About the Author A diligent, organized, creative undergraduate architect engaged for a global society. My inclination towards accepting challenges made me interested to study architecture and acknowledge the power of this course as a medium of change in society. My design philosophy is to create harmony between nature, technology and art. Adept at being user- sensitive, conducting architectural research & software knowledge thereby producing efficient solutions, creative presentations and designs for the greater good.
REFERENCE 1. VIRENDRA KUMAR MALIK
2. ASHWANI KHER
3. AKSHAY GOYAL
DEAN: Sushant School Of Art and Architecture
Faculty: Sushant School Of Art and Architecture
Principal Architect: Architron Group
virendrakumarmalik@sushantuniversity.edu.in
aahkher@gmail.com
akshay@architrongroup.com
EDUCATION Sushant School of Art and Architecture Bachelors of Architecture Course Modules
Aug’18- Jun’23
• Architectural Drawing I Architectural Design I Fine Arts • History of Architecture I Research & Methodology I Dissertation • Building Services I Building Construction & Materials I Survey & Documentation I Structural Systems & Design I Materials, Techniques & Processes
SOFTWARE SKILLS
ARCHITECTURE COMPETENCE - Hand Drafting
Drafting
-
• AutoCAD
Physical Modelling
- 3D modelling
3D Modelling • Sketchup • Rhino
Loreto Convent School Intermediate and High School Highlights
Apr’04- Jun’17
• PCM + Economics
- Rendering
• Certified with Academic Excellence and All- Rounder student consecutively
- Presentation
• School Physics Topper
- Photography
Rendering • V-Ray • Lumion • Twin motion Layout and Vector Design • Adobe Photoshop
• Adobe InDesign • PowerPoint
ACADEMIC SCORES • B. Arch. : 2021 I 8 GPA • Class XII : 2018 I 93.3%
CERTIFICATIONS • Certified Software Course I Studio Layout I Sep’20 -
Sketch UP V-RAY Lumion Photoshop AutoCAD In DESIGN 3DS Max Rhino
VOLUNTEER EXPERIENCE Collaborated with MIRROR FOUNDATION for a social cause
• Class X : 2016 I 10 CGPA
WORK EXPERIENCE Architectural Intern AK & Associates
Dec’21- Feb’22
• Handled a residential project from the start to finish, understanding client demands and design proposal. • To prepare working drawings along with the team. • Regular visits to the construction site.
Off campus independent study Bhutan
Dec’21- Feb’22
• Got the opportunity to work on measured drawings, interviewed public on a settlement level. • Worked on understanding cultural identities and designing accordingly • Designed a community space on a site in Bhutan.
SOFT SKILLS • Creativity
CONTACT kohlimehar13@gmail.com 8130034639 linkedin.com/in/meharkohli
• Time-management • Self-motivation • Leadership • Adaptability • Problem Solving
RESEARCH • Towards a Contemporary Vernacular Architecture: A sustainable Approach • Play of Light and Shadow in our lives
01. CONTENT
4
02.
03.
SUSTAINABLE LIVING
WASPOW
Urban Design 2021
PRAVASI CO.LABOR.AID
Energy Innovation Centre 2020
Migrant Hub 2020
04. TRACTABLE KIOSK DESIGN Materials, Techniques & Processes 2020
05.
06.
07.
CONSTRUCTION DRAWING
RESIDENTIAL BUILDING
MISCELLANEOUS
- Airport Hangar - Warehouse - Tensile structure 2020-2022
Internship 2021-2022
- Dissertation - Photography & Artwork 2018-2022
01. CLIMATE RESILIENT CITY URBAN DESIGN STUDIO
Bajghera, Gurugram 6
“Sustainable To
8
living in an urban world”
establish a climate resilient space that is nature driven yet caters to a human
centric society
Evolution
of urban
fabric leading to high rise construction.
Development
along the
expressway
Sparse
and unorganised
growth
Low
rise housing around
abadi areas village
-
:
bajghera
oldest settlement
ISSUES IDENTIFIED Bajghera is a mid-sized village located 5.5 km distance from district main city Gurgaon.
its
Untreated
10
CLIMATE RESILIENT CITY
drain
Lack
of public realm
Poor
connectivity
Unplanned Dwellings Units
Disintegrated
built mass
Temporary and unsettled Ghetto Areas
Inadequate
public transport
systems
Absence
of a safe and secure surrounding
STRATEGIES
AIM 12
To
plan an urban area that is sensitive to ecological considerations by
provides a better community living experience.
