ARCHITECTURE
PORTFOLIO
KANISHKA PORWAL
UNDERGRADUATE
‘The story a space tells is the most important.’
EDUCA
B SU 20 (C
SE M 20 KANISHKA PORWAL
SKILLS
CONTACT : + 91 9772232522
kanishkaporwal5@gmail.com
SOCIAL : Instagram @adottedday @kanishkaporwal
DIGITAL
ACKNO
‘Fea Ligh
ATION
BACHELOR OF ARCHITECTURE USHANT SCHOOL OF ART & ARCHITECTURE, GURGAON 016 - 2021 Currently in 5th year)
ENIOR SECONDARY MODERN SCHOOL, KOTA (RAJ.) 016
PRESENTATION
STORY BOARDING
TEAM WORK
COMMUNICATION
CREATIVE IDEAS
WRITING
L KNOWLEDGE
OWLEDGEMENT
asibility Report - Shantipath-Pragati Maidan Light Rail’ ht Rail Corridor Design Proposal
DIAGRAMMING
01 THE FLEX
Mixed-Use Development Nehru Place, New Delhi 01 - 03
03 THE URBAN DESIGN Urban Planning Saket, New Delhi 07 - 11
05 LIGHT RAIL CORRIDOR
Feasibillity Report and Design Proposal Route : Shantipath-Pragati Maidan 14
07 DISSERTATION
Accessibiliity Design for a Disabled Person in a Wheelchair 18
09 MONASTERY
Sanchi, Madhya Pradesh 20 - 21
02 THE ALTER HOMES Housing Project Sector 29, Gurgaon Haryana 04 - 06
04 THESIS
London (UK) 12 - 13
06 THE MUSEUM
Adaptive Mixed-Use Development Mandi House, New Delhi 15 - 17
08 TECHNICAL DRAWINGS
Working drawings of the Museum 19
10 ARTWORKS 22
THE FLEX
The One With
Mixed-Use Project Nehru Place, New Delhi Year 2019 Site Area : 23000 sq. m. Studio VI Guide : Shikka Duggar, Amit Gupta
In a dense context on site like Nehru Place we aim to create
a
realtionship
between
the
‘Built’
and
‘Tangible/In-Tangible Parameters’ through a value system which gives importance to the building services in the architectural construct. Considering the Building Services - Vertical Circulation and Natural Lighting as the main design concept of the architectural project, a mied use retail development is intervened. Services are incorporated in glass tubular
construct
which
creates
a
connection
between the outside and the inside, at the same time acting as the structural support system for the structure
Active Edges Form Iteration with respect to circular tube
Site Entry & Exit
Vehicular Movement
Pedestrian Movement
Silent Zone
Noise Zone
Program on Site Retail (Shopping Area, Restaraunt)
Retail
+
X-Factor (Gaming Arcade, Gallery) Restaraunt
Retail Shooping Area X-Factor
Gaming Aracde & Gallery
Services Stratergy Building Services - Exposed - Vertical Circulation The services are placed in a circular tube which is also acting as a support system for the structure.
- Natural Lighting
Sunpath on Site
Sections
Circular tube form iteration and light dispersion
Sunlight reecting from the glass surface of the tube
Air circulation from the ventilation tube
CORE 1
Core consists of STAIRCASE & LIFT SHAFT
CORE 2
Core consists of STAI
Serves as the major core in the building.
Consisting of stairacse. The
Consisting of stairacse and lift shaft with
tubes which act as a suppo
two openings in the core. The core also has
system for the structure. Gl
tubes which act as a supporting system
as reective surface for natu
for the structure. Glass acts as reective
to come in, which also redu
surface for natural light to come in, which
energy and electricity cons
also reduces the energy and electricity
in the buiding.
consumption in the buiding.
IRCASE
CORE 3
CORE 4
Core consists of LIFT SHAFT
Core consists of Tubes at an angle
e core has
Consisting of lift shafts. The
The core provides
orting
core has tubes which act as
natural lighting.
lass acts
a supporting system for the
Glass material helps
ural light
structure. Glass acts as
in reflecting the
uces the
reflective surface for natural
natural light on
sumption
light to come in, which also
each floors. Tubes
reduces the energy and
in the structure
electricity consumption
are at an angle
in the buiding.
to help in relfecting the natural light.
THE ONE WITH
ALTER HOMES
Housing Project Sector 29, Gurugram Year 2019 Site Area : 1,25,000 sq. m. Studio VII Guide : Amardeep Singh
In a rapidly moving and changing times Alter Homes is a solution to modern housing. As we grow and settle with work in one area, our personal requirements grow which needs more space. Alter home provides the client with an opportunity to expand their space internally as well as externally. With moving walls and other parts which can be organised as per requirement and expansion units which can be plugged in externally for future needs. A 3 Bhk can be converted into 2+1 Bhk or 4 Bhk with 1 Bhk plugged in as expansion unit externally.
