ABOUT ME Tech Enthusiast in Architecture
27 January 2000 E-15 SF Geetanjali Enclave, New Delhi-110017 +91 9811309198 rajatverma3690@gmail.com https://www.linkedin.com/in/rajat-verma-386247236/
Hi...I am Rajat Verma
ARCHITECTURAL PORTFOLIO (2018-2022)
Architecture has intrigued me from my younger years I am fascinated by built environment everywhere I go.
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I am an eager student with a get go attitude I have an avid interest in technology and its integration in the Field of construction industry. I enjoy exploring new softwares and am always up to date with the new technological innovations I constantly strive to better my hand on the new softwares so as to enhance my designing skills.
SOFTWARE SKILLS
EDUCATION
AUTODESK AUTOCAD
SCHOOL
RHINOCEROS
K.R.Mangalam World School, GkII, NewDelhi, Delhi 04/2004 - 03/2018 Courses • Class X - Affiliated with CBSE- 8.8 CGPA • Class XII - Affiliated with cbse - 80%
LUMION FINAL CUT PRO MS OFFICE
UNDER GRADUATION
TWINMOTION
Sushant School of Arts & Architecture 08/2018 - Present Courses • Semester 6 - 8.040 GPA • Semester 7 - 7.600 GPA
REVIT ADOBE AFTEREFFECTS ADOBE INDESIGN
WORK EXPERIENCE
CERTIFICATES
VASTUNIDHI ARCHITECTS
National Association of Students of Architecture (NASA, India)(2020)
Internship 08/2021-09/2021 DATABASE CENTRE SPECIALIST Achievements/Tasks • 3D Rendering on Lumion for the Walkthrough of the entire site. • Area Statement of the project • Understanding how an existing IT Park will be transformed to a Date Base Centre • Working on options of elevation of a Data Centre • Making presentation plans for the DBR (Design Basic Report)
Won 1st position in ZNDC while representing my college
Reference
Workshop organized by senior Apurv Jain
PANKAJ ROY WADHWA
FOAID | Festival of Architecture Interior Design (2021) Gold Winner for Expressions Art Installation Competition
Photoshop Sheet Presentation(2021) Workshop organized by Kaarwan
Design Mediation Rhino(2021)
Principal Architect and Founder | VASTUNIDHI ARCHITECTS Contact : +91 9810131561
ANDC Entry(2021)
REFERENCES
LANGUAGES
Col. VIRENDRA KUMAR MALIK (Retd.)
English
Dean & Professer at Sushant School of Arts & Architecture Contact : +91 9999683982 : virendrakumarmalik@sushantuniversity.edu.in : deanssaa@sushantuniversity.edu.in
SHIV MARWAHA
Principal Architect | SHIV MARWAHA AND ASSOCIATES Contact : +91 9818380018
Designed a bus terminal working in a team (Selected in Top 100 entries)
Full Professional Proficiency
Hindi
Professional Working Proficiency
INTERESTS Photography
Technology
Gaming
Cricket
Badminton
Baking
ARCHITECTURAL PORTFOLIO (2018-2022)
ADOBE PHOTOSHOP
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ARCHITECTURAL PORTFOLIO (2018-2022)
CONTENTS
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01
REAGROWX
02
ECOTAL
03
LIBRARY DESIGN
04
WORKING DRAWINGS
HYBRID TOWER Semester 6
URBAN DESIGN Semester 7
INSTITUTIONAL BUILT Semester 5
AIRPORT HANGER Semester 7
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WORKING DRAWINGS
06
DISSERTATION
07
COMPETITIONS
08
MISCELLANEOUS
COMMERCIAL BUILT Semester 6
NANO-TECH...FUTURE OF ARCHITECTURE Semester 7
PHOTOGRAPHY HANDS ON WORK
ARCHITECTURAL PORTFOLIO (2018-2022)
ANDC | 2020 FOAID | 2021
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ARCHITECTURAL PORTFOLIO (2018-2022)
01 RE-AGROWX (RESILIENT HYBRID)
Co-Designed with Aarsh Malhotra, Jassimar Singh Wahi
About The Project The Studio aims at an approach for making a Hybrid building and also integrate change as a dynamic process across time and explore the relationship between people and their place addressin their multidimensional needs. The studio also aims at a research driven ecological design thinking to use tools and techniques to design a hybrid, which considers not only the immediate existing conditions & risks but also speculate the future scenarios.
LOCATION : DLF Phase 1 , Gurugram, India TYPOLOGY : Resilient Hybrid SITE AREA : 30,400 Sqm GROUND COVER : 4000 Sqm SCAN THE QR CODE FOR WALKTHROUGH
SEMESTER : 6 | 2021
ARCHITECTURAL PORTFOLIO (2018-2022)
The project REAGROWX aims to relive the identity of Gurugram by bridging the gap between the past and the present of Gurugram. It caters to going back to its roots and facilitate an X factor related to new age agriculture and also incorporating many advantages for the farmers bringing it closer to gurugrams culture of organic farming REAGROWX also aims to provide a more sustainable facade treatments which will be a part of future gurugram buildings.
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SITE ANALYSIS
LAND USE
Commercial Green Belt / Park
STREET HIE
Residential Empty Land
ARCHITECTURAL PORTFOLIO (2018-2022)
ENTRY & EXIT
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GREEN S
Green
n Space
LOCATION AND REGIONAL LINKAGES 1.Easy accessibility to parts of Gurugram 2.Presence of multiple metro 3.Station to connect delhi and gurugram ECONOMY 1.High spending capacity TRADE AND COMMERCE 1.Cyber and one horizon centre 2.In close proximity various shops and hotels Present
WEAKNESSES
Unbuilt
Built
INFRASTRUCTURE 1.Lack of Drainage and Sewage Network URBAN GROWTH AND LAND MANAGEMENT 1.Heavy land usage by Residential And Commercial buildings 2.Lack of Parks and Open Spaces CONSERVATION 1.Lack of Awareness among younger generations about their history and culture Lacking the intent of incorporating 2.Heritage Concerns in their planning
OPPORTUNITIES NOISE MAP
ECONOMIC DEVELOPMENT 1.Has major IT hubs and major offices helping in Generating employment for locals 2.Works as node Between the capital and some of the major cities of Country UPCOMING PROJECTS 1.Major Housing Projects to accommodate more people due to increasing population 2.Extension to Golf Course Road
THREATS
Noise Level
AIR POLLUTION 1.Due to Increasing Population there is increase in vehicular traffic and thus, increase in air pollution NOISE POLLUTION 1.Due to multiple metro stations and increase in vehicular traffic 2.There is increase in Noise pollution ILLEGAL CONSTRUCTION 1.Many small shops extruding till thus decreasing the movement area on the roads 2.Illegal construction in various buildings
ARCHITECTURAL PORTFOLIO (2018-2022)
SPACES
NOLLIE’S MAP
SWOT ANALYSIS
ERARCHY
STRENGTHS
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BUBBLE DIAGRAM X FACTOR
ARCHITECTURAL PORTFOLIO (2018-2022) 10
CONNECTION AS PER AREA PROGRAM
CONNECTION AS PER HYBRID & FUNCTIONALITY
X FACTOR Due an explosive increase in the construction in recent years, agricultural in Gurgaon has seen a steep decline in productivity. Also the g town is ripped off its green cover to compensate for this we have planned to make a space which will not only be sustainable and green but will also encourage farmers and students, business and office going people to take up farming and farming related activities this space will provide something for everyone and perhaps give a boom to agriculture of the city. Our x factor will provide a research and development dept. for agricultural industries and also increase the number of people coming in through a space which designed to encourage people to take up therapeutic gardening as a hobby and reduce stress..
X FACTOR
CONCEPTUAL DIAGRAM
PAST
PRESENT
FUTURE
AREA PROGRAM AGRICULTURE MARKETING These are the shops which helps the buyers to buy produce of hydroponic farming and green sage produces HYBRID R&D This space will deal in Research and Development in hybrid Agriculture R&D IN SUSTAINABLE FARMING This space will deal in Research and Development in Sustainable Farming AGRI BAZAAR This space will help the people in Gurgaon buy fresh and organic produce straight from farm HYDROPONIC FARMING It is also termed as soil less farming which people living in smaller areas who don’t have much space can practice THE GREEN SAGE It is a solution that enables individuals and commercial growers to conveniently grow fresh, flavorful culinary herbs throughout the year. The users will get a kitchen gardening kit with it HYDROPONIC FACADE
FACADE SYSTEM
Kinetic Facade is used on the building for sun shading. The kinetic movement allows for accurate shading by moving in accordance with the direction of the sun. Hydroponic Facade is used for agriculture at the facade.
ARCHITECTURAL PORTFOLIO (2018-2022)
KINETIC FACADE
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USER GROUP
X FACTOR
RETAIL
HOTEL
OFFICE
GAMING CLUB
ARCHITECTURAL PORTFOLIO (2018-2022)
STACKING
ITERATION 1
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ITERATION 2
FINAL FORM
PUBLIC COURTYARD
The first step was to split the block into different floors. Next the blocks were given different heights. Next the blocks were given connection between the two blocks. According to the services, varrying heights were given to have a look at the views of the Aravalis. Next the blocks were divided according to the functions and given voids and spaces to interact.