CLIMATE RESILIENT CITY
adapting nature based solutions to meet climate and sustainability goals, while it also
PLOT AMALGAMATION
14
CLIMATE RESILIENT CITY
URBAN CHARACTER
LAND MANAGEMENT AND STAKEHOLDERS
SITE SELECTION The site demographics are such that it caters to quite contrasting socio-economic groups, thus catering to different water consumption and production. Presence of existing wetland makes it possible to align towards the vision. The public spaces that are necessary for a community are absent, so people are forced to make the nodes of the streets into hangout spaces. 16
- The redesigned urban village will be primarily connected by a landscaped walkway, new commercial blocks, central public spaces and eco roofs, not only bringing in tourists but also help in economic and social development of Bajghera. - Activating the ground floors of the street would result in more public participation and reduction in crime rates.
REDESIGNING URBAN VILLAGE
(BAJGHERA)
SITE PLAN
18
CLIMATE RESILIENT CITY
GREEN CORRIDOR PLAN
DRAINAGE PLAN
BUILDING HEIGHT PLAN
CIRCULATION PLAN
WETLAND IMPACT ZONE
PLANNING - 26 ACRES Strategy implementation: - BUILDING LEVEL: Stepped Roof: commercial district, Green eco roofs - STREET LEVEL: Non Motorized pathways : Boulevard Hybrid Motorized pathways: provision for pedestrians and cyclists - NEIGHBORHOOD LEVEL: Amalgamation of green network with blue strategy 20
EXPERIENTIALITY ALONG GREEN LOOP
22
STRATEGY IMPLEMENTATION PROCESS
02. WASPOW:
AN ENERGY INNOVATION CENTRE THAT ELIMINATES SMOG RESTORATIVE FUTURES
Pragati Thermal Power Plant, New Delhi 24
PROJECT BRIEF The
project works on revitalization of river yamuna by coversion
of waste to energy and helps in providing clean source of energy. apart from being an energy innovation centre, the project focuses on engagement of public through informative as well as recreational zones like audio visual room, walkway around the site, illuminated facade at night, light and sound informative show, Informal libraries
26
SITE ANALYSIS Located
on the edge of river yamuna, the
site has a strategically important location. our given plot, earlier pragati thermal power plant, required adaptive reuse of the four already existing chimneys.
SWOT ANALYSIS
ECOLOGICAL PROTOTYPE SMOG EATING BUILDING: The facade, a mixture of cement and titanium dioxide, captures nitrogen-oxide pollution and converts it into a harmless salt that easily rinses off the walls when it rains. A smog eating building consumes 40 percent less enegy; the building acts as an osmotic organism.
28
Secondary skin; Special tiles have air-scrubbing abilities; coated with titanium dioxide
Unique tile shape: allows sunlight to hit the tiles from multiple angles
INSIDE
OUTSIDE
EXTERNAL WALL SECTION
ITERATIONS OF SECONDARY SKIN
ERRATIC PATTERN
GEOMETRIC PATTERN
LINEAR PATTERN
-Sunlight hits from multiple angles -Irregular high-low( solar gain) -Formation of solids and voids -Altered solar gain
-Increased solar gain -Maximise surface area -Less voids: more solar gain
-Linear but undulated -Gradient: increased solar gain -Dynamic aesthetic facade
30
WASPOW : ENERGY INNOVATION CENTRE
ECOLOGICAL PROTOTYPE GREEN CHIMNEYS
OPPORTUNITIES
FUNCTIONALITY
PROGRAMMATIC PROTOTYPE
32
In order to understand the spatial organisation of spaces, their relationship on site and visual connect with each other was analysed. The work spaces acted as core of the project, thus located centrally. Building services were kept segregated from rest of the built. Research spaces were dedicated quiter areas, away from the road. And public spaces linked the project together Also, area calculations according to users and functions were calculated.