Unit Plan Iterations One Bhk
K1100
Public & Neighbourhood Edge
Nodes
Two Bhk
K1100 K1100
Entry/Exit K1100
K1100
K1100
Direction of Shadow/Sun
K1100
K1100
Three Bhk
K1100 K1100
K1100
Four Bhk Private/Public Zone
K1100
K1100 K1100
K1100 K1100 K1100
K1100
K1100
K1100
K1100
Cluster Plan
With Adaptive units which can be added later on Tower A with Adaptive units
3 BHK
2 BHK
3 BHK
Units can be broken down internally as well as externally adaptive units can be plugged in for future need
3 BHK
2 BHK
Tower B with Adaptive units
3 BHK 2 BHK
Unit Formation
2 BHK
2 Bhk = 1+1 Bhk 3 Bhk = 1+2 Bhk 1+1+1 Bhk 4 Bhk = 1+3 Bhk 2+2 Bhk 3 BHK 3 BHK
3 BHK
Adaptive units which can be added in the future as per need
The combination between the units whether 2bhk or 1 bhk is very unique and creates less disturbance
VIEW 1
Rendere
VIEW 3
Green Space surrounded by the housing towers.
Surface Parking, Driveway and Sidewalk View
VIEW 2
ed Views
VIEW 4
Parking and Sidewalk View
Basketball Court and Tennis Court View
THE ONE WITH
URBAN DESIGN
Park Recreation
Urban Design Project Saket, New Delhi Year 2020 Studio VIII Guide : Manik Aggarwal, Yusuf Arsiwala, Gaurav Sanan, Sagar Gupta
Saket is a premium marketplace and a national landmark situated in New Delhi. The area comprises of residential, hig-end retail, ofďŹ ce and commercial spaces. The aim of the studio deign was to understand and study the rich urban context in the region. Determine the issues faced by people and
Parking Infrastructure
develop startegies for the betterment of the urban fabric. The studio was divided into different stagesReading the Site Formulation of Urban Strategies Design Proposals for those strategies The 3 strategies tackled here areLack of Walking Infrastructure Lack of Park Infrastructure Poor condition of Communal Space
Walking Infrastructure
URBAN ST
WALKING INFRASTR CROSSING
ARTERIA
Arterial to Sub-Arterial Road
ROWPedestrian sidew Kerb - 20 NMV Lane Multi-Functional Median - 1 Vehicular L
Press Enclave Marg To Basant Kaur Marg
Press Enclave Marg
Basant Kaur Marg
Ramp (1:10 Slope)
Table top treatment for NMT vehicles. Reduces the speed of the vehicles and maintains safety
Kerb Ramp for people with disabilities
Pedestrian Sidewalk
Pedestrian Crossing (LVL. +150 MM)
MultiFunctional Zone
Eco Media
Arterial to Sub-Arterial Road/Alley Press Enclave Marg To Pramod Mahajan Marg
LVL. + 150 MM. LVL. + 100 MM. LVL. + 00 MM. Ramp (1:10 slope) for the pedestrian sidewalk and NMT Lane
LVL. + 00 MM.
Press Enclave Marg
Typica
Pramod Mahajan Marg
TRATEGY 1
RUCTURE PROPOSAL
AL ROAD
CROSSING Arterial to Local Street
- 27m walk - 2000 mm 00 mm - 2500 mm Zone- 2500 mm 1000 mm Lane- 7500
o an
Press Enclave Marg to Badi Masjid Marg
Badi Masjid Marg Pedestrian Crossing
Press Enclave Marg
Ramp (1:10 Slope)
Shared Non-Motorized Vehicular Vehicle Lane Carriageway
Table top treatment for NMT vehicles. Reduces the speed of the vehicles and maintains safety
Kerb Ramp for people with disabilities
Arterial to Collector Road Press Enclave Marg To Pramod Mahajan Marg
al Plan Press Enclave Marg
Service Lane
Mandi Marg
URBAN ST
WALKING INFRASTR MULTI-FUNCTIONAL ZONE
ARTERIA
ROWPedestrian sidew Kerb - 20 NMV Lane Multi-Functional Median - 1 Vehicular L
Tree Planting
Tree canopies should not obstruct the lighting for users.
In Commercial areas where continuous tree planting strip is not necessary, which allows flexibility and space for pedestrian movement.
Pedestrian Sidewalk
MultiFunctional Zone
Eco Media
Stormwater Management : Bio-Retention Cell Bio-Retention cell helps in stormwater management and ground recharge. These can be located in the median or the multi-functional zone after a distance. LVL. + 150 MM. LVL. + 100 MM. LVL. + 00 MM. Multi-Functional Zone
LVL. + 00 MM.
2% Slope
2% Slope
Shared Vehicular Lane
Bio-Retention Soil Bed helps with infiltration of the water
Cuts in the Curb to let the strormwater in the cell
Soil Subgrade Underdrain connected with the overflow catch basin in the cell
Typica
TRATEGY 1
RUCTURE PROPOSAL
AL ROAD
- 27m walk - 2000 mm 00 mm - 2500 mm Zone- 2500 mm 1000 mm Lane- 7500
o an
MULTI-FUNCTIONAL ZONE Stormwater Management : Tree Box Tree box can be used in commercial spaces where continuous tree planting is not necessary and allows more flexibility with the movement
Multi-Functional Zone
Opening through which the running stormwater enters the drain beneath
Concrete Tree Box
Kerb
Gravel Bed
Shared Non-Motorized Vehicular Vehicle Lane Carriageway
al Plan
Kerb Overflow inlet which connects to the underdrain Soil bed which infiltrates the water
Stormwater Drain
Underdrain
Parklet Making the walking infrastructure more accessible. Edges have local market and NMV’s which need space to be parked safely. These parklets can be accomodated in the Multi-Functional Zone making the easily accessible by the users.