CONCEPT
FORM DEVELOPMENT
Building is oriented and designed so that it creates 3 sunken courtyard one acts as a access for residents coming in the retail another sunken court act as entry for pedestrians, while third acts as underpass that connects both building at lower ground level.
Buildings are placed such that maximum vehicular accessibility can be achieved with sunken courtyards to have welcoming feeling for the pedestrians.
The building is oriented in such a way that it increases the amount of wind intake as it acts a barrier and increases the flow of wind through the open spaces.
Major residents of the buildings that is office and hotels have the major views from the building while more public spaces are placed right next to the main road.
ARCHITECTURAL PORTFOLIO (2018-2022)
SITE STUDY
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PLANS ARCHITECTURAL PORTFOLIO (2018-2022)
THIRD FLOOR PLAN
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SIXTH FLOOR PLAN
FORTH FLOO
EIGHT FLOOR P
Bridge Connectivity
Swimming Pool
Hotel
Stepped Courtyard
SECTIONS
Retail Office Area
Hydroponic Facade
OR PLAN
Double Height Cutout
Terraces
Public Plaza
ARCHITECTURAL PORTFOLIO (2018-2022)
PLAN
Stepped Courtyard
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ARCHITECTURAL PORTFOLIO (2018-2022)
RENDERED VIEWS HUMAN EYE VIEW
STEPPED AMPHITHEATER
ARCHITECTURAL PORTFOLIO (2018-2022)
RENDERED VIEWS
BIRD EYE VIEW
CONNECTED BRIDGE
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ARCHITECTURAL PORTFOLIO (2018-2022)
02 ECOTAL
(URBAN DESIGN)
Co-Designed with Ananya Khanna, Mradul Gupta
About The Project EcoTal is a modern ecological urban design proposal for Bajghera, an urban village, located in Gurugram,India. The vision of this proposal is to create an eco-friendly smart livable district which utilizes digital tools to promote a sustainable lifestyle. This proposal was designed for a site of 120 acres. The site consist of many underdeveloped pieces of land with mostly agricultural land owners by various individuals and government agencies. The 120 acres site lies in TOD intense zone having a FAR upto 3.5 in the transational zone.
LOCATION : Bajghera, Gurugram, India TYPOLOGY : Urban Design SITE AREA : 120 acres SEMESTER : 7 | 2021 SCAN THE QR CODE FOR WALKTHROUGH
ARCHITECTURAL PORTFOLIO (2018-2022)
The aim of the project was to achiece a low-emission zone with restricted motor vehicles while addressing the economical, social and nature-based aspects of sustainable development.
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SITE ANALYSIS
LAND USE
The site is presently barren with the edge along the Expressway being scantily covered by trees.
SUN PATH
ARCHITECTURAL PORTFOLIO (2018-2022)
SWOT ANALYSIS
The North-South axis is along the Dwarka Expressway. In East, a solar power plant is proposed which is used as the renewable energy source for the entire site.
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WIND MOVEMENT
Green Diagram - Wind Rose Yellow Diagram - Winter Wind Movement Blue Diagram - Summer Wind Movement
NOISE LEVELS
The site is surrounded by residential areas which account for 20% of the noise while the rest is due to the Expressway.
NODE 1
SECTION 1
SEWAGE LINE MAP
NODE 2
SECTION 2
ARCHITECTURAL PORTFOLIO (2018-2022)
WATERSHED MAP
STRUCTURE PLAN
SOLAR HEAT GAIN MAP
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22
ARCHITECTURAL PORTFOLIO (2018-2022)
STRATEGY PLAN
VISION
The vision of this proposal is to create an eco-friendly smart and livable district which utilizes digital tools to promote a sustainable lifestyle.
E-VEHICLE ROUTE WASTE COLLECTION ROUTE MOTOR VEHICLE ROUTE
SITE INFORMATION
SITE AREA : 120 ACRES GROUND COVERAGE : 30% FAR : 3.5
MOBILITY STRATEGIES TANGIBLE ASPECT • Motor Vehicle free zone • Promoting pedestrian and cyclist movement by incorporating dedicated routes • E-vehicular movement predominantly • Dedicated waste-collection route
TANGIBLE ASPECT • Recycle the plastic waste generated • Convert plastic into electricity • Educate the population about the conversion process • Provide a space for collection of the waste INTANGIBLE ASPECT • More open spaces • Less Ground Coverage • Green gathering spaces
DIGITAL STRATEGIES TANGIBLE ASPECT • Digital Booths • AI monitored traffic • Smart housing • VR park • Gathering spaces incorporating AI monitored water features
ARCHITECTURAL PORTFOLIO (2018-2022)
SUSTAINABILITY STRATEGIES
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PROGRAMATIC DISTRIBUTION
TRNASIT HUB A Transit Hub is provided on the site edge. near the up-coming metro station, which would house the various modes of E-vehicular transport as well as bicycle stands.
OFFICE Offices cater to aid the Al monitored surveillance as well as for those companies that promote their product at the exhibition pavillions.
VR MUSEUM The VR museum promotes the concept of digitalization and acts as the main attraction point, brining in more people to the site
COMMERCIAL
ARCHITECTURAL PORTFOLIO (2018-2022)
The commercial typology consists of 3 malls and smaller shops and market spaces.
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ENTRY / EXIT FROM DWARKA EXPRESSWAY
ENTRY / EXIT FROM DWARKA EXPRESSWAY
ENTRY / EXIT FROM DWARKA EXPRESSWAY
PLASTIC CONCERSION PLANT
This plant converts the plastic collected on site into electricity used for powering the 120 acres.
EXIT FROM SITE
RESIDENTIAL
This residential typology consists of group housing desinged for the expected population on site.
INSTITUTIONAL
EXHIBITION PAVILIONS These pavilions are made up of a modular unit which are stagged and arranged according to the user requirement. The pavilions are our design strategy to increase awareness among the people regarding digital and sustainable means of living.
ARCHITECTURAL PORTFOLIO (2018-2022)
An institutional zone is provided, a college which focuses on research and experimentation with regard to building a smart green world.
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ARCHITECTURAL PORTFOLIO (2018-2022)
RENDER VIEWS HOUSING COMPLEX
PAVILLION VIEWS
ARCHITECTURAL PORTFOLIO (2018-2022)
RENDER VIEWS
CYCLING TRACK
OFFICE BUILDINGS
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ARCHITECTURAL PORTFOLIO (2018-2022)
03 IT THE REPLY TO DEMOCRACY (LIBRARY SPACE)
Co-Designed with Saransh Gupta
About The Project The form revolves around Information technological advancements and incorporate spaces for study of the same. So a place to learn, create and do anything that is taught in an IT company without the restrictions.
LOCATION : CyberHub, Gurugram, India TYPOLOGY : Commercial SITE AREA : 6380 m2 COVERED AREA : 2380 m2 SCAN THE QR CODE FOR WALKTHROUGH
SEMESTER : 6 | 2021
ARCHITECTURAL PORTFOLIO (2018-2022)
Neighbourhood being the IT Hub the library will act major discussion interaction space for all age groups. The concept was to create a fluidic space where each individual can experience and learn technology irrespective of their background.
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SITE ANALYSIS
Building use on the basis of land use
Vehicular Movement
Flyover
Highway
Golf Couse Road
Metro Track
Minor Road
ARCHITECTURAL PORTFOLIO (2018-2022)
What are Democratic spaces?
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It is a space by the people, for the people and of the people. A space where any and every one has equal rundermental rights throughtout the space
Can every space be Democratic? Not every space can be democratic but yes any space can be democratic with change in amount of privacy levels.
Green Area
Cyber Hub
Residential Building
Commercial Building
How is the idea of making an IT advancement library democratic? A library is one of the most democratic spaces as it revolves around the idea of providing knowledge to anyone and everyone irrespective of their background or their social strata. It is a public space for one and all free from the disparitiesof the society.
The first step was to split the block to give a entry space. Next the block was made in a different way to give a giant entry space. Next the block has been put in such a way to cater the sun at the most. Staggering was done to elevate the library space and convert some spaces into double height. Next the block was fragmentated into different blocks divided by our area program. The final form has multiple entries, slopping roofs as well as alot of opening to cater to the natural light in the library space.
CONCEPT
FORM DEVELOPMENT
SITE PLAN
USER GROUP
Students
IT Company CEO
Office worker
Software engineers
ARCHITECTURAL PORTFOLIO (2018-2022)
The shape of the site is designed to optimize the surrounding context using the existing parking lot while providing more green space to promote greater footfall. The form is designed to create a welcoming narrative with entrances on both sides, maintaining multiple connections.
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FLOOR PLANS
SECOND FLOOR PLAN
FIRST FLOOR PLAN
ARCHITECTURAL PORTFOLIO (2018-2022)
GROUND FLOOR PLAN
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ARCHITECTURAL PORTFOLIO (2018-2022)
SECTIONS
SECTION 1
SECTION 2
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RENDERED VIEWS
BIRD EYE VIEW OF THE SITE
ARCHITECTURAL PORTFOLIO (2018-2022)
EXTERIOR WALL OF THE LIBRARY SPACE
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ARCHITECTURAL PORTFOLIO (2018-2022)
RENDERED VIEWS
COMMON GATHERING SPACE
EXTERIOR WALL
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RENDER VIEWS
SUN SHADE LOUVRES
ARCHITECTURAL PORTFOLIO (2018-2022)
REAR ELEVATION & FIRE ESCAPE STAIRCASE
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RENDER VIEWS
TOP FLOOR TILTED ROOF
ARCHITECTURAL PORTFOLIO (2018-2022)
LIBRARY INTERIOR SPACE WITH TITLED ROOF
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ARCHITECTURAL PORTFOLIO (2018-2022)
04 AIRPORT HANGER (PORTAL FRAME)
Co-Designed with Aarsh Malhotra, Jassimar Singh Wahi, Savvy Jain
About The Project The brief was to design an aircraft hanger for Flyboy Aviation Pvt. Ltd. in Jalandhar. The hanger was supposed to accomodate 2 air crafts at any given time. From the engineers room a clear view of the working area should be visible.The brief also included providing a reception waiting area, a cafeteria, climate controlled room and a store room.