AREA DISTRIBUTION
CONTRIBUTION TO THE FORUM
FORM EXPLORATION
HYBRID FORMS
ENGULFING CONCAVE WELCOMING
34
WASPOW : ENERGY INNOVATION CENTRE
LEVELS DIRECTION CENTRAL AXIS
AXIS OVERPOWERING SLITS
ROOF AS FOCUS DYNAMIC GUIDING
SITE LEVEL PROGRAM MAPPING
SITE SECTION
FORM DEVELOPMENT
1. Existing built mass on site
2. Volume connecting the site towards river
36
WASPOW : ENERGY INNOVATION CENTRE
3. Creating central axisprimary path
NATURE OF SPACE
FUNCTION OF SPACES
SITE SECTION
4. Adding levels: creating dynamic light and shadow
5. Central buffer zone
6. Elevated built; better view towards the river
7. Addition of movement corridors to enhance circulation
HIGHLIGHTING FEATURES - NIGHT TIME INVOLVEMENT: Activities
like light and sound show involves
users during late hours
- GREEN CHIMNEYS: Using ways, etc.
the existing chimneys as green zones with cafe, walk-
- MOVEMENT CORRIDORS: They
play an important role in providing direction
throughout site towards the river
- INTERACTIVE ROOFS: Involves 38
public in circulation through market areas.
EXISTING CHIMNEY: GREEN RECREATIONAL AND INSTITUTIONAL SPACES
MOVEMENT CORRIDORS
INTERACTIVE ZONES- FLEA MARKET
03. PRAVASI CO.LABOR.AID A MIGRANT HUB THAT PROMOTES URBAN FARMING
Sikanderpur, Gurugram, Haryana
40
PROJECT BRIEF Gurgaon
has seen a large number of migrants coming from various states
including
Uttar Pradesh, Bihar, Madhya Pradesh,
etc. providing an
indication that better economic opportunity continues to be a major pull despite infrastructure constraint plaguing the city.
Our
project aims at serving as a mixed use migrant hub aiming at the
self sustenance through production of food, water and energy through hydroponics, urban rooftop farming and moisture/fog harvesting.
Thus MIGRANT TRANSIT TERMINAL which would help them to integrate in urban contexts. It would provide a temporary accommodation, training opportunities, informally planned retail shops to such migrants, a place to work and sell what they produce and a place for capacity building. trying to bring forth a
42
LOCATION: SIKANDERPUR METRO STATION, GURUGRAM, HARYANA
PRAVASI CO.LABOUR.AID is a hybrid building project situated at a prime location, Sikanderpur Metro Station, Gurugram. It revolves around a lot of different programs and functions but the highlighted program takes in account the needs and demands of the migrants.
44
SITE AREA
SITE STUDY
ECOLOGICAL BENEFITS
ECOLOGICAL PROTOTYPE URBAN ROOFTOP FARMING: With each cascading level, the green roof is not only able to absorb rainwater, but also slow down runoff, both for up to 20 times more than a normal concrete rooftop. Restoration of green spaces, source of clean organic food, access to water availability, sustainable agricultural practices.
46
FACADE AREA CALCULATIONS
VERTICAL FARMING
FOG HARVESTING PROTOTYPE
PROGRAMMATIC ANALYSIS
48
Migrant hub looks into certain functions like accomodation, well-being, providing job opportunities, healthcare etc. for the migrant population near Sikanderpur. Thus the vertical stacking was such that higher occupancy areas are located not just at the lower levels but also in intermediate and top floors, thus maintaining the dynamics. Retail markets are located on first 4 levels, whereas top floors are for urban rooftop farming and hydroponic units. ADJACENCY
MATRIX VERTICAL STACKING CONTRIBUTION TO THE FORUM
FORM EXPLORATION
HYBRID FORMS 50
1. Placement of built in
2. Splitting the built according
accordance with the
functionality:
site context
for the public
8. Glass panels added to the facade for
DAYLIGHT
For
the
7. Adding hydroponics
units on the built mass
ECOLOGICAL ASPEC
52
e migrants,
mass:
CT
4. Extruding
3. Carving the built with respect to
: for INCREASED INTERACTION
VIEWS
the base
FORM DEVELOPMENT
according to
6. Extruding balconies:
Bringing forth the idea of URBAN GREEN ZONES on various levels
7.
5. Bridging the two
towers: facilitating
CIRCULATION
SITE PLAN The site is located near Sikanderpur metro statio, making it strategically important. the site planning is such that a skywalk connects the site with a pedestrian network to the metro station. The site features retail stalls as landcaping elements which act as a uniting element for migrants and visitors.
