Bachelor of Architecture Portfolio

ARCHITE\TURE

2 ~5

A

PORTFOLIO

- 2 0 19

In there you will find some pieces of work undergraduate

experience

been a process of evolution, inspired

me (which has turned

dure

meaning every soluti

me to produce

As a natural mininmalist

have been a part of my

in the past years. A a better

output

for me has always

the problem

always

for th

by nature i always try to keep things to be great till now!) and i hope my wo

So settle in for a subtle experience

of an architedural

meets efficient.

journey

where simple

CURRICULUM

VITAE

awata ns tri path i

[!]l~[!] ...

•

architecture student

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.

awatans47@gmail.com

linkedin

05/12/1997 EDUCATION I

2001-2006 Air i=orce Bal Bharti School (junior education) 2006-2015 Banyan Tree School (Sr. Secondary education)

2015-2020 Bachelor of Architecture, Jamia Millia Islamia (Vth Year)

2012-2013 Banyan Tree School [8.8 CGPA Class 10] 2014-2015 Banyan Tree School [91.2%CBSE Class 12] WORKS~OPS / CONi=ERENCES / INTERNS~IPS 2016

I

ih GRI~A

summit

2016 Intern at GRI~A council [practical aspects

2017 India Design symposium

of rating on live projects]

2017 Delhi Sustainable Development Summit

2018 Intern at Central Public Works

2017 8th GRI~A summit

Department [handled draughting and rendering

2019 World Sustainable Development Summit

of drawings, SPA new campus]

2019 Conservation for Development by Ratish Nanda, Charles Correa memorial talk COMPETITIONS 2016 GRI~A Trophy Annual NASA

2015 Intra i=aculty football tournament

2017 120 Hours

2016 Inter faculty Table Tennis (3rd place)

2018 Philadelphia Corridor re-use

2017 Inter faculty Table Tennis

2019 120 Hours 2019 Pop-up Bazaar, Istanbul, 2019 essays in architecture 2019 ein&zwanzig furniture design UNPUBLlS~ED WRITINGS

Gond Art, Madhya pradesh 2017 Bharat Bhavan, Madhya pradesh 2018 Ar. Kabir Vajpayee 2019 Cultural state of Orchha 2019 Documentation: !-IUDCO PLACE, New delhi 2016

2019

!-lousing:A passive approach

SOi=TWARE SKILLS

I

Adobe Photoshop

advanced

Autodesk Revit

intermediate

Adobe Illustrator

intermediate

MS Ofiice

advanced

Adobe After Effects

basic

Rhinoceros 3d

intermediate

trimble Sketchup

advanced

Grasshopper

intermediate

Autodesk 3DS Max

intermediate

Lumion

advanced

Autodesk Autocad (2-D)

advanced

V-ray

advanced

INTERESTSmOBBIES digital sketching 3d visualisation and modelling Vi=X and cgi production football table tennis Jigsaw puzzles ~INDI

native

ENGLlS~

fluent

LANGUAGES

[excel, word, powerpointJ

CONT~NTS

@)

INT~GRAT~D LAB COtvlPL~X Thesis project institutional design

GRI~A TROP~Y competition public design

P~RtvlUTABL~ tvlARK~TSCAP~ competition

~

public design

@

4th

V

TAGOR~ UNIV~RSITY year studio project

urban design

TRANSi=ORtvlABL~ ~OUSING 4th

~

year studio project

housing

L02 S~~Li= ~ANG competition furniture design

CD G

SIGNAG~ POL~ 2nd year studio project

public interest design

INT~RNS~IP & tvlISC~LLAN~OUS

OT~~R WORKS

121 ~

__

Gate Design

Animation

Centre

1't year studio project

Sd year studio project

public design

public design

tvlilk Booth design

Documentation: ~UDCO Place

1't year studio project

4th

public design

research

year studio

Primary School Design

Bok Corridor

2nd year studio project

competition

redesign, Philadelphia

public design

public design intervention

Resort at Diu

Library, Puan city, China

2nd year studio project

competition

commercial design

public design intervention

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tvlAN from ~ART~

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competition conce_ptua_1

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INT~GRAT~D LAB COMPL~X

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A design dealing with the inception of an integrated lab complex for testing labs and research labs for solar energy Technologies. An integrated lab complex refers to a complex wit all the facilities such as labs, educational facilities, research facilities, workshops, etc.