Frontage Zone Pedestrian Sidewalk Non-Motorized Vehicle Track Multi-Functional Zone Bicycle Parklet Auto-Rickshaw Parlet Shared Vehicular Lane
Multi-Functional Zone
URBAN ST
WALKING INFRASTR SUB-ARTERIAL ROAD
LOCAL S
Road Ratio
Road Rationalisation
Pedestrian Sidewalk
MultiFunctional Zone
Eco Median
Shared Non-Motorized Vehicular Vehicle Lane Carriageway
Pedestrian Sidewalk
Shar Vehic Carriag
LVL. + 100 MM. LVL. + 00 MM. LVL. + 00 MM.
Cros
Crossing Arterial to Local Street Road Basant Kaur Marg to Rashid Marg Basant Kaur Marg
Kerb Ramp for people Table top Rashid treatment Marg with disabilities for NMT vehicles.
Arterial Road to Alley Basant Kaur Marg to Alley Basant Kaur Marg
Pedestrian Crossing
Pedestrian Crossing
Ramp for accessibility
Local street Geetanjali Malviya Nagar Road to Malviya Nagar Road Geetanjali Malviya Nagar Road
Alley
Table top Alley treatment for NMT vehicles.
Kerb Ramp for people with disabilities
Pedestrian Crossing
TRATEGY 2
RUCTURE PROPOSAL
STREET
ALLEY
onalisation
Road Rationalisation
red Pedestrian cular Sidewalk geway
Shared Lane (Pedestrian and Non-Motorised Vehicles)
ssing In Khirki village the width of the road is very small so it would be difďŹ cult to create a separate pedestrian sidewalk. Local street to Local street Malviya Nagar Road to Captain Hitesh Mehta Road Malviya Nagar Road
Captain Hitesh Mehta Road
Kerb Ramp for people with Pedestrian disabilities Crossing
So throughout the alley table top treatment has been provided so that if there are any vehicles there speed is reduced and its much more safer for pedestrians.
URBAN STRATEGY 2 PARKING INFRASTRUCTURE PROPOSAL
1
Plan Proposed Site Area - 2500 sq. m.
Vehicular Circulation
Proposed Function - Green Infused Surface Parking
Pedestrian Circulation 1 - Entry Point 2 - Exit Point
Parking Slot - 6 m X 2.5 m
Parking
Road
Parking
Road
Green
Parking
Green
Parking
Parking
Road
Green
Section Rendered Views
Solar Array
Parking Structures Green Belts
Circulation
10 %
40 %
15 %
35 %
Parking
Parking
Road
URBAN STRATEGY 3 PARK RECREATION PROPOSAL
Central Plaza
Surface Parking
Childrens Park
Surface Parking
Plan
Recreation and Activity Areas
Areial View of The Plaza
Central Plaza
Surface Area Parking
Surface Parking Around the Plaza
Understa
Social and Cultural Inuences
THE ONE WITH
THESIS
(ON-GOING)
Underlying Factors
Identity and Personality
Situation
Year 2020 Location : London, United Kingdom Studio IX Guide : Sagar Gupta, Himanshu Sanghani
Will i fore
Loneliness is one of the most rapidly growing epidemic over the world. Among many other
Loneliness in
countries United Kingdom stands on top of all of
9 1
them when it comes to Loneliness and Social Isolation. People spend most of their time in their homes and during the pandemic we have been socially as
In elder age grooup it varies from 28-63%
well as physiically isolated in our houses for almost a year now. Thus, our residences have become the most valuable architecture we are surrounded
40% aged from 16-24 years feel lonely 29% aged from 65-74 years feel lonely
with in todays time. Our homes have the most impact on us from our mental well being to our physical needs. Therefore, the intent of the thesis is to focus on the
Appoited the ďŹ rst Minister of Loneliness in January 2018
issue of Loneliness in London, studying and researching that gap in Residential Architecture and to provide with analysis/guidelines as to how this issue could be resolved architecturally.
During Pandemic
23
%
of people in urban areas
12
%
of people in suburban areas
14
%
of people in rural areas always or often feel lonely
RESIDENTIAL REDESIGN IN LONDON : PREMISE LONELINESS ARCHITECTURAL THESIS
anding Loneliness
Loneliness in During the Pandemic
Moving to a new place
Trigger Events
Understanding Loneliness
it last ever?
Isolation was no more voluntary.
Divorce
Everybody has to stay in their homes
People experiencing Loneliness lost their social support which helped them in coping up.
Feeling of Loneliness emerged in more people due to loss of social connections.
Losing a loved one
Loneliness in the World Sweden/ I Personal Experience of Loneliness
Is it something to do with me?
United Kingdom/ II Can i control it?
Japan/ III
n the United Kingdom
9 Million people suffer from it. 14% of the population
2 3
rd
People felt lonely even when surrounded by others.
+ Lack of connected community
Lack of open spaces
Before the Pandemic
1
in
41% of UK adults report feeling lonelier since lockdown
31% of UK adults often feel alone as though they have no one to turn to.
Source: Immigroup
TOP 3 LONLIEST COUNTIRES IN THE WORLD
5
Loneliness in London
people reported feeling lonely
37% of UK adults agree their neighbours are like strangers to them.
