERSION
8160
18
B 6060
1
PRODUCED BY AN AUTODESK STUDENT VERSION
3470
17
A
1:50
600
PRODUCED BY AN AUTODESK STUDENT VERSION
5030
16
NOTES
NORTH
SCALE
1. All dimensions and measurements are in mm. 2. This drawing is property of the architect and will not be used for any purpose other than specified. 3. The drawing is to be read and not measured. 4. Any discrepancy in the drawing is to be brought to the notice of the architect immediately. 5. All dimensions are clear masonry openings.
3450
CORE DETAIL
PARAPET WALL
NOTES
15
D3
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION DRAWING GOLA IN PLASTER 75MM
UCED BY AN AUTODESK STUDENT VERSION
14
PALAK VERMA IV A A/2958/2016
PRODUCED BY AN AUTODESK STUDENT VERSION
SCALE
DATE
13
JANITOR'S CLOSET
SPA, DETAIL 1 NEW DELHI
W3
900
W- 2100 T- 300 R- 150
SILL 00 00 00 00 00 00 200 305 900
1080
150
900
TYPE WIDTH 1200 D1 1800 D2 900 D3 600 D4 1100 D5 800 D6 2400 W1 915 W2 W3 1890
600
-10
PROJECT
4
PARTITION WALL 2100MM HIGH
D3
ELEVATIONS
MID LANDING -1050
-22
5900
DRAWN BY +4950 F.F.L. FIRST FLOOR
PRESSURISATION SHAFT
1200
CLIENT +13350 F.F.L. THIRD FLOOR
DATE
MID LANDING -1650
1000 HIGH S.S. RAILING
D3
PROJECT
4200
D1
DETAIL 1
D5
+21750 F.F.L. FIFTH FLOOR
4200
D1
D1
D5
4200
D1
D1
D1
750
D1
4200
4
D1
D1
4200
3100
D1
D1
4200
D1
4200
D1
2500
D1
D1
4200
1200 D1
D2 +25950 T.O.S. ROOF
TYPE WIDTH D1 1200 D2 1800 D3 900 D4 600 D5 1100 D6 800 EQ 2400 W1 915 W2 W3 1890
+750
1200
PRODUCED BY AN AUTODESK STUDENT VERSION
D1
SCHEDULE OF OPENINGS
W- 2100 T- 300 R- 150
17 8200
2200
L GR. LVL
3320
MID LANDING -1050
PRODUCED BY AN AUTODESK STUDENT VERSION
D1
EXTERNAL STAIRCASE
16
640
PRESSURISATION SHAFT 1200
DN
DESCRIPTION
DN
-8
15
8160
7440
REVISION SCHEDULE NO.
G 3470
2280
-12
2 UP
ELECTRICAL ROOM
LIFT LOBBY
1 2650
D3
-10
-2
600
-2
2
1080
-4
-4
600
±00 GROUND
-6
4
600
+750 F.F.L. PLINTH LEVEL
300
7300
1080
2280
600
600
F 2590
300
200
600
5300
1080
-6
3200
600 D3
-8
E 5450 2280
600
4200 4200 4200
-10
-22
3100
-20
C 5490
600
-14
PRODUCED BY AN AUTODESK STUDENT VERSION
D3
B
-16
-12 W1
+750
150
W1
UP
PLINTH LVL
150
W1
W- 6400 T- 300 R- 150
PRODUCED BY AN AUTODESK STUDENT VERSION
-18 W1
DATE
3320
PLUMBING SHAFT
W1
DESCRIPTION
+4950 F.F.L. FIRST FLOOR
150
W1
NO.
+9150 F.F.L. SECOND FLOOR
700
W1
W1
1200
W1
W1
MID LANDING -1650
W- 2100 T- 300 R- 150
700
W1
EXTERNAL STAIRCASE
1200
W1
W1
PRODUCED BY AN AUTODESK STUDENT VERSION
600
1000 HIGH S.S. RAILING
REVISION SCHEDULE
1480
W1
W1
2280
OPENING AS PER SHOP DWG
1700
W1
W1
4200
W1
300
+13350 F.F.L.
1200
5300
W1
W1
4200
W1
1000 HIGH S.S. RAILING
+17550 F.F.L. FOURTH FLOOR
OPENING THIRD FLOOR AS PER SHOP DWG
-18
W1
2280
M 8500
+750
-20
W1
W1
300
OPENING AS PER SHOP DWG
L GR. LVL
-22
W1
W1
2280
MID LANDING -1050
G 3470
4
MID LANDING -1650
W1
W1
-14
W1
200
W1
W1
-16
W1
200 2850 1000
W1
200 2850 1000
W1
600
W1
F 2590
2
1
E +21750 F.F.L. FIFTH FLOOR
5450
4200
W1
5490
W1
4200
W1
750
W1
4200
W1
600
+25950 T.O.S. ROOF
5900
W2
C
4200
W1
W1
4200
W1
W1
4200
W1
W1
4200
W1
W1
200 2850 1150
W1
W1
B
200 2850 1000
W1
200 2850 1000
W1
200 2850 1000
W1
2500
W2
W1
NOTES
1. All dimensions and measurements are in mm. 2. This drawing is property of the architect and will not be used for any purpose other than specified. 3. The drawing is to be read and not measured. 4. Any discrepancy in the drawing is to be brought to the notice of the architect immediately. 5. All dimensions are clear masonry openings.