LOCATION : Jalandhar, Punjab, India CLIENT : Flyboy Aviation pvt.ltd COVERED AREA : 615 m2 SEMESTER : 7 | 2021 SCAN THE QR CODE FOR WALKTHROUGH
ARCHITECTURAL PORTFOLIO (2018-2022)
A clear space, accommodation three aircrafts, is provided. The hangar has two storeys which allowed for a distinct division of spaces. The ground floor consists of utilities such as the reception, store and the climate controlled room, while the mezzanine contains the engineer’s room, the waiting lounge and the cafeteria. A gantry crane is provided in the main service area.
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A
B
C
D
E
F
G
36000 35000 6000
5500
5500
6000
6000
ISHB 200
1
200
1625
200
PORTAL FRAME I SECTION (450 x 200)
6000
BASE PLATE (650 x 400)
4775
RCC FOUNDATION (850 x 600)
TOOL ROOM (6300 X 3500) 17
D1
15
13
4775
14325
15000
12
11
10
9
8
7
AIRCRAFT PARKING SPACE 29300X14900 +300
6
3175
B
T - 300 R - 150 W - 1200
5575
AAC BLOCK
SEC
5
4
3
2
2
1
PRECAST RCC COLUMN (300 x 200)
SCREWS (18 mm dia)
SPLICE PLATE
16
4550
14
VERTICAL CORRUGATED SHEETING (KWIP SANDWICH PANEL)
PLINTH PROTECTION
CLIMATE CONTROLLED STORAGE (6300 X 4600)
SEC
B'
5675
D1
FLOOR PLANS
C
SEC
GROUND FLOOR PLAN
3
3400
4775
D2
WASHRROM (3000 X 5000) 3175
4 A
2000
SEC
5
HANGER DOOR RAIL
SEC
A'
3600 mm RAMP (SLOPE-1:12)
OUTSIDE CORNER TRIM
C'
SEC
C
SEC
MEZZANINE FLOOR PLAN A
B
C
D
E
F
G
36000 35000 6000
6000
5500
5500
6000
6000
1 CAFETERIA AND LOUNGE 4900X6300 4775
+3450
17 16 15 14 13
4775
3335
14325
15000
SEC
B'
600
3750
3275
4775
600
ENGINEERS ROOM 6300X4500
5575
2000
SEC
A'
3600 mm RAMP (SLOPE-1:12)
C'
ARCHITECTURAL PORTFOLIO (2018-2022)
9
12
8
7
11
6
10
5
D1
W1
5
3550
4330
4 A
T - 300 R - 150 W - 1200
MANAGERS ROOM 4600X4400
AIRCRAFT PARKING SPACE 29300X14900 +300
3
SEC
4
B
3
UP
PARAPET LVL 900
SEC
40
SEC
2
1
2
A
B
C
D
E
F
G
36000 35000 330 6000
6000
5500
5500
6000
6000 PORTAL FRAME I SECTION (450 x 200)
1
GUSSET PLATE ISA 60x60x6 4775
GUTTER @1:25 PURLIN(100 mm) RIDGE CAP
2 B
4775
SEC
14325
15000
RAFTER (200 mm)
SEC
B'
WIND PROPELLED VENTILATER
4775
3
ROOF PLANS
C
SEC
PURLIN PLAN
4 A
SEC
2000
SEC
5
A'
C'
SEC
C
SEC
ROOF PLAN A
B
C
D
E
F
G
36000 35000 330
330 6000
6000
5500
5500
6000
6000 PORTAL FRAME I SECTION (450 x 200)
1
GUSSET PLATE ISA 60x60x6 4775
GUTTER PURLIN(100 mm) RIDGE CAP
B
4775
SEC
14325
15000
RAFTER (200 mm)
SEC
B'
WIND PROPELLED VENTILATER
4775
3 ROOF SHEETING (KRIP SANDWICH PANEL 75 mm THICKNESS) SKY LIGHT (1000 x 1200)
4 A
5
SEC
2000
SEC
A'
EAVE TRIM
C'
SEC
ARCHITECTURAL PORTFOLIO (2018-2022)
C SECTION FRAME FOR SKYLIGHT
2
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SECTIONS
SECTION 1 A
B
C
D
E
F
G +12570 RIDGE CAP LEVEL RIDGE CAP
+11500 APEX LEVEL
2350
C SECTION PURLIN KRIP SANDWICH PANEL 75 mm THICK
+9200 EAVE LEVEL
8000
EAVE GUTTER (180 mm depth) ISCR 50
12570
GANTRY CRANE
+7100 GANTRY LEVEL
VERTICAL CORRUGATED SHEETING (KWIP SANDWICH PANEL)
ISWB 300 3825
16 mm STEEL BRACKET AAC BLOCK 200 (200 x 200 x 600) PORTAL FRAME I SECTION COLUMN
+3300 MEZZANINE FLOOR
300
3000
BEAM SLAB 200 mm
DRIP
Z SECTION
PLINTH PROTECTION
ANGLE SECTION
+300 PLINTH LEVEL
±00 mm NGL
TIE BEAM FOUNDATION
SECTION 2 A
B
C
D
E
F
G RIDGE CAP SPLICE PLATE (10 mm) C SECTION PURLIN
975
+11500 APEX LEVEL
2350
KRIP SANDWICH PANEL 75 mm THICK I SECTION (450 x 200)
+9200 EAVE LEVEL
8000
EAVE GUTTER (180 mm depth) +7100 GANTRY LEVEL
3825
12570
PVC PIPE CLAMPS
Z SECTION PORTAL FRAME I SECTION (450 x 200)
+3300 MEZZANINE FLOOR
3000
ANGLE SECTION
300
ARCHITECTURAL PORTFOLIO (2018-2022) 42
+12570 RIDGE CAP LEVEL
DRIP PLINTH PROTECTION
PEDESTAL
VERTICAL SHEETING (KWIP SANDWICH PANEL) PLINTH PROTECTION
+300 PLINTH LEVEL
±00 mm NGL
A
B
C
D
E
F
G
1010
RIDGE CAP
+12570 RIDGE CAP LEVEL
2315 1780
+11500 APEX LEVEL
EAVE TRIM
EAVE GUTTER (180 mm depth)
ELEVATIONS
ELEVATION 1
+9200 EAVE LEVEL
+7100 DOOR LEVEL
VERTICAL SHEETING (KWIP SANDWICH PANEL)
7160
HANGAR DOOR
DRIP 300
PLINTH PROTECTION
PEDESTAL
+300 PLINTH LEVEL
RAMP @ SLOPE 1:12
±00 mm NGL
PLINTH PROTECTION
ELEVATION 2 A
B
C
D
E
F
G
1010
RIDGE CAP C SECTION PURLIN
+12570 RIDGE CAP LEVEL
SPLICE PLATE (10 mm)
+11500 APEX LEVEL
VENTILATOR EAVE TRIM
1780
EAVE GUTTER (180 mm depth)
+9200 EAVE LEVEL
+7100 DOOR LEVEL
VERTICAL SHEETING (KWIP SANDWICH PANEL) Z SECTION
7160
+/- 0.00 CROSS BRACING
300
PORTAL FRAME I SECTION (450 x 200) NUT BOLT (14mm)
+300 PLINTH LEVEL
±00 mm NGL
ARCHITECTURAL PORTFOLIO (2018-2022)
2315
KRIP SANDWICH PANEL 75 mm THICK
43
GUSSET PLATE (10 mm THICK)
DETAIL F SHEET FIXING DETAIL (KRIP) SCALE- 1:10
PARKER SCREW
RAFTER ISA (60x60x6)
GUSSET PLATE (10 mm THICK)
RAFTER SCREWS 12 mm DIA HS
SCREWS 12 mm DIA HS
SCREWS 12 mm DIA HS
GUSSET PLATE 10 mm THICK ISA 60x60x6
ISA 60x60x6
CROSS BRACING DETAIL SCALE (1:10)
60
0
0
85
20
1500
1500
00
40
60
GUTTER C SECTION PURLIN (100 x 200) ISA 70 x 70 x 4 NUT 12 mm THICK
0
0
85
45
RCC COLUMN (300 x 200)
PEDESTAL (850 x 600)
1500
300
1500
SHEETING (KRIP)
TIE BEAM (450 x 300)
24
73
450
200
400
24 00 41 75 75
41
BASE PLATE (650 x 400) PEDESTAL (850 x 600)
130
PORTAL FRAME I SECTION (450 X 200)
60 0
0 65
2
0
45
0
85
1500
0
154
15
CROSS BRACING DETAIL SCALE (1:10)
CROSS BRACING DETAIL SCALE (1:10)
24
1500
PARKER SCREW
3000
WALL SHEETING (KWIP)
3000
DETAILS
ISA 60x60x6
ROOF SHEETING (KRIP)
00
PLATE
168
I SECTION COLUMN
2390 153
8
333 153
30
999
998
DETAIL G ROOFING SHEETING (KRIP) SCALE- 1:5
SHEET FIXING DETAIL (KRIP) SCALE- 1:5
333 58
DETAIL A
DETAIL H VERTICAL SHEETING (KRIP) SCALE- 1:5
DETAIL B COLUMN-FOUNDATION DETAIL SCALE - 1:5
PORTAL FRAME
TIE BEAM DETAIL SCALE - 1:5
15
00
0
10
27
DETAIL E GUTTER DETAIL SCALE 1:10 SPLICE PLATE
20
0
0
45
ISA 70X70X4
ROOFING
50
0 20
20
Z SECTION (200 x 65) ANGLE SECTION (50 x 50)
0 45
20
0
RAFTER-PURLIN DETAIL
RCC PEDESTAL (850 x 600) BASE PLATE (650 x 400)
450
65
450
65
PORTAL FRAME I SECTION (450 X 200)
C SECTION PURLIN(100X200)
NUT 12MM THICK
SCREWS (18mm dia)
20
100
POTAL FRAME I SECTION( 450 x 200)
GUTTER
73
20
41
40
8 55
300
333 28
26
25
27
15
00
27
333
300
333
333
40
200
130
DETAIL C COLUMN TO Z SECTION DETAIL SCALE - 1:5