54
facilitates urban rooftop
Minimized
heat on
farming due to direct sunlight
the facade facilities
on multiple roofs
hydroponic units
Ample
sunlight avail-
able during daytime
SOLAR ANALYSIS
STRUCTURAL ANALYSIS
PROGRAMMATIC ANALYSIS
PARKING PLAN LVL @ - 4600
GROUND FL
PLA
SECT
56
LOOR PLAN @+-0
ANS
TIONS
MEETING ROOM @ +38400 (12th Floor)
TRAINING FLOOR PLAN @ +38400 (12th Floor)
DESIGN FOR A GREATER GOOD - PRAVASI CO.LABOUR.AID is a project which brings forth A MIGRANT TRANSIT TERMINAL which would help them to integrate in urban context. It would provide a temporary accommodation, training opportunities, informally planned retail shops to such migrants, a place to work and sell what they produce and a place for capacity building. - The project contributes to the environment and the society by incorporating urban farming, through hydroponics system and also aims towards a sustainable building by incorporating fog/ moisture harvesting catchment. 58
- Including ways of urban vertical farming through installations of hydroponics units as per the solar analysis. - Presence of green terraced area as interactive zones.
ECOLOGICAL PROTOTYPE APPLICATION
RETAIL CENTRE: ENHANCING INTRACTION OF PUBLIC & MIGRANTS
SKYWALK: CONNECTING ADJACENT METRO STATION
04. TRACTABLE MINI-EXPO KIOSK DESIGNING
MATERIALS, TECHNIQUES & PROCESSES
MATERIAL EXPLORATION: GLASS, METAL,PLASTIC
60
PROJECT BRIEF designing and executing a kiosk using metal, plastic and glass.
This versatility can be efficiently displayed by the OPTIMUM SPACE UTILIZATION through a retractable metal frame which allows the client to choose any desired size of the kiosk ranging from 2.5m*2.5m to 5.0m*2.5m. Its abstract design allows it to please a very wide range of aesthetic choices.
62
Storage units hung using PP THREAD ACRYLIC SHEET (10mm) Rs. 135/kg
ABS COLOURED SHEET
ACRYLIC SHEET (10mm) SCISSOR TECHNIQUE FROSTED COLOURED GLASS (4mm) Rs. 40-50/sq.ft.
STAINLESS STEEL SHEETS (3mm) Rs. 150-230 /kg
PLANS, SECTIO
ACRYLIC SHEETS
1624.5
2365.5 2163.0
624.5
863.0
124.5
FRONT ELEVATION
BACK ELEVATION
DETAIL C B 200.0 200.0
DETAIL A
1497.6
200.0 1286.5
A'
A 2761.7
ABS COLOURED SHEETS GLASS- LOOKING MIRROR (5MM)
SECTION B B'
SECTION A A' PLAN 2615.2
B' 124.5 327.0
INLESS STEEL SHEETS
ALLUMINIUM PORTAL FRAME
2490.0 2338.0 49.1
2365.5 488.3 351.9
ACRYLC FIBER SHEET (10MM)
1760.7
ALLUMINIUM PORTAL FRAME
LEFT ELEVATION
RIGHT ELEVATION
MINIMISED FLOOR PLATE
972.3
STAINLESS STAINLESS STEEL SHEETS STEEL SHEETS
DETAILS TAIL D
20.0
METAL SHEET
SLIDING WHEEL
480.0
DETAIL A
CLOSED KIOSK 20.0
ALLUMINIUM 480.0 ALLUMINIUM PORTAL FRAME PORTAL FRAME
45.0 5.0 110.4
15.0 124.5 40.0
Ø40.0
RETRACTABLE BASE
FIXED BASE
DETAIL D'
64
ALUMINIUM FRAMING BASE
675.0
675.0
675.0
37.5
4
49.1 488.3