33% of UK adults haven’t had a meaningful conversation with someone within the last week.
More than half the Londoners feel lonely
The healthcare cost of treating loneliness is ÂŁ6,000 per person over 10 years. Social integration by the Mayor of London has 3 main pillars*Relationship *Participation *Tachling Barriers Stronger Communities Fundssupporting the local initiatives.
SITE ZONE : THE ROYAL BOROUGH OF KE
From here we started looking at diffe Therefore, we got different site for diffe This helped us in creating a database for our
Housing Typology : Terrace House 1 Bedroom Terrace House Beaufort Gardens, Knightbridge, London (UK)
BEDROOM 1 2.6M X 2.8M RECEPTION/KITCHEN 6.0M X 4.8M
SPARE SPACE 2.2M X 2.0M
MEZZANINE LEVEL ENTRANCE
FLOOR PLAN
2 Bedroom Terrace House Lorne Gardens, Holland Park, London (UK) BATHROOM 2 KITCHEN/DINING/ RECEPTION ROOM (5.10M X 4.30M)
BEDROOM 1 (4.31M X 3.18M)
BEDROOM 2 (4.31M X 4.13M )
ENTRANCE
GROUND FLOOR PLAN
FIRST FLOOR PLAN
SECOND FLOOR PLAN
3 Bedroom Terrace House ShawямБeld Street, Chelsea, London (UK) Lorne Gardens
GARDEN AREA (5M X 4.80M )
BEDROOM 2 (3.63M X 2.85M )
TERRACE (3.80M X 3M )
STUDY
Evelyn Gardens
KITCHEN
DINING AREA SITTING ROOM (12.20M X 4.78M )
LOWER GROUND FLOOR PLAN
Bolton Studios, Gilston Road
DOUBLE RECEPTION ROOM (4.81M X 3.75M )
GROUND FLOOR PLAN
BEDROOM 1 (4.97M X 4.09M )
MASTER BEDROOM (6.43M X 4.93M )
FIRST FLOOR PLAN
SECOND FLOOR PLAN
ENSINGTON AND CHELSEA, London (UK)
erent housing typologies in this zone. erent typology and its sub-typologyies. r further analysis and research in the thesis.
Housing Typology : Flats/Apartments Studio Apartment Bolton Studios, Gilston Road, London(UK)
RECEPTION/KITCHEN 6.25M X 5.66M
BEDROOM 5.87M X 5.62M
BATHROOM
UP
ENTRANCE
GROUND FLOOR PLAN
Elgin Crescent
FIRST FLOOR PLAN
1 Bedroom Flat Evelyn Gardens, South Kensington, London(UK)
KITCHEN ENTRANCE
Beaufort Gardens RECEPTION ROOM (5.54M X 4.30M)
BATH ROOM
BEDROOM (4.07M X 3.49M)
SECOND FLOOR PLAN
2 Bedroom Flat Elgin Crescent, Notting Hill, London(UK)
BEDROOM 2 (4.7M X 2.4M)
BEDROOM 1 (4.8M X 2.8M)
RECEPTION ROOM (5.0M X 4.5M)
BATHROOM
ENTRANCE
ShawямБeld Street FIRST FLOOR PLAN
KITCHEN (2.4M X 2.2M)
Pedestrian Inclusivity
Sustainable Approach
THE ONE WITH
LIGHT RAIL CORRIDOR
Unobstructed Greens
Infrastructural Upgrade
Urban Planning Project Shantipath-Pragati Maidan Year 2020 Studio VIII Guide : Himanshu Sanghani
Apropriate Illumination
Light Rail Transit corridor proposall for the Shantipath to Pragati Maidan will ensure a better mobility for people. The green on the
DisabledFriendly Spaces
edges have been used for track without having to convert it into a hardscape. Light rail turning radius have been adjusted and the light rail is workable in the mentioned route. This will beneďŹ t the people of Delhi as the waiting time at the bus stops will reduce. The project is cost effective since most of the bus stops have been used for the light rail. The construction of light rail though involves an expansion of effective road widths in places and change of carriageway widths it has not acquired any land from any property saving a great amount for construction. This corridor can be further extended or branched into other parts of Delhi. This project will promote the suggestion for light rail in similar sites which lack NMTs and last mile connectivity. It will resolve the issue of bus bunching, gentriďŹ cation, excessive use of private vehicles and reduce carbon emission. The overall infrastructure of the site will be improved for better accessibility to information and comfort for pedestrians. The aesthetics of a light rail will invite users and the idea of a progressive and developing nation would be advertised as the site lies in the centre of the Indian capital. Other cities might revive their tram systems in a similar way thus create a large impact on the environment by the reduction in use of motor vehicles, bikes and buses.
ShantiPath
T
PROPOSED MASTER PLAN
Mathura Road
Rajpath
Dara Shikoh Marg South Avenue Road
D
C B
Teen Murti Marg
A
B
Roundabout Detail
A
C
Crossing Detail
D
Turn Detail
Turn Detail
THE ONE WITH
MUSEUM
Mixed-Use Project Mandi House, New Delhi Year 2018 Site Area : 11000 sq. m. Studio V Guide : Amrita Madan
Hyper Curved Shell is the structural construct studied and used in the design process. The inetnt of the studio was to understand the spatial properties of the structural construct, how they could be connected and placed in the design. Science Museum
involves
various
interesting
functions taking the visitor from science streets to planetarium. The construct is used as a rooďŹ ng structure and adds authenticity to the project.