COLUMN TO FOUNDATION DETAIL SCALE (1:10)
ROOFING
PLATE
164
70
168
69
80
27
BASE PLATE (400 x 300)
200
150
2 COLUMN TO FOUNDATION DETAIL (1:10)
ISWB 300
DETAIL J CORNER FIXING DETAIL SCALE:1:2
209
16 mm STEEL BRACKET
29
90
46
1
SKYLIGHT
110
DETAIL E GANTRY FIXING DETAIL 60 AVE. SCREED
PURLIN
50
20
1196
50
50
100
50
129
ARCHITECTURAL PORTFOLIO (2018-2022)
SAND TRAP LOUVRE SCALE:1:5
44
188
188
188
188
188
35
9
14
81
16 BOX TRACK CHANNEL 19
22
19
6
102 102
80
205
5
15
18
2
HOLLOW CORE SLAB (1196 x 205)
129
DETAIL D HOLLOW CORE SLAB SCALE (1:10)
2
50
WHEEL 38 43
ROOF SHEETING WITH SKYLIGHT SCALE:1:20
10
2
ISHB 200 (200 x 200)
200
20
115
13
300 500
PURLIN
2
RCC PEDETAL (600 x 500)
200
ROOFING
69
SCREWS (10 mm dia)
200 100
300
13
ISCR 50
104
27
50
GUTTER DETAIL SCALE 1:5
SPLICE PLATE
WHEEL 24
48
PLATE TO FIX THE HANGAR DOOR ON
DETAIL K DRIP SCALE:1:2
DETAIL I DOOR FIXING DETAIL SCALE:1:2
FRONT ELEVATION
CROSS BRACING BETWEEN COLUMNS
HOLLOW CORE SLAB
ENTRY SLOPE
COLUMN BEAM JUNCTION
VENTILATORS
RENDERS
PORTAL FRAME
DOOR CHANNEL
GANTRY FIXING
TOP VIEW
ARCHITECTURAL PORTFOLIO (2018-2022)
I SECTION JOINERY
45
46
ARCHITECTURAL PORTFOLIO (2018-2022)
05 THE ONE
(RCC WORKING DRAWINGS) Co-Designed with Saransh Gupta
About The Project
LOCATION : CyberHub, Gurugram, India TYPOLOGY : Commercial SITE AREA : 6380 m2 COVERED AREA : 2380 m2 SCAN THE QR CODE FOR WALKTHROUGH
SEMESTER : 6 | 2021
ARCHITECTURAL PORTFOLIO (2018-2022)
The One, situated in Cyber Hub, is an information technology inspired library meant to cater to the white collar employees as well as inspired students. This structure is inclusive of all age groups while focusing on technological advancements. The concept was to create a fluid space where each individual can experience and learn technology irrespective of their background.
47
D'
SEC
C'
SEC
PLANS
BASEMENT PLAN
A
B
C
C'
D
E E'
F
G G'
H
J
J'
K
L
80000 8000
1340
6660
8000
400
8000
7600
400
7600
8000
1340
8000
6660
8000
A
EXIT (SLOPE - 1:12)
3600
SEC
3600
4200
1 ENTRY
SEC
A'
(SLOPE - 1:12)
-2400 mm
R Inner 3000
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
R
P12
P13
O
utt
P14
P15
P16
P17
P18
P19
P20
P21
P22
P23
P24
V1
er-
V1
3
V1
V1
4000
2
62
V1
8500
6.0 M. WIDE PASSAGE
6.0 M. WIDE PASSAGE
-2325 mm
V1
00
-2325 mm
DETAIL Refer Sheet no. 28
-2175 mm
P39
P37
P36
P35
P34
P33
P29
-2175 mm
P28
P26
P25
P55
P56
P57
2250
1700
LIFT
-2175 mm
7.0 M. WIDE PASSAGE -2325 mm
D7
D7
ELECTRICAL SHAFT (2200 X 1110)
ELECTRICAL SHAFT (2200 X 1110)
-6
D6
-2325 mm
DOWN
±00 mm
T - 300 R - 150 W - 1500
-21
±00 mm
T - 300 R - 150 W - 1500
P27
2395
-21
1 Mtr High Railing
1 Mtr High Railing -19
3620
-1
-2
BASEMENT SERVICES AREA (3735 X 3600)
-4
SURVEILLANCE ROOM (3736 X 3600)
1650
LIFT
7.0 M. WIDE PASSAGE D6
DOWN
-19 -18
P49
P50
P51
P73
P72
P71
P70
P69
P68
P67
P52
P53
P54
P65
P64
F.H.C SHAFT (1200 X 1100)
B'
UP
V1
6.0 M. WIDE PASSAGE
V1
P80
P79
78
P77
P76
P75
P74
P66
P63
P62
P61
P60
P59
P58
V1
-2325 mm
-2325 mm
6.0 M. WIDE PASSAGE
P81
V1
8500
V1
V1
V1
V1
-16
-7
-8
-12
-14
P48
-7
P47
-8
P46
-10
P45
-12
P44
-14
P43
-16
F.H.C SHAFT (1200 X 1100)
-18
UP
-10
SEC
6
B
P30
LIFT
-6
SEC
P31
D3
-2175 mm
5
P32
2250
1700
36200
P38
D3
2395
LIFT
4380
36500
1650
-2
P40
-4
P41
-1
42
4
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
2 WHEELER PARKING
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
V1
D'
C'
SEC
V1
SEC
8
V1
2 WHEELER PARKING
V1
3000
7
D
D'
SEC
GROUND FLOOR PLAN
C'
SEC
6000 CK)
(SETBA
A
±00 mm
EXTERNAL SUMP
A
B
C
C'
D
E E'
F
G G'
H
J
J'
K
L
80300 80000 8000
1340
6660
8000
400
8000
7600
±00 mm
SEC
A'
7400
D5
175
W3
870
350 3115
COMMON SITTING AREA
605 870
1385
W3
1385
870
870
W3
2145
W3
W3
770
D4
W3
615
16880
870
W3
+975 mm
+975mm
770
2145
D4
D2 460 2250
1700
12
20
18
22
DOWN
7700
2700
D2
7585
2700
7700
±00 mm
SEC
±00 mm
9
7
F.H.C SHAFT (800 X 1100)
4070
±00 mm
1 Mtr High Railing
T - 300 R - 150 W - 1500 5
1
7400
ELECTRICAL SHAFT (2200 X 1110)
7700
LIFT
D7 D7
3
F.H.C SHAFT (800 X 1100)
6000 (SETBACK)
2395
B'
UP
11
5
1650
1
3
IT ARCHITECTURE AREA (7770 X 7735)
2100
+975 mm
7
TRANSITIONAL AREA
ELECTRICAL SHAFT (2200 X 1110)
T - 300 R - 150 W - 1500 9
5865
+975 mm
22
20
18
16
14
1 Mtr High Railing
11
D4
LIFT
VR AUGMENTATION AREA (7700 X 7770)
AI AREA (7700 X 7770) D7
±00 mm
±00 mm UP
585
2100
LIFT
±00 mm
585
D3
D6 DOWN
D4
5865
14
6135
2250
1700
4380
LIFT
5
D4
D3
2395
16
460
315
3620
W3
315
3250 3115
605
615
16880
8500
W2
COMMON SITTING AREA
1650
RECEPTION AND WAITING AREA (11905 X 15805)
CURTAIN WALL
1545
W1
W1
1545
W1
1545
1075
2250
2550 2500
350
350
D1 2500
2525
600
2275
2325 15400 5550
950
2100
4950
600
2075
600
370
D1 2325
370
350 2075
W1
1200
350
600 925
1200
950
600
195
350
600
2100
600
4950
2550
W4
3000
260
7
2920
2920
11350
+975 mm LIBRARY (1720 X 31805)
11350
+975 mm
CURTAIN WALL
7900
7900
D2
D2
8500
3080
8000
3080
36200
400
350
315
SEMINAR ROOM (16170 X 6735)
W2
+900 mm
6
+900 mm
Refer Sheet no. 29
MEDIA ROOM (16170 X 7035)
400
W3
870
3250
4000
D3
W3
6815
350
DETAIL
175
36500
7200
CURTAIN WALL
370
D5
350
W4
8
PLINTH PROTECTION
D8
7550
CURTAIN WALL
7200
12
1075
W1
1545
W1
925
±00 mm
±00 mm
±00 mm
C D'
C'
SEC
B SEC
ARCHITECTURAL PORTFOLIO (2018-2022)
D8
D2
48
D8
FEMALE WASHROOM
7550
600
6815
3
B
EXTERNAL DRAIN (200MM)
8000
D8
6000 (SETBACK)
SEC
D8
D5
D8
4
6660
±00 mm D8
D8
7400
2
1340
8000
MALE WASHROOM
4200
A
8000
PLUMBING SHAFT
D8
SEC
400
7600
1
4000 6000
TRANSFORMER
1700
5000 DISTRIBUTION ROOM
SOFTSCAPE
5000
SERVICES AREA
2500
GENRATOR
SOFTSCAPE LOW TENSION WIRE
6000M WIDE ROAD
6000M WIDE ROAD
FOOTPATH
FOOTPATH SOFTSCAPE
SOFTSCAPE
SOFTSCAPE
DETAIL
6500M WIDE ROAD
FOOTPATH
FOOTPATH
SOFTSCAPE
SOFTSCAPE
SOFTSCAPE
Refer Sheet no. A-XXX.XX
LOW TENSION WIRE
PLANS
EXTERNAL DEVELOPMENT PLAN
7000M WIDE ROAD LOW TENSION WIRE FIRE EXIT WAY
FIRE EXIT WAY
SOFTSCAPE SOFTSCAPE
SOFTSCAPE
SOFTSCAPE
FOOTPATH
7000M WIDE ROAD
6500M WIDE ROAD
PANEL BOX
FOOTPATH
PANEL BOX
SOFTSCAPE
SOFTSCAPE
FOOTPATH
FOOTPATH DROP OFF POINT
7000M WIDE ROAD
7000M WIDE ROAD
3000
LOW TENSION WIRE
UP
GUARD RM.