National

Institute

of Solar ~nergy

National Institute of Solar ~nergy of govt. of India is an institution engaged in testing, standardization and research and development in the field of solar energy (solar PV and solar Thermal) in the country.

The need The institute intends to create an integrated lab complex with the facilities for housing the laboratories for testing of solar PV modules, solar pv cells, inverters, batteries, class look level clean room, product development, incubation center, etc. The current scenario presents a major bottleneck fot the future beacuse of the daily problems being faced by the laboratories.

The Problems - ~quipments storage and transfer - undefined lanes of circulation. -lack of adequate areas for equipments. -Retro-fitting has its own issues. short circuits, de-functioning of eqipments. -all the spaces are fully packed and there is no space for additional advanced instruments. -lacking behind major private firms in terms of lab infrastructure.

The Proposal The topic deals with a design problem in which the government has proposed to build a complex integrating the existing labs on site. The project has 3 main cores on the basis of which the spatial requirements are framed out:

The site

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The site lies inside the 200Ac.

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ca m pus of N IS ~ itself.

The specific parcel of land was chosen as it had minumum existing tree cover .

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The adjacent

diagram

shows the nearby urban fabric.

Since the site falls on the outskirts of the city there is not much planned urban density observed. everything is

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quiet spread out. The built area is around

20%

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The adjacent

diagram

shows the green cover in

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surrounding ares. in contrast to the green cover og the main city centre, there is a lot of natural greenscape with

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dense tree cover present.

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The above diagram height variation.

shows the contextual

majorly

there

skyline

are 3 high rise

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buildings nearby. also there is a G+6 NIS~ headquarter building on the south. The village nearby

has mostly

low rise houses.

The site is an empty

parcel

of land of area 24,800

sq. mt.[6.1 Ac.]. with two temporary structures on site.

built

Site

analysis

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Wind speed will decrease in coming towards the site beacuse Measured in kWh/m2/day onto a solar panel set at a 280 angle:

Jan 5.16

Feb 5.91

Mar 6.47

Apr 6.20

May 5.89

Jun 5.41

of bernoulli effect, but still remains No shadows on site throughout the year (no effect of shadows due to far proximities of high rise built area)

Jul 4.76

Aug 4.60

Sep

Oct 5.80

5.27

Nov 5.56

Dec 4.95

Unrestricted

monsoon winds in the

summer time have a potential to be harnessed into the campus

1kWp solar rooftop plant will generate on an average over the year 4.6 kWh of electricity per day Average solar irradiation in NeT

or: D~u-nstate

is 1156.39W / sq.m

w <;> [~ optimum solar orientation

for composite

climate. in order to minismise heat loss in winters and gain during summers

The site is in isolation and is surrounded by natural forest cover. perfect work environement like this

East-west pan

Staggered placement of blocks on site in order to facilitate wind movement within the campus

North-South

pan

for a facility

Concept The proposal aims compose the site as a hub of interactive research, designed to cater interdisciplinary interaction and offer a desirable work enviroment for the population

The sustainability factor in play keping in mind the presence of the built the human and the green

The overall site has been composed keeping in mind various factors such as sustainablity, aesthetics and most importantly function. The prime focus while deriving the composition was on function integrated with the other two.

The aesthetic factor in terms of creation of quality spaces both inside and outside keeping in mind the built and un-built relationship.

A composition where each block having its own identity at the same time conforms with a common built mass to ensure integrity of the whole program

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distribution and establishment of relationship amongst blocks

massing the site and splitting the volume by introducing an axial void perpendicular to the access road

variation of volume of void by changing forms of the built

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f=inally, enhancing the axial impression of the site by perforating the masses thoughout

contortion of the masses to give interesting variation of volume

establishing more intimate relations between the front masses

Analysis After the basic form development, the massing was analysed on the parameters of total heat radiation thoughout the year. After analysing the outcomes different facades were trated further with interventions in order to minimise the heat gain on them. The maximum potential that can be utilized via solar panels has also been calculated on the roofs of the buildings.

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!=igure shows the variation of heat radiation throughout

The North facades remain cool throughout the year and

the year along the curvature of the mass. the west facades gain heat and transition into cooler phases as it curves towards north

eastern facades gain heat similar to western side. The kWh/m2 1100.66< 990,59

buildings help in mutual shading and absorbing and radiating heat.