Entry/Exit
Orientation
First response to the site Grid Movement
Entry Exit
Built Space
Visual Point and Movement
Adaptive Habitat - Adapting to the habitat - Foreseeing the architecture construct/ structure which could adapt the different habitat.
•
- Parameters of Architecture Human • • Location H L Program M P • Material
- Interconnection of different parameters
H
H1
H2
H3
L
L1
L2
L3
P
P1
P2
P3
M
M1
M2
M3
Programs on Site Auditorium Planetarium Eperiential Theatre
Ajacency diagram and how programs are connected to each other on the site.
WorkShop
Hydrophonic Lab
Class Room
Science Street
Gaming Room Staff Area
Hydrophonic Lab Science Street 1 Science Street 2
Planet -arium
Workshop Museum
Gaming Room
Cafe
Library
Science Exhibit
Admin
Museum
Interactive Exhibit Library
Theatre
Class Rooms Cafe Staff Area Admin
Sections
Audi
Structural Construct - Hyper Curved Shell
Auditorium
Project Render
Shopping Space
Library
Shopping Space (Cluster)
AB
Creating an architecture for the disabled g
a space, design and architecture. The aim o
The One With
DISSERTATION
and quantitative research how tangible an
accessibility easier for a person in a wheelc
First the user group and type of disability i
Year 2019 Guide : Radha Dayal, Sobia Ahsan
looked into. Which provides with a list of p
narratives are read to understand the intan
help in making a building more accessibile In Modern times where new approach and innovative design are ďŹ nding solutions for issues
accessibility. The list of paramters attained
faced in architecture, Disabled people are often
evaluate public spaces.
neglected.
The evaluation gives us the ides of how acc
While designing we focus on the experience of a
the gap in the existing by-laws that intang
person through the space and how they perceive
in a space. Few recommendations are mad
tangibles/intangibles of the space. It adds up to a major component in the design process. How a
in the building norms and guidelines to he
disabled body access and experience the space is very unique and diferent from the a able body. In the Dissertation, we looked into how tangible
FI
and intangible parameters affect the accessibility and experience of a disabled person in a wheelchair. Concluding with a list of parameters which can be used in a more accessible design for diabled people.
Through qualitative and quantitative resea
intangible parameters are as important as
Knowing that all intangible parameters ca This research recommends few intangible
by-laws in India which would help in makin
wheelchair. From the Sensory elements, U
the intangible parameters which can be in
by-laws or a different set of by-laws can be while designing.
ACCESSIBILITY DESIGN FOR A DIABLED PERSON IN A WHEELCHAIR DISSERTATION IN ARCHITECTURE
BSTRACT
gives an insight of how different bodies experience
of the reserach is to explore through qualitative
nd intangible aspects of architecture can make
PARAMETER
chair.
is defined, existing by-laws for accessibility are TANGIBLE
physical paramters for accessibility. Further
INTANGIBLE
ngible aspects of architecture and how they could
e. This provides a list of intanguble parameters for
d through the qualitative study is then used to
- Outside the Market
- Sensory Element
- Parking
- Color
- Footpath
- Noise - Odour
- Getting into the premises - Entance Ramp
cessibility in some parts is acheived. It supports
gible paramters are also important for accessibiltiy
- User’s Comfort - Physical/Visual comfort
- Inside the Market
- Control
- Linera Circulation
- Satisfaction
- Width of Corridor
de where intangible parameters could be included
- Signage
- Social Aspect
- Floor Surface
- Security
elp a person in a wheelchair with accessibility.
- Vertical Circulation
- Community - Crowding
- Services inside the Market
INDINGS
- Disabled Toilet
- Atmosphere
- Access to and in the built spaces inside the
- Shadow
premises - Accessibility to switches, handles and controls - Seating and furniture
arch an existing gap in the by-laws is justified that
s physical parameters in terms of accessibility.
an’t be turned into tangible entities and evaluated. parameters which should be included in the
ng a space more accessible for a person in a
User comfort Social aspects and Atmosphere are
ncluded in the National Building Code accessibility
e formed which are to be followed by architects
- Telephones - Alarms
- In Case of Emergency - Fire exits and Exit Routes - Emergency lighting to guide - Safe assembling area
- Management inside the market - Clear and obstruction free movement - Trained staff - Accessible facilities
- Light Exposure - Surrounding
7250
7250
7250
7250 1960
1845
1900
3000
1900
C2 W3 XX
3000
1900
6800
W3 XX
750
826
C2 W1 XX
W3 XX
435 750 365
TOILET DETAILS
1500
S3
W1 XX
1500
C3
SHEET NO.