UP
METER ROOM
GUARD RM.
2000
DROP OFF POINT
HIGH TENSION WIRE
D
D'
SEC
TERRACE PLAN
C'
SEC
6000 K)
AC (SETB
A
A
B
C
C'
D
E E'
F
G G'
H
J
J'
K
L
80300 80000 8000
1340
6660
8000
400
8000
1
7600
400
7600 5
4
3
2
8000
8000
1340
6660
8000
1
6
6
4200
PLUMBING SHAFT
A
SEC
A'
2
6
6
6
4000
6000 (SETBACK)
6
RIDGE LINE
RIDGE LINE
TERRACE BELOW AT +10850
TERRACE BELOW AT +10850
8500
3 RIDGE LINE
+14340 mm
+14340 mm
6000 (SETBACK) D3
1 Mtr High Railing
67
69
71
82
80
84
86
90
79 78
SEC
+12450 mm
B'
77
+14340 mm
UP
75
F.H.C SHAFT (800 X 1100)
F.H.C SHAFT (800 X 1100)
73
8500
DOWN
+12750 mm
1 Mtr High Railing
69
75
LIFT
T - 300 R - 150 W - 1500 71
UP
88
D7 ELECTRICAL SHAFT (2200 X 1110)
67
77
D7 ELECTRICAL SHAFT (2200 X 1110)
T - 300 R - 150 W - 1500
+12450 mm
2250
LIFT
+14400 mm
+14400 mm
3620
+12750 mm
79 78
2395
1700
2250
MUMTY PROJ. ABOVE
D6
90
88
84
86
82
DOWN
6
B
MUMTY PROJ. ABOVE
D6 80
SEC
1650
1700
5
D3
2395
LIFT
73
36200
36500
1650
LIFT
4380
4
+14340 mm
3000
7 8
6
6
6
6
6
6
C D'
SEC
C'
SEC
B
ARCHITECTURAL PORTFOLIO (2018-2022)
SEC
49
A
B
C
C'
D
E E'
F
G G'
H
J
J'
K
-16700
+15340 mm Parapet LVL.
1000
-16700
+14340 mm TERRACE LVL.
TERRACE FLR. LVL
W5
W5
W5
W5
DOOR AS PER DETAIL
3035
3465
DOOR AS PER DETAIL
PLASTER (15MM)
W5
W5
PLASTER (15MM)
W5
W5
W3
W3 WOMEN'S WASHROOM SUNKEN -250
3300
±00 mm
±00 mm W5
W5
W5
MEN'S WASHROOM
12MM LVL DROP
SUNKEN -250
DOOR AS PER DETAIL
W5
±00 mm W5
W5
SUNKEN -250
W5
W5
PLASTER (15MM)
W5
W5
PLASTER (15MM)
W5
W5
W3 WOMEN'S WASHROOM SUNKEN -250
±00 mm W5
W5
W5
MEN'S WASHROOM
12MM LVL DROP
SUNKEN -250
F.F.L+4275 FIRST FLR.
±00 mm
DOOR AS PER DETAIL
W5 PLASTER (15MM)
W3
SKIRTING (100MM)
SUNKEN -250
DOOR AS PER DETAIL
W5
2790
3300
±00 mm
-4000 mm
±00 mm W5
W5
W5
PLASTER (15MM)
W3
W3 WOMEN'S WASHROOM SUNKEN -250
+4200 mm
MEN'S WASHROOM
12MM LVL DROP
SUNKEN -250
SKIRTING (100MM)
W3
+975 mm GF LVL.
F.F.L+975 GROUND FLR.
SUNKEN -250
RETAINING WALL AS PER SCHEDULE
±00 mm NGL LVL.
SPEED BREAKER
+4200 mm
SLOPE 1:250
2775
SLOPE 1:250
+4275 mm FF LVL.
SECOND FLR.
W3
-4000 mm
W3
F.F.L+7575
DOOR AS PER DETAIL
2790
3300
W5
W5
SKIRTING (100MM)
SUNKEN -250
DOOR AS PER DETAIL
W3
+7575 mm SF LVL.
W5
W5
PLASTER (15MM)
MEN'S WASHROOM
12MM LVL DROP
W3
-4000 mm
±00 mm
W3 SUNKEN -250
+10875 mm TF LVL.
THIRD FLR.
W3 WOMEN'S WASHROOM
W3
F.F.L+10875
DOOR AS PER DETAIL
PLASTER (15MM)
W3
SKIRTING (100MM)
SUNKEN -250
2790
-4000 mm
2325 975
L
F.F.L+14340
W3
17665
SECTION
SECTION THROUGH WASHROOM
RETAINING WALL AS PER SCHEDULE
DRAIN
-2325 mm Basement LVL.
DRAIN
SECTION THROUGH STAIRCASE A
B
C
C'
D
E E'
F
G G'
H
J
J'
K
STAIRCASE 1 (FIRE EXIT 1)
STAIRCASE 2 (FIRE EXIT 2)
A FIRE SHAFT
90
3465
78 77
76 74
T - 300 R - 150 W - 1500
72 70
TERRACE FLR.
89
SLAB THICKNESS AS PER SCHEDULE
PLASTER (15MM)
DOOR AS PER DETAIL
BEAM AS PER SCHEDULE DOOR AS PER DETAIL
DOOR AS PER DETAIL
EXPANSION JOINT BEAM
DOOR AS PER DETAIL
DOOR AS PER DETAIL
BEAM AS PER SCHEDULE
EXPANSION JOINT BEAM
SLAB THICKNESS AS PER SCHEDULE
DOOR AS PER DETAIL
PLASTER (15MM)
F.F.L+10875 SLAB THICKNESS AS PER SCHEDULE
63
PLASTER (15MM)
3300
3025
DOOR AS PER DETAIL
55 54 52
BEAM AS PER SCHEDULE DOOR AS PER DETAIL
DOOR AS PER DETAIL
EXPANSION JOINT BEAM
DOOR AS PER DETAIL
DOOR AS PER DETAIL
BEAM AS PER SCHEDULE
EXPANSION JOINT BEAM
59 57
PLASTER (15MM)
SLAB THICKNESS AS PER SCHEDULE
PLASTER (15MM)
3300
DOOR AS PER DETAIL
3025
35
32 30
BEAM AS PER SCHEDULE DOOR AS PER DETAIL
DOOR AS PER DETAIL
EXPANSION JOINT BEAM
DOOR AS PER DETAIL
DOOR AS PER DETAIL
BEAM AS PER SCHEDULE
EXPANSION JOINT BEAM
SLAB THICKNESS AS PER SCHEDULE
DOOR AS PER DETAIL
41 39
DOOR AS PER DETAIL
37 35
PLASTER (15MM)
33 32 30
28 26
FIRST FLR.
24
22
SLAB THICKNESS AS PER SCHEDULE
20
PLASTER (15MM)
18
11 9
BEAM AS PER SCHEDULE
DOOR AS PER DETAIL
3025
14 12
DOOR AS PER DETAIL
EXPANSION JOINT BEAM
DOOR AS PER DETAIL
DOOR AS PER DETAIL
BEAM AS PER SCHEDULE
EXPANSION JOINT BEAM
SLAB THICKNESS AS PER SCHEDULE
20
PLASTER (15MM)
18 16 14 12 11 9
7 5
GROUND FLR.