The office building and the laboratory combined have a

The hostel blocks also have a significant amount of roof

Iota I roof surface area exposed enough throughout the

area to place panels while also accommodating services

year to cater for placement of solar panels in order to generate a potential amount of solar energy

=,.....=-------...... Surface

percentage used for PV modules (percent): 50.00, Surface area (rnz). 452.23, Surface active area (rnz). 407.01, Array type: fixed tilt Surface tilt angle (deg.). 0.00, Surface azimuth angle (deg.). 180.00

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percentage used for PV modules rcent): 50.00, area (rnz). 971.06, active area (rnz). 873.95. type: fixed tilt

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tilt angle (deg.). 0.00, ace azimuth angle (deg.). 180.00, ............. ILO-~.-d......::...." ....... l:::nergygenerated: 186690.488361

~';;_~~~!!!!!!!~!!!!!!r:lIi.Ca Surface percentage used for PV modules (percent): 75.00, Surface area (rnz). 1066.61, Surface active area (rnz). 959.95, Array type: fixed tilt Surface tilt angle (deg.). 0.00,

ltiJ~~IJll1~~Surface

azimuth angle (deg.). 180.00, I:::nergygenerated: 205061.76522 kWjh

percentage

used for PV

modules (percent): 75.00, Surface area (rnz). 920.37, Surface active area (rnz). 830.76, Array type: fixed tilt Surface tilt angle (deg.). 0,00, Surface azimuth angle (deg.). 180.00, I:::nergygenerated: 93678.55756 kWjh

TOTAL ENERGY GENERATION: 675682 kW/h

Analysis

~I\'\",\ ~.. In the case of the lab building the, position of the mass was

Longitudinal wooden louvers with white vineering in order to compensate for blocked light. The

utmost importance in order to ensure proper functioning. Thus by intervening with the facade, the radiation can be reduced to

shape and rotation is parametrised on the basis of

a great extent

minimising radiation

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On conducting the analysis again the intervention gave a

solver genome list being generated by galapagos. The

reduction of heat gain by an amount of 10,000 kwh/m2. for a particular combination of the shape of the louvers.

more the slope of the graph the better the result. The resulting putput was obtained after conducting an analysis for 10 hours.

Similarly in the case of the office block, intervening with the

reduction of heat gain by an amount of 12,000 kwh/m2

glazed facade gave certain results based in the combination of the louvers library facade gaining heat on a smaller portion of the facade owing to the mutual shading effects. here vertical louvers were not feasible since they would reduce the visibility factor from inside the library. Hence small horizontal solar panels were used mounted on

slab

1m

addition of parametric lovers reduces heat gain by 3000kwh/m2 Panels come in various sizes and shapes. The panels are bent at 25° to 28° from the horizontal to gain maximum sunshine hours.

Solar panels mounted on a frame which in turn is attached to overhead slab.

Analysis

••••••••••••

__ ...-,The

southern facade of the hostel

block absorbs radiation in the manner as shown above. The rooms . require balconies and windows as it a basic requirement. No other glazing surfaces are present on this facade

placing windows and balconies on required places and parametrizing the projection of boxed window and balconies on the hostel facade wherever needed. gives an interesting volume and also facilitates in reduction of heat gain by an amount of 5,000 kwh/m2 The projection of the windows vary between 1.2 and 1.5 meters The projection of the balconies vary between 1.5 and 1.7meters

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solver genome list being generated by galapagos. The more the slope of the graph the better the result. The resulting putput was obtained after conducting an analysis for 8 hours.