S10
D4 XX
915
D4 XX
507
1358
W1 XX
C4
D4 XX
C4
S9
S8
C4
C4
C4
C4
W2 XX
7
818
3000
1900
D
3000
C4
D1
XX 1800
1900
2150
C4 2500
2500
L4
2000
C5
1329
811
C
5200
2959
C8
1845
3000
1845
W3 XX
W3 XX
873
W3 XX
W2 XX
C4
C4
W3 XX
4
CARPET
OIL BOUND DISTEMPER
CEMENT PLASTER
W3 XX
C4
C6
C4
W3 XX
C4
C5
C4
+450
D4 XX D4 XX
D4 XX
12 W3 XX D2 XX
C7
A
C4
C5
C4
C5
C10
W3 XX
C10
W3 XX
C10
D4 XX
C10
W3 XX
S
D4 XX
D4 XX
D4 XX
C11
D4 XX
D1 XX
1220
3000
1220
1500
1
1275
3000
1875
1275
2
1800
1875
1675
3
3000
1675
4
4640
5
6
1875
1500
1800
3640
+450
4900
3080
550
C1
C2
1900
1900
3000
1900
3000
C11
W3 XX
1900
1900
3000
2
5755
3
1800
1498
753
5200 1553
3000
420
3000
1220
600
W3 XX
S7
S6
C4
C4
C4
C5
C4 D4 XX
D3 XX
1900
4
W3 XX
C3
C2 W3 XX
900
C4
C6
B
C2 D1 XX
D4 XX
4 5 6 7
W3 XX
STAIRCASE DETAILS
6380
8
SHEET NO.
L1
5 ST1
C7
L2
A
C10
D4 XX
D4 XX
BLOCK A
12
AXX D2 XX
1
TILE
GYPSUM PLASTER
CEMENT PLASTER
S5 2500
1
1498
C2
1200
1900
C10
W3 XX
900
6940
3000
C10
W3 XX
520
C10
3060
1500
W2 XX
W3 XX
5246 904
3000
C2
520
915
W2 XX
C10
5258 904
3542
1500
W2 XX
W2 XX
600
TILE CEMENT PLASTER
1875
D1 XX
2 GYPSUM PLASTER
W2 XX
C4
550
915
6000
4640
5550
BLOCK B
915
C4
1025
C4
BLOCK C
1500 610
5550
W2 XX
1500
3050
C5
C4
873
610
W2 XX
W2 XX
C4
1900
Mandi House, New Delhi Year 2018 Site Area : 11000 sq. m. Studio V Guide : Ashwini Kher
C4
C9
C8
W2 XX
1500
2950
610
A
W3 XX
5440
3000
1900
7000
3000
C12
C1
C5 W3 XX
W3 XX
1720
1900
1500
C8
1135 1500
1900
915
B
820
3000
W3 XX
C4
1720
3000
3000
915
6000
1900
D1 XX
1500
TECHNICAL DRAWING
2500
2130
1800
D
C
820
C4
W3 XX
C4
2500
1500
C8
1675
3000
D4 XX
W2 XX
C7
1675
W3 XX
416
2130
1672 1500
B W3 XX
W3 XX
C6
3000
C4
W2 XX
915
7819
6800 1275
3000
C4
833
8115
1876
C6
1275
C4
D1 XX
W2 XX
2500 1672
6000 1220
3000
W3 XX
1163
1200
W3 XX
1900
1220
C4
C6
1800
D1 XX
1220
AXX
1875
1900 W2 XX
1500
C4
W3 XX
SHEET NO.
3000
1220
STAIRCASE DETAILS
E
THE ONE WITH
6000
6000
4
D3 XX
W2 XX
C4
5
C5
+450
C6
6
C4
L3
1500 705
8
3000
CEMENT PLASTER
9
5775
OIL BOUND DISTEMPER
7 10
1163
TILE
4
458
3
5
6
915
5775
1500
705
C4
7
5325
C4
C6
ST2
3300
900 1500
3750
900
BLOCK D
W2 XX
915
6000
C5
-15 -14 -13 -12 -11 -10 -9 -8 -7 -6 -5 -4
1500 818
900
600
C4
600
900
F
D4 XX
C5 3155
3605
2475
D2 XX
D4 XX
C4 D1 XX
C6
G
750
3000
C4
C6
H
AXX
W1 XX
D4 XX
D4 XX
W4 XX
6000
350
504 750
C2
2500
763
1900
C2
1220
3000
3053
7250
1845
C1
C10
C10
W1 XX
D1 XX
C10 W1 XX
W1 XX
750
750
C10 W1 XX
D1 XX
D4 XX
W1 XX
W1 XX
S
D4 XX
D4 XX
D4 XX
C11
3000
750 3080
4500
1
2
4783
3
374
374
4
1800
374
374
301
750 301
1800
5
301
1101
750 562
1750
750
828
6
7
+-00
Includes detailed drawing of BASEMENT FLOOR PLAN 7250
7250
2725 3230
4310
S10 D5 XX
3000
C4
C4
D5 XX
3350 3230
C4
C4
C4
C5
C4
ST2
C4
C4
C4
1900
400
C4
L3
950
L4
3
6000
4
5
6000
6000
6000
6 6000
C4
C4
C6
D
C4
400
C4
C6
DOWN
C4
C4
2
BASEMENT FLOO
6000
4425
UP
TREAD:300M RISER:150MM WIDTH:1500M
3465
C4
C4
C4
C4
C5
C7
C10
C10
C10
C10
C11
A
6440
7819
C9
C8
C6
CEMENT PLASTER
1 OIL BOUND DISTEMPER
C8
4
-10
C5
C4
811
13569
C8
-8
5036 C5
C4
C8
2
-6
C5
C4
E
C7
o
-4
2000
1329
C6
-2
-1970
2219
DN
C5
C4
5775
C4
2
1 11297
3300
3300
C4
3230
C6
CEMENT PLASTER
6379 1500
3600
-3000
1
6000
D
C4
C4
C4
C5
C4
C4
C4
C5
6000
13414
C4
C
2860
F
2128
5220
3630
3750 C6
G
900 S9
C4
D5 XX
D5 XX
900 S8
600
2475
C6
1
C5
D5 XX
900
2860
C4
D5 XX
H
3600
7140
C4
D5 XX
6379 1500
5575
3230
A
C3
C2
3570
D5 XX
C6
AR-PL 02
7250
C2
3155
House, New Delhi.