3
1
-10 -12 -14 -16 -18
F.F.L-2175
LANDING
FIRE SHAFT
-4 -6
3025
FIRE SHAFT
-2
-8
-4 -6
F.F.L-2325
-19
BASEMENT CORE LVL
-10 -12 -14
RETAINING WALL AS PER SCHEDULE
6
5
4
F.F.L+14400
F.F.L+14340
MUMPTY FLR.
TERRACE FLR.
90 89
87
3465
BEAM AS PER SCHEDULE
SLAB THICKNESS AS PER SCHEDULE
85
83
81
79
LIFT DOOR (2400 HIGH)
78 77
PLASTER (15MM)
75
73
3
2
BASEMENT CORE LVL
1
+15340 mm Parapet LVL. +14340 mm TERRACE LVL. DOOR AS PER DETAIL
+10875 mm TF LVL.
71
F.F.L+10875
69
THIRD FLR.
-2325 mm Basement LVL.
F.F.L-2175
2555
7
1000
8
67 66 65
3300
BEAM AS PER SCHEDULE
SLAB THICKNESS AS PER SCHEDULE
DOOR AS PER DETAIL
63
61
59
57
25MM LVL DROP
45 44
SUNKEN -150
DOOR AS PER DETAIL
40
36
LIFT DOOR (2400 HIGH)
2555
34 33
PLASTER (15MM)
RAILING (1050 MM HIGH)
31
FIRST FLR.
3300
23 22
SUNKEN -150
20
BEAM AS PER SCHEDULE
SLAB THICKNESS AS PER SCHEDULE
DOOR AS PER DETAIL
18
16
14
12 11
PLASTER (15MM)
LIFT DOOR (2400 HIGH)
9
7
F.F.L+975
450
SLOPE 1:250
SLAB THICKNESS AS PER SCHEDULE
-4
-6 -7 -8
-10
LIFT DOOR (2400 HIGH)
-12
PLASTER (15MM)
RETAINING WALL AS PER SCHEDULE
-14
-16
F.F.L-2325 BASEMENT FLR.
-18
F.F.L-2175 BASEMENT CORE FLR.
LIFT SHAFT
1 -1
BEAM AS PER SCHEDULE
+975 mm GF LVL.
5
3
GROUND FLR.
VENTILATOR
+4275 mm FF LVL.
27
25
2555
1050 200
F.F.L+4275 25MM LVL DROP
+7575 mm SF LVL.
38
±00 mm NGL LVL.
EXIT RAMP
2555
3300
SLAB THICKNESS AS PER SCHEDULE
29
2325 975
17665
42
DOUBLE HEIGHT BALCONY
DOUBLE HEIGHT BALCONY
47
SECOND FLR.
BEAM AS PER SCHEDULE
RAILING (1050 MM HIGH)
49
1050
LIFT DOOR (2400 HIGH)
51
F.F.L+7575
200
55
53
2555
55
PLASTER (15MM) CURTAIN WALL
SLOPE 1:250
RETAINING WALL AS PER SCHEDULE
±00 mm NGL LVL.
T - 300 R - 150 W - 1500
-18 -19
BASEMENT FLR.
SECTION THROUGH LIFT SHAFT
SLOPE 1:250
-7 -8
-16
TO BE CHECKED WITH VENDOR
SAND FILLING (200mm)
+975 mm GF LVL.
3
1
-7
PCC (100mm)
T - 300 R - 150 W - 1500
7
F.F.L+975
5
-2
RETAINING WALL AS PER SCHEDULE
+4275 mm FF LVL.
24
22
16
T - 300 R - 150 W - 1500
T - 300 R - 150 W - 1500
28
F.F.L+4275
26
LANDING
+7575 mm SF LVL.
46 44
33
T - 300 R - 150 W - 1500
T - 300 R - 150 W - 1500
48
SECOND FLR.
41
3300
55 54 52 50
F.F.L+7575
LANDING
+10875 mm TF LVL.
61
44
39
T - 300 R - 150 W - 1500
T - 300 R - 150 W - 1500
63
DOOR AS PER DETAIL
48
37
2325 975
77
50
LANDING
17665
78
76 74 72 70 68
SLAB THICKNESS AS PER SCHEDULE
DOOR AS PER DETAIL
46
ARCHITECTURAL PORTFOLIO (2018-2022)
79
66
61
50
81
THIRD FLR.
59
FIRE ESCAPE DOOR AT NGL
83
66
57
T - 300 R - 150 W - 1500
85
DOOR AS PER DETAIL
68
LANDING
+14340 mm TERRACE LVL.
90
87
3025
85 83 81
79
F.F.L+14340
FIRE SHAFT
1000
+15340 mm Parapet LVL. LANDING
89 87
SLOPE 1:250
L
-2325 mm Basement LVL.
WHITE PAINT
3465
1000
-11500
+15340 mm Parapet LVL.
-11500
+14340 mm TERRACE LVL.
230MM THICK PARAPET WALL ALUMINIUM WINDOW ±00 mm
TEXTURED MATT BLACK PAINT
±00 mm
W1
±00 mm
W1
±00 mm
W1
±00 mm
W1
±00 mm
W1
±00 mm
W1
W1
W1
+10875 mm TF LVL.
SS RAILING -19500
3300
-19500 GLASS CURTAIN WALL -3600
ALUMINIUM FRAME FOR CURTAIN WALL
15340
-19500
W5
W5
RCC COLUMN WITH WHITE APEX PAINT
3300
-3600
-3600
W5
W5
-3600
-3600
W5
W5
-3600
-3600
W5
W5
-3600
-3600
±00 mm
-3600
W5
W5
-3600
W1
W1
+7575 mm SF LVL.
-19500
W5
W5
-3600
±00 mm W1
SS RAILING FRAME WITH GLASS IN THE MIDDLE
W1
+4275 mm FF LVL.
-19500 TEXTURED MATT BLACK PAINT
-19500 ±00 mm
ALUMINIUM FRAMED VENTILATORS
±00 mm
W1
±00 mm
W1
W1
-600
W1
±00 mm
-600
W1
D1
975
3300
ELEVATIONS
NORTH WEST ELEVATION
V1
V1
V1
W1
D1
V1
V1
V1
V1
+975 mm GF LVL. ±00 mm NGL
SOUTH EAST ELEVATION WHITE PAINT 1000
-16700
+15340 mm Parapet LVL.
-16700
+14340 mm TERRACE LVL.
3465
230MM THICK PARAPET WALL ALUMINIUM WINDOW
W5 W3
3300
±00 mm
15340
TEXTURED MATT BLACK PAINT
W5
W3
3300
SS RAILING FRAME WITH GLASS IN THE MIDDLE
W5
W5
W5
W5
W5
W5
+4200 mm
W3
±00 mm
±00 mm
W5
W3
W5
W5
+4200 mm
-4000 mm
HPL SHEETS
W5
W3
W5
W5
+4200 mm
+4200 mm
+4200 mm
+4200 mm
W5
W3
+10875 mm TF LVL.
W3
+7575 mm SF LVL.
W3
+4275 mm FF LVL.
W3
+975 mm GF LVL. ±00 mm NGL
-4000 mm
±00 mm W5
W3
GLASS CURTAIN WALL W5
ALUMINIUM FRAME FOR CURTAIN WALL
W3
-4000 mm
3300
HPL SHEETS (2400X150)
W5
±00 mm W5
W3
W5
W5
W5
W5
W5
W5
±00 mm
W5
W5
+4200 mm
W5 W3
±00 mm
W3
975
230MM THICK PARAPET WALL
W5
W3
-4000 mm
±00 mm W5
W5
W5
+4200 mm
W3
+4200 mm
+4200 mm
+15340 mm Parapet LVL. +14340 mm TERRACE LVL.
230MM THICK PARAPET WALL -8000 mm
3465
±00 mm D2
TEXTURED MATT GREY PAINT
W5
3300 3300
±00 mm W5
W3
+300 mm
-24000 mm +10875 mm TF LVL.
W5
15340
W5
W2
±00 mm
W5
W5
WOODEN DOOR
D2
±00 mm
-8000 mm D2
W2
+300 mm
-24000 mm
GLASS CURTAIN WALL
+7575 mm SF LVL.
ALUMINIUM FRAME FOR CURTAIN WALL HPL SHEETS (2400X150)
-8000 mm
±00 mm D2
W5
W5
±00 mm W5
W2
W3
-24000 mm
+300 mm
+4275 mm FF LVL.
SS RAILING
975
3300
W5
D2
±00 mm ALUMINIUM FRAMED VENTILATORS
D3
V1
V1
-8000 mm
±00 mm
W5
W5
D2
W2
D3
+8000 mm
V1
V1
-24000 mm +975 mm GF LVL. ±00 mm NGL
ARCHITECTURAL PORTFOLIO (2018-2022)
1000
SOUTH WEST ELEVATION
51
STAIRCASE DETAILS
STAIRCASE SECTIONS 6
5
4
B
B
F.F.L +12750 MUMPTY FLR.
90 89
87
F.F.L +12750
85
83
3465
81
F.F.L +12450
79
LIFT DOOR (2400 HIGH)
78 77
75
73
+15340 mm MUMTY LVL.