488.3
351.9
351.9
675.0
37.5
1760.7
1760.7
ALLUMINIUM ALLUMINIUM STAINLESS PORTAL FRAME PORTAL FRAME STEEL SHEETS
SUBJECT - MTP 972.3
TITLE- DETAILS
DETAIL D DETAIL D
972.3
DETAIL C
ONS, ELEVATIONS 200.0
DETAIL C
200.0
124.5
221.3
221.3
222.5
2299.0
BACK ELEVATION
124.5
FRONT ELEVATION DETAIL C
2200.0 530.0
145.6
46.5
1660.0
1285.9
1130.9
2845.6
348.6
100.0 200.0 1875.7
1875.7 1364.4
STAINLESS944.4 STEEL SHEETS 191.4 STAINLESS STEEL SHEETS 20.0 ALLUMINIUM 480.0 PORTAL FRAME ALLUMINIUM 480.0 STAINLESS STEEL SHEETS PORTAL FRAME 20.0
20.0
HOLLOW ALUMINIUM STRIPS (40MM)
480.0
49.1
PLAN
675.0
675.0
124.5
488.3
351.9
49.1 1760.7
37.5
ALLUMINIUM PORTAL FRAME
ACRYL FIBER
488.3 351.9
37.5
ALLUMINIUM PORTAL FRAME
675.0
675.0
49.1
351.9
37.5
121.2
ACRYLIC FIBER SHEET
488.3
4657.2 ALLUMINIUM PORTAL FRAME
675.0
675.0
1760.7
ACRYLC FIBER SHEET
1760.7
ALLUMINIUM PORTAL FRAME
972.3 972.3
DETAIL D
DETAIL D
834.6
Ø40.0
45.0 5.0 110.4
45.0 5.0 110.4 Ø40.0
RETRACTABLE BASE EXTRACTED FLOOR PLATE
OPEN KIOSK
967.1
49.1 691.8
488.3
950.9
351.9
691.8 2163.0 950.9 675.0
1751.8
480.0
821.4
383.0 554.6 522.9
967.1
ACRYLC FIBER SHEET (10MM)
STAINLESS STEEL SHEETS 2701.5
20.0
967.1 1948.1 ALLUMINIUM 1795.0 1712.0 PORTAL FRAME 1111.8 691.8
2701.5 1751.8
950.9 2110.9 1155.9 2016.9
37.5
1798.3 1077.0 1786.5 1342.0 1317.1 1776.1 1509.7 862.8
878.2
1384.6 1077.0
140.5
3460.7 1009.8 1079.4
ALLUMINIUM 1463.7PORTAL FRAME 336.5 140.5
140.5 1009.8 1079.4
1509.7
ALUMINIUM FRAMING BASE
S
DETAIL D'
STAINL STEEL
DETAIL D' 49.1
1111.8 1187.5
LOOKING MIRROR(5MM) 336.5
LOOKING MIRROR(5MM) 1077.0
488.3 351.9
LOOKING MIRROR(5MM)
ACRYLC FIBER SHEET (10MM)
1760.7
878.2
1509.7 1463.7
1362.3
RIGHT ELEVATION
1155.9
1948.1 1795.0 1712.0
2110.9 2016.9
2110.9 2016.9 878.2
3460.7
1362.3
1751.8
821.4
383.0
1009.81111.8 2163.01079.4 1187.5 336.5
383.0 1798.3 554.6 522.9 1786.5 1342.0 1317.1 1776.1
1798.3 1786.5 1342.0 1317.1 1776.1
1187.5
DETAIL A
15.0 124.5 40.0
2701.5
554.6 522.9
1948.1 1795.0 3460.7 1712.0
675.0 821.4
2163.0
1155.9
DETAIL A
METAL SHEET
ALUMINIUM DETAIL A15.0 BASE METAL SHEET 124.5 FRAMING 40.0 FIXED BASE RETRACTABLE BASE FIXED BASE 15.0 124.5 40.0 ALUMINIUM DETAIL D' FRAMING BASE FIXED BASE
SLIDING WHEEL RETRACTABLE BASEØ40.0
LEFT ELEVATION
972.3
SLIDING WHEEL
45.0 5.0 110.4
44.6 116.2
ACRYLC FIBER SHEET (10MM)
METAL SHEET
SLIDING WHEEL
DETAIL D
7
972.3
1384.6
862.8
SLIDING WHEEL
862.8
SLIDING WHEEL
1463.7 1362.3
DETAIL A
972.3
1384.6
DETAIL C DETAIL D
SLIDING WHEEL
DETAIL C
DETAIL B
DETAIL
05. Construction Drawings - AIRPORT HANGAR - WAREHOUSE DESIGN - TENSILE STRUCTURE
designing and working on construction drawings
Executing Building construction details like the the types of windows, doors, joinery details and various Indian standards.