7250 C2
3598
6000
4670
3250
C2
4310
7250 C1
2500
semester V design project,
+1970
-2
o
2
-4
-6
-8
4
10
DN C4
3050
B
C1
C2
C6
C4
C2 600
C10
C10
6800
C11
6800
B
6690
900
S6
2
3
4
2
C3
C2
C4
C4
C4
C5
C10
C10
C10
C11
C4
5036
TYPICAL FLOO
L1
5
L2
S5 2500
1
C2
C2
900
S7
11297 6380
C10
6800
3060
C10
6940
2950
A
600
C12
C1
2500
science museum in Mandi
A
ST1
C7
C10
C10 3000
3640
1
4900
2
5258
3
5246
4
4955
5
6000
6
7
TREAD:30 RISER:150 WIDTH:16
KEY PLAN
TYPICAL FLOOR PLAN
AR-PL 01
COLUMN SCHEDULE
AR-EL-01
H
PARAPET + 10750 TOP OF STRUCTURE + 9850 LINTEL 6 + 9050 LINTEL 5 + 8750
CILL 3 + 7550
W2 XX
CUTOUT SCHEDULE
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
SECOND FLOOR + 6650 LINTEL 4 + 5850 LINTEL 3 + 5550
N
1163
1 2
5 6
416
1163
3000
7 8 9 10 11 12
CILL 2 + 4350
0
S5 S6 S7 S8 S9
3000
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W3 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
W2 XX
FIRST FLOOR + 3450 LINTEL 2 + 2400 LINTEL 1 + 2100
CILL 1 + 900
0
S10
PLINTH + 450 GROUND LINE + 00
0
15 16
0
PROJECT
4870.0
SCIENCE MUSEUM, MANDI HOUSE, NEW DELHI.
833
W3 XX
0 0 0 0
3605.0
H1
I
5775.0
3750.0
H
6000.0
G
6000.0
7819.2
E
F
3055.1
6000.0
C
D
2943.9
A
C1
B
3000
ARCHITECT
416
7000
7000
6440
391 866 3594
391
900
4440
4665
PARAPET 2 + 10750 PARAPET 1 +10300 TOP OF STRUCTURE + 9850
C5
LINTEL 6 + 9050 LINTEL 5 + 8750
994 4101
1188
1220
D2 XX
1188
6580 4550
5000
D2 XX
CILL 3 + 7550
W4 XX
W4 XX
W4 XX
W4 XX
W4 XX
W4 XX
W1 XX
W4 XX
W4 XX
W4 XX
W4 XX
W4 XX
W4 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
W1 XX
SECOND FLOOR + 6650 LINTEL 4 + 5850 LINTEL 3 + 5550
2000
5000
3594
2930
N
D4 XX
C6
F
1550
C3
C2
MUMTY + 12250
1500
S2
AR-EL-02
6440
C2 D4 XX
220
7000
6550
C1
G
KANISHKA PORWAL SEMESTER 6 YEAR III
1556
CILL 2 + 4350
C6
E
C5
W4 XX
7250.0
C6
C5
5
CARPET
OIL BOUND DISTEMPER
FALL CEILING
C6
7250.0
1
7250.0
2
7250.0
W1 XX
3
4
11525
3640.2
5
1
4900.0
5257.8
2
5246.5
3
4
5755.5
W1 XX
PLINTH + 450 GROUND LINE + 00
5200.0
5
7000.0
6
7000.0
7
7000.0
8
9
10
AR-SEC-01
C5
2870
4550
4550
5000
2500
C
FIRST FLOOR + 3450 LINTEL 2 + 2400 LINTEL 1 + 2100
CILL 1 + 900
VOID (11525 X 3450)
W4 XX
D1 XX
4550
4550
5000
D
W4 XX
D1 XX
4550
4550
5000
W4 XX
D1 XX
C6
B
MUMTY +12250
C5
D2 XX
D4 XX
MACHINE ROOM
D4 XX
PARAPET +10750
1316
S1
LIFT SHAFT D4 XX
S4
D4 XX
D4 XX
TOP OF STRUCTURE +9850 LINTEL 3 +8750
4440
5000
1500
220
BLOCK E
CILL 3 +7550
1163
1550
D4 XX
A
C7
D4 XX
D4 XX
D4 XX
C10
6440
1275
D1 XX
C10
1800
1275
SECOND FLOOR +6650
C11
LINTEL 2 +5550
CILL 2 +4350
6440
FIRST FLOOR +3450
4000
1
LINTEL 1 +2100
3
2
4
CILL +900 PLINTH PROTECTION +450 GROUND LINE + 00
7250.0
0
7250.0
7250.0
1
2
7250.0
3
7250.0
11526.9
4
6000.0
1
5
6000.0
6000.0
2
6800.0
3
5200.0
4
5
6
PARAPET +14930
B 900
1500
AR-DETAIL-01
450
MUMTY +13950 1188 5
750 PLASTER (12MM. THK.) + 1200
575
575
+ 2450 G
COLD PRESSED STEEL FRAME
1200
30 MM. THK. STEEL DOOR
GLASS (8MM. THK.) GLASS (8MM. THK.)