3080
STAIRCASE 1 (FIRE EXIT 1)
+17680 mm TERRACE LVL.
89
+17680 mm TERRACE LVL.
LANDING
90
LANDING
66
+10875 mm TF LVL.
LANDING
44
+7575 mm SF LVL.
LANDING
22
LANDING
1
87 85
F.F.L +12750
83 81
F.F.L +12450
79
1M
78
tr H
77
igh
76
71
69
Ra
ilin
74
T - 300 R - 150 W - 1500
70
+10875 mm TF LVL.
67 66
g
72
1000
3160
TO BE CHECKED WITH VENDOR
+15340 mm MUMTY LVL.
68
65
63
63
61
61
59
59
F.F.L +9150
57
LIFT DOOR (2400 HIGH)
55
-7 53 -7
57
1M
55
-7 51 -7
tr H
igh
54
-7 49 -7
45 -7 44
g
48
+7575 mm SF LVL.
-7
19825
ilin
50
-7 47 -7
Ra
52
T - 300 R - 150 W - 1500
46
14340
55 -7
17680
3300
F.F.L +9150
42
41 40
LIFT DOOR (2400 HIGH)
-7
37 35
1M
33
tr H
igh
32
31 -7
29 -7 -7 27 -7
22
g
26
9150
+4275 mm FF LVL.
-7 23 -7
ilin
28
-7 25 -7
Ra
30
T - 300 R - 150 W - 1500
-7
+4275 mm FF LVL.
24
7575
34
10875
F.F.L +5850
36
33 -7
12450
3300
F.F.L +5850
12750
39 38
20
20 18
18 16
14
1M
12
tr H
igh
11
-7 9
-7 7 -7
-18
Scale 1:50
3400
78
6
B
T - 300 R - 150 W - 1500
+12450 mm 67
B'
1 Mtr High Railing
1500
69
SEC
SEC
1500
79
71
3620
1500
67
45
47
49
51
69
1500
510
3610
53
23
25
27
29
55
1500
510
31
33
3620
3620
510
1500 1
3
5
7
3610
3620
3610
9
-18
-16
-14
-12
-8
11
1500
-19 -10
1500
1500 510
3610
3620
-21
-7
3610
05 THIRD FLOOR PLAN
UP
+14400 mm
+12450 mm
90
6
B
T - 300 R - 150 W - 1500
88
1 Mtr High Railing
86
SEC
84
B'
82
SEC
80
+10875 mm
04 SECOND FLOOR PLAN
UP
3400
1500
DOWN
+12750 mm
79 78
5
90
B
88
ARCHITECTURAL PORTFOLIO (2018-2022)
C 6660
86
84
T - 300 R - 150 W - 1500
Scale 1:50
82
6
80
B'
DOWN
+7575 mm
1 Mtr High Railing
SEC
SEC
B
C
+12750 mm
3400
1500
5
66
64
03 FIRST FLOOR PLAN
UP
-19
6660
62
B
Scale 1:50
60
T - 300 R - 150 W - 1500
SEC
6
58
Scale 1:50
B'
56
02 GROUND FLOOR PLAN
SEC
DOWN
+4275 mm
UP
1 Mtr High Railing
LANDING
-2325 mm Basement LVL.
B
C
+9150 mm
3400
1500
5
44
B
T - 300 R - 150 W - 1500
42
6
B 6660
40
B'
38
1 Mtr High Railing
±00 mm
SEC
SEC
36
+5850 mm
3400
1500
34
01 BASEMENT FLOOR PLAN Scale 1:50
C
DOWN
+975 mm
UP
5
22
B
20
1 Mtr High Railing
g
BASEMENT CORE LVL
6660
18
3400
2500
16
±00 mm
SEC
6
DOWN
-2325 mm
14
T - 300 R - 150 W - 1500
12
5
-1
±00 mm
B
C 6660
-2
DOWN
-4
5
-6
52
B
ilin
F.F.L-2175 -2325 mm Basement LVL.
BASEMENT CORE FLR.
C
975
F.F.L -1800
F.F.L-2175
6660
Ra
-14 -16
-18
B
-12
73
-16
-10
T - 300 R - 150 W -1500
71
F.F.L -1800
igh
75
-14
tr H
73
2325
-12
1M
-8
510
-10
±00 mm NGL LVL.
-6 -7
510
LIFT DOOR (2400 HIGH)
-4
F.F.L ±00
±00 mm NGL LVL.
77
-6
-8
+975 mm GF LVL.
3
1800
-4
-7
g
-2
75
F.F.L ±00
+975 mm GF LVL.
77
975
-1
ilin
5
2400
-7 1
Ra
7
2100
-7
1800
-7 3
2550
LIFT SHAFT
-7 5 -7
9
T - 300 R - 150 W - 1500
-7
3620
12
-7
4275
F.F.L +2550
LIFT DOOR (2400 HIGH)
14
11 -7
3610
3300
F.F.L +2550
5850
16
06 TERRACE FLOOR PLAN Scale 1:50
UP
SEC
B'
G Y
SEC
F
DETAILS
WASHROOM LAYOUT E' 7600
7600
7150
7150
1770
1000
D8
1500
1500
920
2000
D3
D8
X'
SEC
330
D8
D8
190
SEC
A'
+960 mm
840
225
755 910
910
940
12MM DROP
100
1500
910
600
1435
1050
970
12MM DROP
330
D8
4845
D3
330
D8
FEMALE WASHROOM
1500
D8
1255
955
HANDICAPPED WASHROOM
2765
1200
225
575 50 900
330 140
1500
2070
2
955
3600
D8
A
955
2165
1035
1000
900
1035
575
SEC
3600
X
4200
+960 mm
SEC
990
2000
1500
225
MALE WASHROOM
1500
D8
1500
900
1070
900
900
PLUMBING SHAFT (2000 X 900)
175 900
605
900
1500
1
3755
D3
Y'
SEC
345
SECTION A-A’
E'
F
MEN'S WASHROOM
DOOR AS PER DETAIL
G
DOOR AS PER DETAIL
WOMEN'S WASHROOM
DOOR AS PER DETAIL
MIRROR
MIRROR
850
850
850
3500
SUNKEN -250
+975 mm GF LVL.
12MM LVL DROP
12MM LVL DROP
SUNKEN -250
450
2850
900 565
150
850
850
870
URINAL (870 MM HIGH)
325
2070
1800
2770
2790
900
PLASTER (15MM)
SUNKEN -250
SECTION X-X’ E'
F
MEN'S WASHROOM
G
WOMEN'S WASHROOM
HANDICAPPED WASHROOM
1800
1800
SUNKEN -250
SUNKEN -250
EXPANSION JOINT AT ROOF
2
900
DRIP THERMACOL
300
650
MORTAR (18MM) BRICK TILES(50MM)
18
50 12
PCC (75MM) LAID TO SLOPE
XPS INSULATION SHEET (75MM) MORTAR (18MM)
WATERPROOFING COMPOUND
12
12MM LVL DROP SPOUT
SEMI PARAPET FOR EXPANSION JOINT
75 75
235
SLAB AND BEAM
3005
PLUMBING SHAFT
2765
2900
LINTEL (230 X 150)
600
30
HANDICAPPED WASHROOM
SLOPE FOR WATER
COPING
150
1
SUNKEN -250
+975 mm GF LVL.
SUNKEN -250 300
100
300
ARCHITECTURAL PORTFOLIO (2018-2022)
565
+975 mm GF LVL.
325
150
865
900
865 870
865
865
870
870
900
450
SECTION Y-Y’
2770
URINAL (870 MM HIGH) 900
870
2790
URINAL (870 MM HIGH)
700
2850
330
PLASTER (15MM)
53
54
ARCHITECTURAL PORTFOLIO (2018-2022)
06 NANO TECHNOLOGY THE FUTURE OF ARCHITECTURE Dissertation
Scope of Study
• •
The main focus of the research will be on how Nanotechnology would effect construction materials in India based on distinct climatic zones. To concentrate on how nanomaterials can be used to replace the traditional building materials now in use. To investigate how Nanotechnology can be employed in building envelopes to increase the building’s strength-to-weight ratio.
MENTOR : Dr. Neena Singh Zutshi & Saniya Siddiqui GUIDE : Niraja Adloori SEMESTER : 7 | 2021
ARCHITECTURAL PORTFOLIO (2018-2022)
•
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NANO-TECH : THE FUTURE OF ARCHITECTURE
ARCHITECTURAL PORTFOLIO (2018-2022) 56
INTRODUCTION Nanotechnology, also known as "Nanotech", is a study of the control of substances on the atomic and molecular scale. Typically, nanotechnology interacts with structures of 100 nanometres or at least one side, and involves the development of objects or devices within that size. According to Etymologically "Nano means" Dwarf "in Greek. The nanometre is half a billionth of a meter, which is 100,000 hairs wide.
NANO MATERIALS Nanomaterials are materials made from nanometre-scale substances has opened up possibilities for new and innovative functions. They can be used as coatings, insulations, air purifying or in product manufacture. Privacy, sustainability, and security are just a few of the issues that will be profoundly affected by Nanotechnology and Nanomaterials. Nanomaterials will help in reducing CO2 emission by new ways and this will reflect in environment, humane and society.
Nanotechnology is an advanced technology however no longer a newly determined era. Scientists were exploring this era because masses of years the nano-sized gold particles .