ISOMETRIC VIEW
66
Roof- DECKING SHEET I SECTION COLUMN
STEEL FRAMEWORK GIRDER
FOUNDATION
MEZZANINE FRAMEWORK
STEEL STAIRCASE
TOP VIEW- MEZZANINE FLOOR INTERIOR- MEZZANINE FLOOR
AIRPORT HANGAR
WAREHOUSE DESIGN
GROUND FLOOR PLAN SECTION
68
WAREHOUSE DESIGN
FOUNDATION PLAN DETAILS
STAIRCASE & DETAILS 70
WAREHOUSE DESIGN
HOWE TRUSS
ROOF PLAN & DETAILS
MEMBER CABLE ARCH PLINTH PRO COLUMN-C5
TENSILE PAVILION STRUCTURE 1
2
3
GROUND LVL 00
4
5
6
COLUMN-C7
7
TRUSS ARCH HE
1250
2780
10000
10250
10000
10250
2780
1250 SUSPENSION CABLE RIDGE CABLES
1250
PLINTH PROTECTION 1000MM WIDE
WIN
COLUMN 600X500MM
DETAIL C7
A1 D5
B D5
DETAIL 1-
MAST(130MM)
3000
3350 3000
A
PIN
ANCHOR BOLTS
B
E D5
DETAIL 2- C H D5
G D5
PLINTH LVL +150
NU
CABLE
12555
DETAIL 3-
840
ARCH-1
DETAIL C7
1400 1100 800 900
3120
3120
900
C
3800
A D5
COLUMN 500X1200MM
5
DETAIL C5
ARCH-2
12555
DETAIL C5
F D5
D 3350
CABLE
E PLINTH PROTECTION
PROJECT BRIEF designing an arched structure as an open plan which gives a sense of solemnity. it can be used as a hall area for gatherings, exhibitions, etc.
Arch supported structures utilize curved members placed parallel to each other for their main support, obviating the need for additional interior supports. It caters to the functions of providing sunshade, water-proof and ultraviolet ray proof structure. Membrane fabrication plays an important role in the tensile structure, thus PTFE has been used also provides excellent electrical insulation, dielectric strength and is extremely weatherable. 72
TENSILE PAVILLION
6
1:100
1
2
3
4
5
6
7
D D5
700 TENSILE CLOTH
450
TRUSS
5500
G TENSILE CLOTH
4000
D5
4000
F D5
TENSILE CABLE
E
3000
A1 D5
10000
1100
1100
1100
PLINTH PROTECTION
3000
3000
D5 A1 D5
TILE FLOORING
10000
10000
10000
3000
ELEVATION A
A
B
C
D
E
TRUSS
2500
2500
TENSILE WIRE TENSILE CLOTH TENSILE CLOTH
DATE:R NO :DETAILS: REVISIONS
G
GOOD FOR CONST
D5
PRO ECT NA E:
6000
F TENSILE CLOTH
TENSILE PAVIL
CLIENT:
1455
2100
1455
2100
D5
200 TH. RCC
DRAWIN
PLINTH PROTECTION
15800
15800
TITLE:
ELEVATIONS DESI NED BY:
DW
DRAWN BY:
DATE:
SCALE: 1:100
ARCHITECT:
BHAVIKA KAS IVYA S IVAS KAVYA SHA EHA KOHLI S ISHTI A A ITHIK A
ELEVATION B
1
2
3
4
5
6
7
D
150
D5
700 300
TENSILE CLOTH
1400
450
TRUSS
1:3:6 PCC LAID TO SLOPE
4000
D5
D5
BRICK TOE WALL
TENSILE CABLE
4000
TENSILE CLOTH
5500
G F
RCC FOOTING
E
10000
150 300
RCC FOOTING
3000
1400
SECTION A
A1 D5
10000
1100
1100
1100
1:3:6 PCC LAID TO SLOPE
BRICK TOE WALL
3000
3000
D5 A1 D5
N
TILE FLOORING
10000
10000
3000
JOINERY DETAILS END CAP
CATENARY CABLE
MAST(130MM) PIN
FABRIC PTFE FA
MAST
CATENA BOLT : 3
ANCHOR BOLTS
BASE PLATE FABRIC MEMBRANE
FABRIC TO ARCH CATENARY CABLE CONNECTION WITH BOLTING SYSTEM
TIE BACK CABLE
DETAIL D
FOUNDATION TO CABLE
CABLE TO CABLE
TRUSS ARCH HEIGHT (500MM)
ANCHORAGING (COLUMN TO BASE)
DETAIL A1
DETAIL A
UPPER PULLEYS
ALUMINIUM PIECE
FABRIC PTFE FA
DETAIL B
FABRIC CLAMP
LOWER PULLEY
CORNER FABRIC
CATENA BOLT : 3
20MM PLATE
SUSPENSION CABLE
265MM
LINEAR FABRIC
12MM PLATE BOTTOM CLAMP
RIDGE CABLES