1200
W2
[K-12 SCHOOL] SEMESTER VII YEAR IV 2019
-14
1 5300
-16
2 3200
600
3 3100
2500
4 5400
600
5 8500
1360
6 5340
7300
7 3160
2500
W2
8 3110
5900
9 5390
600
10 5450
2500
11 3050
1. All dimensions and measurements are in mm. 2. This drawing is property of the architect and will not be used for any purpose other than specified. PRODUCED BY AN AUTODESK STUDENT VERSION 3. The drawing is to be read and not measured. 4. Any discrepancy in the drawing is to be brought to the notice of the architect immediately. 5. All dimensions are clear masonry openings.
P
PRODUCED BY AN AUTODESK STUDENT VE
ABSTRACT
Biomimicry is an applied science that derives inspiration for solutions to human problems through systems and processes. From centuries, architects and designers have been searching for answers questions about different kinds of structures, and they have mimicked a lot of forms from nature efficient structures for different architectural purposes. Computers have long been developing accurate tool for simulation and computing. Without computers, these various complex ways and fo by which designers can imitate different nature’s models despite its complexity.
This dissertation represents an investigation into biomimicry and includes analyses of case studie and computational strategies.
The findings and conclusions reiterate the hypothesis that combining biomimicry with parametricism visualisation necessary to produce architectural works. Keywords: Biomimicry, parametricism, inspiration, efficiency, innovation
Understanding concepts Biomimicry
Parametricism
A discipline that studies nature’s best ideas and then imitates these designs to solve human problems.
An architectural style based on computer technology and algorithms, and designed on rules.
Research Question
Le
“How can architecture draw inspiration from the symbiosis between computational design and the biological world?”
Org
Oxman Framework Culture <
> Nature
Beh
Biomimicry
(Tool)
A
A
Behaviour
Knowledge NA
NA
A
A
g
D es ig
in er
ne
Form-finding and achieving results which are more aesthetic, efficient, responsive, and controllable.
gi
Utility Key A Applied NA Non-Applied
Eco
En
Unifying the two schools of study
Imita beh invo an e an o app con
Economy
n
(Vision)
Parametricism
NA
Philosophy
Production <
Why combine the two?
> Perception
t
Sc
Ar
ie nc e
Information
NA
Imita part such anim the in te
Forms a relationship between the four modalities of human imagination.
Imita eco com allow effe con
DISSERTATION
the study of natural designs, [BIOMIMICRY & PARAMETRICISM IN ARCHITECTURE] s from nature to their complex SEMESTER IX YEAR V 2020 e to create better and more as a very sophisticated and forms of structures could not be mimicked. Thus using computers has risen as the way of mimicking and taking inspiration from nature
es wherein the development of a design method based on biomimetic principles has been done by using various parametric tools
m reduces the complexity of both design and construction in a manner that reduces the number of instructions, documentation, and
evels of biomimicry
Case Studies
ganism level
1. Rosenstein Pavilion
ating a particular t of an organism h as a plant or an mal, or mimicking entire organism, erms of its form.
A lightweight concrete shell pavilion inspired by the idea of â&#x20AC;&#x2DC;functional gradationâ&#x20AC;&#x2122; found in the skeleton tissue of sea urchins.
haviour level
2. Eastgate Center
ating the haviour, which can olve translating element of how organism acts or plies to a broader ntext.
osystem level
ation of entire osystems and the mmon values that w them to work ectively in natural nditions.
Findings Four domains work in synergy to create something new and unconventional Parametricism reduces complexity of design and construction Both concepts increase material and resource efficiency
A building ventilated and cooled by natural means by imitating the ventilation models and the using materials with similar properties as observed in termite mounds.
Both concepts produce structural and design innovation Both concepts create formstructure-function correlation
Conclusion 3. Zira Island A carbon neutral master plan established as an independent ecosystem through the use of sustainable technology, inspired by natural elements.
Utilising the confluence of biomimicry with parametricism is a need in the field of architecture. Biomimicry helps make the design an efficient and sustainable one, while parametricism as a tool helps realise the vision set by biomimicry, along with adding innovation.
38 | 39
DOCUMENTATION [BATESHWAR, GWALIOR]
SEMESTER II YEAR I 2017
40 | 41
[K H ON O M A , N AGAL AND, I NDI A]
PHOTOGRAPHY
[VASANT KUNJ, NEW DELHI, INDIA]
42 | 43
[M AJO R DA B E AC H, G OA , I NDI A]
PHOTOGRAPHY
[ 3 6,000 F T. , BA NG ALORE- DELHI , I N DIA]
44 | 45
[C ONN AU GHT P LACE, NEW DEL HI , I N DIA]
PHOTOGRAPHY
[ VASA N T KU N J, NEW DELHI , I NDI A]
46 | 47
SAILING THE STARS
MEDIUM: POSTER COLOUR ON CANVAS
FINE ARTS
MANDALA DESIGNS
MEDIUM: AUTODESK SKETCHBOOK
THE LAND OF DREAMS
MEDIUM: POSTER COLOUR ON CANVAS
48 | 49
BAMBOO CURVED LATTICE STRUCTURES
ARCHADE BUILDING CENTRE, ANANGPUR (JULY â&#x20AC;&#x2DC;18)
HANDS-ON WORKSHOP
MUSIC
UTOPIA THROUGH THE YEARS SANKALP (MUSIC SOCIETY)
50 | 51
PA L A K V E R M A palakverma98@gmail.com +91 9810449838