2155
2405
DOOR HANDLE
DOOR HANDLE
50
450
SHUTTER (30MM. THK.)
HOT ROLLED STEEL FRAME
+ 9020
60
WODDEN PANEL
2445
71 70 69 68 67 66
PLASTER (12MM. THK.) BRICK WALL (230MM. THK.) PRESSED STEEL PROFILE
LINTEL
GLASS (8MM. THK.)
65
62 61
OR PLAN
865
STANDARD STEEL SECTION NO. F4B
TERRACE LEVEL +10050
63
1200
865
STANDARD STEEL SECTION NO. F7D
UP
2320
-3150
35
150 -16
4500
-14
+ 2100
BRICK WALL (230MM. THK.)
LINTEL
2860 -12
1730
PLASTER (12MM. THK.) BRICK WALL (230MM. THK.) PRESSED STEEL PROFILE
LINTEL
59 58
CILL
57
BEADING
+ 00
56
COLD PRESSED DOOR FRAME
RUBBER GASKET
55 54 53 52 51
SECOND FLOOR +6750
50
2700
MM M MM
49 48
ELEVATION OF WINDOW 1
40MM. CLEARANCE
SECTION AA' 40MM. CLEARANCE
47 46
+ 5870
450
39
HOLD FAST STANDARD STEEL SECTION NO. F4B
38 37
STANDARD STEEL SECTION NO. F7D
36 35
29
FIRST FLOOR +3450
3000
28
PLASTER (12MM. THK.) BRICK WALL (230MM. THK.)
D
SECTION AA'
H
PLASTER (12MM. THK.) BRICK WALL (230MM. THK.) PRESSED STEEL PROFILE HOLD FAST
PRESSED STEEL PROFILE
30
27
100
5
D
RUBBER GASKET
31
26
EARTH
SECTION AA'
EARTH
33 32
40MM. CLEARANCE
+ 00
ELEVATION OF DOOR 1
40MM. CLEARANCE
ELEVATION OF DOOR 2
BEADING
34
1500
F CILL
+ 00
40
BRICK WALL (230MM. THK.)
40
B
CILL
PLASTER (12MM. THK.)
45 44 42 41
SECTION BB'
WOODEN PANEL
HOLD FAST
GLASS (8MM. THK.)
SHUTTER (30MM. THK.)
25 24 23 22 20
21
AR-DETAIL-02
19 18
+1970
6
16
450
2860
17
8
15 14
4
13
+450
12 11 9 8 7
HINGE
2550
6 5 4
GROUND LINE + 00
3 2 1 o -1
1200
-2
+1970
450
-3 -4
REBATE SHUTTER HOLD FAST
BRICK WALL (230MM.) PLASTER (12MM. THK.) HOLD FAST STANDARD STEEL SECTION NO. F4B
BRICK WALL (230MM.)
PLASTER (12MM. THK.)
REBATE
REBATE
WOODEN PANEL (35MM. THK.)
GLASS (8MM. THK.)
-5 -6
BEADING
BEADING
-7 -8 -9 -10
1500
OR PLAN
00MM 0MM 600MM
BRICK WALL (230MM.)
10
UP
PLASTER (12MM. THK.)
-11 -12 -13 -14 -15
-16
BASEMENT -3150
RUBBER GASKET (1.5MM THK.)
WOODEN PANEL (35MM. THK.) GLASS (8MM. THK.)
STANDARD STEEL SECTION NO. F7D
DETAIL H
MONASTERY
THE ONE WITH
Sanchi, Madhya Pradesh Year 2018 Studio IV Guide : Amit Gupta
Moving forward in time and looking at how Sanchi would be in 2050. In the process pof the studio, designing a prototype that could be used a a building material. The prototype is made out of titanium. Surrounded by a spiritual context, site is located near to the Sanchi Stupa and one part of the karge complex is the Monastery for visitors, spiritual mentors and monks. Creating
a
serene
meditative
environment
through the design with minimal use of material, open space, organic form, maximum natural light and green belt surrounding the space. Using one of Buddhist symbol : InďŹ nity knot as a refernece for the design.
Zero Carbon Footprint
Form Derivation
Endless Knot (Buddhist Symbol)
Transportation
Seperating the 6 knots, creating them into blocks & connections
Virtual
Final Form
Program on Site - Yoga Centre - Meditation Centre - Interactive Space - Stay Area - Mandir - Workshops - Admin Area - Food Hall
Stay Area
Stay Area
Workshop
Interactive Space
Mandir
Yoga Centre
Meditation Centre
Prototype Prototype made out of titanium in Sanchi 2050. The construction of the curvillinear ceiling is made with the prototype. With the help of design of the prototype any form can be easily acheived.
Front Elevation
Rear Elevation
THE ONE WITH
ARTWORKS Painting Mural Collage MTP Work Digital Artwork Model Making Photography