CHANNEL SECTION
SPACER LENGTH
20MM
CLAMP BAR
50MM
U-BOLT C/W NUTS PIN AND ANCHOR BASE PLATE(220X220X12MM) CABLE CONNECTED WITH M20 FOUNDATION BOLTS WITH 3MM THICKNESS)
WIND CABLES FABRIC TOP SIDE (1.5MM THICKNESS)
PULLEY BLOCK SUSPENSION SYSTEM
EDGE CABLE CROSS SECTION
OPEN SOCKET AND TURNTABLE
(SCALE - 1:10)
SEAM
(SCALE - 1:5)
FRONT VIEW (SCALE - 1:5)
ANCHOR BOLTS FABRIC TOP SIDE (1.5MM THICKNESS) SEAM TRAP(TYPICALLY 600MM) CLAMP BAR(2 NOS) CABLE
FABRIC TO CABLE
FABRIC TO FABRIC
GASKET(2 NOS)
FABRIC TO ARCH CHORD EDGE
(SCALE - 1:10)
DETAIL D
DETAIL C
DETAIL F
DETAIL E
DETAIL G
BOLT NUT(2 NOS) FLATWASHER AND LOCKWASHER
1:5
DETAIL H 6MM PTFE FABRIC
PTFE MEMBRAME 6MM WIDTH
M20 BOLTS WELDED 3MM THICKNESS
NUT AND BOLT CONNECTION
1:20
CATENARY CABLE 20MM
THREE WAY CORNER PLATE SYSTEM WITH 3.20MM CATENARY CABLE
74
TENSILE PAVILLION
CATENARY CABLE INSIDE PTFE MEMBRANE
EDGE CABLE CLAMPED WITH NUT AND BOLTS WELDED
20MM CATENARY CABLE
THREE WAY CORNER PLATE WITH EDGE CABLE
CATENARY CABLE 20MM
EDGE CATENARY CABLE WITH CLAMPING SYSTEM
FABRIC TO ARCH DETAIL D
FABRIC US PTFE FABR
TRUSS ARCH HEIGHT (500MM) UPPER PULLEYS
ALUMINIUM PIECE
FABRIC CLAMP
LOWER PULLEY
CORNER FABRIC
CATENARY BOLT : 3mm
20MM PLATE
SUSPENSION CABLE
265MM
LINEAR FABRIC
12MM PLATE BOTTOM CLAMP
RIDGE CABLES
CHANNEL SECTION
SPACER LENGTH
20MM
CLAMP BAR
50MM
U-BOLT C/W NUTS
WIND CABLES
CABLE
PULLEY BLOCK SUSPENSION SYSTEM
EDGE CABLE CROSS SECTION
(SCALE - 1:10)
FRONT VIEW
(SCALE - 1:5)
(SCALE - 1:5)
TRAP(TYPICALLY 600MM) CLAMP BAR(2 NOS) CABLE
FABRIC TO CABLE
GASKET(2 NOS)
(SCALE - 1:10)
CHORD EDGE
BOLT NUT(2 NOS) FLATWASHER AND LOCKWASHER
HANDMADE MODEL DETAIL G
DETAIL F
DETAIL E
DETAIL H 6MM PTFE FABRIC
PTFE MEMBRAME 6MM WIDTH
M20 BOLTS WELDED 3MM THICKNESS
NUT AND BOLT CONNECTION
1:20
CATENARY CABLE 20MM
THREE WAY CORNER PLATE SYSTEM WITH 3.20MM CATENARY CABLE
ELEVATION
EDGE CABLE CLAMPED WITH NUT AND BOLTS WELDED
CATENARY CABLE INSIDE PTFE MEMBRANE
20MM CATENARY CABLE
ISOMETRIC VIEW
THREE WAY CORNER PLATE WITH EDGE CABLE
CATENARY CABLE 20MM
EDGE CATENARY CABLE WITH CLAMPING SYSTEM
ISOMETRIC VIEW
ELEVATION
FINAL MODEL ITERATION 2
Bhavika Kashyap Mehar Kohli Srishti Divya Kavya Rithik Garg
06. Residential Building BUILDERS APPARTMENT 3BHK
Hari nagar, New Delhi 76
A
B
C
D
E
F
1 BEDROOM
BEDROOM
3450X4950
3450X4950
TOILET
5400X3800
CONSOLE TABLE
2
BEDROOM
TOILET
1450X3450
5400X3800
1450X3450
SHAFT
6'-3"X3'-6"
CONSOLE TABLE
BEDROOM
TOILET
TOILET
3100X1600
3100X1600
LIFT 2200X1600
FRIDGE
12500
FRIDGE
DINING AREA
3
DINING AREA
KITCHEN
KITCHEN
3100"X2800
3100"X2800
STAIRCASE
Created in Free Online PDF to DWG Converter by CADSoftTools http://www.cadsofttools.com/pdf-to-dwg-online/
2200X4700 1000 WIDE BALCONY
UP
6150
LIVING ROOM
6150
BEDROOM
BEDROOM
4700X3800
4700X3800
4150
4150
4 1000 WIDE BALCONY
1000 WIDE BALCONY
21000
TYPICAL FLOOR PLAN
PROJECT BRIEF The plot is 3 sided open, located Carpet area: 115 Sq. m. No. of dwelling units : 8 Floors : G+3 78
1000 WIDE BALCONY
LIVING ROOM
on the main road on one edge.