AIM This dissertation aims to improve energy efficiency of buildings in India using Nano-Technology in Architecture. The main objective of this dissertation is to evaluate and develop a comparative analysis of Nanotechnology and conventional methods used in India
METHODOLOGY Understanding Nano-Technology as a broad topic Analyzing uses of Nano-Technology How Nano-Technology transforms architecture Understanding the worldwide use of Nano-Architecture Why the technology is not used in India?
“There is plenty of room at the bottom.” - John M. Johnson
SUSTAINABILITY THROUGH NANOARCHITECTURE Sustainable architecture is a general term that describes environmentally-conscious design techniques in the field of architecture. Sustainable architecture is framed by the larger discussion of sustainability and the pressing economic and political issues of our world. In the broad context, sustainable architecture seeks to minimize the negative environmental impact of buildings by enhancing efficiency and moderation in the use of materials, energy, and development space. Most simply, the idea of sustainability, or ecological design, is to ensure that our actions and decisions today do not inhibit the opportunities of future generations. Buildings are responsible for 50% of the world’s generation of CO2. How can design mitigate this alarming statistic and address the fact that climate change in general is threatening the future existence of mankind? Research and delivery of ways to avoid this catastrophe must be our primary aim.
When UV light from sun rays on the titanium dioxide coating, electrons are released. The electrons interact with water (H2O) in the air, breaking them up into hydroxyl radicals (OH), which are highly reactive short-lived, uncharged forms of hydroxide ion (OH-) These agile hydroxyl radicals attack the hefty organic (carbon based) molecules from which most dirt is made, breaking apart their chemical bonds and tuning them into smaller, harmless substances such CO2 and H2O
CONCLUSION Nanomaterials are materials made from nanometer-scale substances has opened up possibilities for new and innovative functions. They can be used as coatings, insulations,air purifying or in product manufacture. In recent years, a relatively large number of products for architecture have been developed and brought to the market. They are mainly used for passive climatization of e.g. wall and ceiling components. Some more ambitious applications are now being tried following a phase of observation and testing in small projects. The materials chosen offer an overview of the Nanomaterials most suitable at the current time for use in architecture, interior architecture and design
ARCHITECTURAL PORTFOLIO (2018-2022)
HOW DOES SELF CLEANING GLASS WORK?
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ARCHITECTURAL PORTFOLIO (2018-2022)
07 CALIBRATE
(BUS TERMINUS - ANDC)
Co-Designed with Aarsh Malhotra, Akarsh Jain, Ishan Agarwal, Jassimar SinghWahi & Saransh Gupta
About The Project One responds to the space it places one-self in. From the smell of the concrete to the height where the roof curves, every element involved in making a building stimulates an emotion. It is our responsibility to create a place that ensures that the mind does not feel oppressed.
SELECTED AS TOP 100 SHORT LISTED ENTRIES
LOCATION : Gandhi Nagar, Gujrat, India TYPOLOGY : Bus Terminus SITE AREA : 11.2 acres SCAN THE QR CODE FOR WALKTHROUGH
COMPETITION : ANDC | 2020
ARCHITECTURAL PORTFOLIO (2018-2022)
That is the goal of the Gandhi Nagar Bus Terminus, where we create a“fear-free” atmosphere while retaining the experience and the “homely” comfort, following all protocols pertinent to the post -pandemic world The world is changing in the blink of an eye, the Terminus was designed keeping that in mind a response to the fear, a step ahead of chaos and a mediator be- tween what the world was and what it may become.
59
FORM CONCEPT Dance form are the perfect epitome for tranquility which every design should cater to in a post pandemic scenario.
CALIBRATING CIRCULATION Interior Circulation of Buses
Cruising along this ideology we derived the form through the Dandiya Raas dance form which is intrinsic as a strong cultural identity of Gujarat. Movement / Circulation of the Buses in the pre existing site of Gandhi Nagar is extremely convoluted disorganized. With this redesign we've made several changes to the bus movement within the site and proximate to the terminus to help aid circulation at no extra time cost.
Exterior Circulation of Buses
ARCHITECTURAL PORTFOLIO (2018-2022)
The entry is from the left side which is then divided into 4 left turns that each lead to the 4 bus bays. The last turn also leads to the bus depot where the buses are maintained and serviced. Near the bus depot is a re fueling station; after which the buses then proceed to departure bays. Bus movement proximate to the terminal includes two bays, arrival at the top left and departure at the bottom right. Both of the are located on the ground level for reduced response time that mitigates delays.
60
CALIBRATING CIRCULATION Exterior Circulation of Parking
ENTRY AND INTERIORS The entry gates feature colonnades that account for added grandeur and also doubles a medium for partial segregation without the cost of visibility. This ensures the visitors familiarize with the various segregation zones inside without intimidating them.
The security area features 6 gates, each with a baggage belt for security. The The arrival and departure terminals of four wheelers set a foundation for what’s expected gates also feature sanitizer dispensers to reside inside. A mimicry of an airport concourse is observed in the following two pic- and sanitizing booths. tures, with the arrival and departure differentiated with the help of two levels, ground and first.
Exterior Circulation of 4 wheelers
relief. The benches are winding and one can sit on either side of the bench. A physical barrier separates each seat, this gives privacy and helps avoid contact between different passengers.
ARCHITECTURAL PORTFOLIO (2018-2022)
The arrival terminus located at the ground level ensures to encapsulate the visitors by grand stature of the entrance facade. But not only that, it successfully hints the use of levels for segregation further inside the terminus. The departure terminus, located at the top The seating area has been modified from level features a longer stretch of road preceding the exit facade. The reason for the longer the traditional linear seating. It has been stretch is because the estimated footfall of the departure is higher than that of the arrival. created around a green area. This acts as a
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ARCHITECTURAL PORTFOLIO (2018-2022)
07 THE PLASTIC PARADOX (ART INSTALLATION - FOAID)
Co-Designed with Aarsh Malhotra, Akarsh Jain, Ishan Agarwal, Jassimar SinghWahi, Saransh Gupta & Savvy Jain
About The Project For the past two years, the covid-19 pandemic had kept the world at a standstill. It created a sudden demand for sanitary products. The urgency of this demand was compounded by environmental concerns. Enough items needed to be produced to meet the necessities of the pandemic such as masks, PPE kits etc, however, they were made of plastic.
The installation represents the burden of plastic on the environment. We represent the environment at the base of the model in the form of roots. The hand is also an abstract representation of a tree showing the irony by creating the natural element with the material that harms it the most.
GOLD WINNER AT FOAID
TYPOLOGY : Art Installation SCAN THE QR CODE FOR VIDEO
COMPETITION : FOAID | 2021
ARCHITECTURAL PORTFOLIO (2018-2022)
Our installation aims to showcase the suffocating chokehold that plastic items have on the world as a result of the pandemic. As per our understanding of the brief, the installation must utilize a single material, hence plastic was chosen as the base material. Efforts were made to use recycled and defective items made from plastic while mainly focusing on using the items that were manufactured or used during the pandemic.
63
CONCEPT • •
• •
Our installation aims to showcase the suffocating hold that plastic items have on the world as a result of the pandemic and how the environmental concern has been given least priority. We also aim to create a debate on demonizing plastic as a material- whether it’s the material itself or the thoughtless usage that is the problem. As per our understanding of the brief, the installation must be homogeneous. Plastic was chosen as a material due to its versatility since its malleable, ductile, compressible etc. The entire installation will be made from reused and discarded materials. We have chosen to use only these items made from plastic and its derivatives and focused on using majorly the materials produced specific to the pandemic.
Plastic was considered as an evil material before pandemic and the use of plastic was restricted.
Post 2019 when there was an upsurge of Covid-19 Pandemic, plastic products were used as the first line of defense.
ARCHITECTURAL PORTFOLIO (2018-2022)
Cut plastic bottle filling
64
Cutting the form Developing a base through an acrylic sheet
Creating the slit from compressed waste plastic
When most materials were restrictive in usage, plastic became a savior in the form of Covid protective gear such as masks, PPE kits, syringes etc.
The use of these plastic made protective gears helped us to decrease the effect of the Covid-19 pandemic.
•
The installation can be divided into 4 parts: the base, the middle slits, the globe and the hand. The base is a mimicry of the roots of a tree arranged in a haphazard way representing the strain of plastic on the environment. The middle slits represents how change in the way of use of plastic can all together change its impact on the environment.
•
The slits can be rotated on a central axis making the installation interactive while demonstrating the changing foliage.
•
The hand and the globe together portray the grip of plastic on the world. The globe is split in two halves, partly showing the world map and representing the coronavirus strain. The hand has been made as the largest part in which we have left slits from where the roots of the installation emerge.
•
These appear to be leaking out from the hand. The grip of the hand ends on globe. The hand is also an abstract representation of a tree showing the irony by creating the natural element with the material that is an environmental concern.
ARCHITECTURAL PORTFOLIO (2018-2022)
INSTALLATION
65
MISCELLANEOUS
MDF PARTITION WALL
FURNITURE
ARCHITECTURAL PORTFOLIO (2018-2022)
TENSILE STRUCTURE
66
HOUSING SITE MODEL
GLASS WORK
ARCHITECTURAL PORTFOLIO (2018-2022)
PHOTOGRAPHY
67
RAJAT VERMA Email : rajatverma3690@gmail.com Contact : +919811309198