LIVING & DINING AREA
CLUSTER 3D PLAN
07. Miscellaneous work - DISSERTATION: TOWARDS A CONTEMPORARY VRNACULAR ARCHITECTURE - PHOTOGRAPHY & ARTWORK
80
KEYWORDS: •Sustainability •Vernacularism
•Modern Architect •Homogenization
•Climatic Element
What will be the new definition of the architecture that bridges the gulf between the contemporary and local?
VERNACULAR ARCHITECTURE CONTEMPORARY TIMES CONTEMPORARY VERNACULAR
MOHALLA Cluster of 50-100 house extremely internalized, formality, privacy an
FUTURE TRENDS
"As the implication and ill effects of human activity on the planet continued to increase the summit introduced principles required for sustainable development. It is an underlying concept for development in the history of mankind. Man has created environment which is in direct response to : climate , available material and resources and the need and function of the society" -(Tipnis, 2012)
ABSTRACT
METHODOLOGY
RESEARCH QUESTIONS
In accordance to the increasing pressure brought by recent global concerns of the environmental conditions, architects are adopting regionalism and traditional structure knowledge, stating that these constructions cater to effective use of energy. and are highly sustainable.
❑
What has been the role of vernacular in the past and its impact on the current times?
❑
Does it hold relevance in the present era of homogenization?
HAVELI, RA Courtyard is the nucleus o changes with the time of the year; responding to cl as the cultural need
MOHALLA,
AIM
This research paper intends to draw parallels between the relevant concepts of vernacular architecture that may be applicable In the current context to build a sustainable building using materials and technology of the 21st century suited for the climate and living conditions of the region.
YES NO MAYBE
VERNACULAR
MODERN
COMPARITIVE ANALYSIS
➢ ➢ • • • • • •
Materials - local - Context - Climate – Sustainability Techniques - Knowledge - Experience - History VENTILATION OF ROOF VEGETATION CROSS VENTILATION OVERHANGS BUILDING MATERIAL SPATIAL LAYOUT
Inference: Lack of compatibility in your surroundings in visual connect between existing and new architecture
GHAT CO Moving fluvial environmen space that can be used activities throughout the stress on th
Contemporary v geographically as by learning and and combini
ture
ts
AJASTHAN of the house and its use f the day and season of limatic conditions as well ds of communities.
NATURE, PLACE, TIME, ARCHITECTONICS, AND IDENTITY
A, SURAT es form a Mohalla, kept , which emphasizes on nd introvert people.
SURAT
ONCEPT nt is reclaimed as public intensively for leisure e dry season, reducing he ghats.
CONCLUSION vernacular eventually stimulates a real sense of place; i.e., s well as culturally determined space. The paper concludes appreciating the 5 major factors of vernacular architecture ing them with the contemporary trends and technology.
RESEARCH SCOPE : This study work aims to draw similarities between significant vernacular architecture elements that may be used in the contemporary environment to construct a sustainable building utilising 21st century materials and technology that is suitable to the region’s climate and living conditions. It will address how the future of sustainable development is dependent on the industrial process combining vernacular design ideas with widely available massproduced materials and speedy building technology. This article examines how vernacular existed in its purest form, what the modernist movement and, by extension, globalisation brought to the table, and how some prominent architects are combining these trends to create amazing designs, thus extending vernacular bounds.
DISSERTATION
ARTWORK & PHOTO
84
OGRAPHY
THANKYOU FOR YOUR TIME AND CONSIDERATION