The southern facade of the hostel block absorbs radiation in the manner as shown above. This facade also requires balconies and windows. No other glazing surfaces are present on this facade

placing windows and balconies on required places and parametrizing the projection of boxed window and balconies on the hostel facade wherever needed. gives and interesting volume and also facilitates in reduction of heat gain by an amount of 3,000 kwh/m2

SOFT

PAVED

AREA:

7850 M'

67% !-lARD PAV!;:D 23% SOFT PAVED

PLANTATION SCHEME

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Schleichera oleosa

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kusum

Erythrina indica Indian coral tree

t,'C'4l~~ Plumeria obtusa

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J.{;J Devil's ivy

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Money plant

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Duranta erecta Golden dewdrop

Singapore graveyard

Chukrasia tabularis mahogany

Cassia fistula Amaltas

e

MATERIAL SCHEME

•

•

asphalt fly-ash concrete herringbone

steel edged concrete slabs ~ white stone paver

kadappa stone LIGHTING SCHEME

•

e

brick pavers

hard wood pavers

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e

Bollard

[with light]

Solar pole

[5M ht.] ==

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PERMISSIBLE PARAMETERS -permissible ground cover is 7500 sq.mt. -1.0 ECS for every 100 square meters of

permissible FAR of plot. -Site area: 24824.231 sq. mt. (6.134 Ac.) -unrestricted height -FAR 150%

ACI-IIEVED PARAMETERS -GROUND COVER: 7253 sq.mt. -90 cars -18000mm max ht. -total built-up area: 16326sq.mt.

f=irst floor

SECTION,

[+5100mmJ

Second

floor [+9300mm]

(_)

SECTION 2

Third floor [+13500mmJ

n ------ -----o

~Ievations

WESTELEVATION

EASTELEVATION

NORTH ELEVATION

Views

GRI~A TROP~Y [2ND PLAC~ 1

The objective was to design an office building for ~xperion developers, a real estate developer in sector 15, Gurugram. year:

2016

place:

Gurgaon, sector 15

typology:

public design

Group based (6 members)

-form -climate -technology -analysis

SITE ANALYSIS

INFERENCES 1. South sun can be controlled

using louvers, controlled heating and shading affect 2, Cool S~ winds can be used to

tr

Gurugram

SIT~ [sector lSJ

cool interior spaces and public plazas, 3, South to North ~ast is the desired location for views in the office spaces,

11

30-40 km/hr winds for 70 hours,

CONCEPT & FORM DEVELOPMENT

1120-30

km/hr winds for 130 hours,

1110-20 km/hr winds for 340 hours,

DESIGN APPROACH 1. Lower solar heat gain, ventilation,

generous

views and venturi effect. 2. The tilted facades and form of the building significantly reduce summer heat and increase Placing a block model on site,

Introduction of Courtyard

Tilting facade for minimizing heat gains and introduction of views in spaces,

winter heat gain. 3. Voids facilitate prominent winds into the central plaza. 4. Also major void aligned with winter sun angle allows visual connection. 5. Reduction in electrical load beacuause of

Tilting the eastern facade to maximize penetration of eastern sun,

Adding voids which harness desirable winds and also act as social voids,

Creating a welcoming entrance and maximizing views,

penetration of sunlight due to shallow floor plates. 6. Provision of balconies on each floor for R&R for employees, planted with water filtering and oxygen producing plants.

SIT~ PLAN

SITE ZONING

-The zoning of site is done according to the climate charts and solar heat gain analysis. -Seperate entrance and exit are provided

..

in order to

maintain a smooth vehicular movement.

.

-To inspire and inculcate environmentally responsible attitude, pedestrian-friendly zones are created within the site.

SITE LAYERING

PAVING _

Soft Paving

_

Hard Paving

_

Soft Paving

_

l-lard Paving

PAVING Total Site Area 9712.46 sq. metres

Floor Area Ratio 1.75

GRI:::I:::NARI:::A PATI-i

Building occupancy 1410 employees

BUILT

BUILT FOOTPRINT

LAN DSCAP~ PLAN

planters

® ®Q®

recreational area

solar trees

cafeteria

Japanes·e·wate·r······································ .............. filteration planters

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outdoor seating

,

....."TTT Dl: Cobiax slabs

O~·············· ······· ········· ········· .6J '" , ru

sun light trnsportation

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parking

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Modules on parapet which filter water with plants

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Voids for sun and wind

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...... ,3, Service floor

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[Sd,

green roof

io", zo" floor]

Shallow floor plates to maximise natural light

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'site bounds

,.... automated parking

parking

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entry

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drop-off

Algae bio rectors

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water ramp body

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pedestrian walkway

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kMl ~ IMlI 6:01 ~ central·· ·· S(;CTION AA' plaza

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iii,: iii lB, k~ kJ~ kJIl!l!II~ badminton court iii.

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Banquet hall [level 5]

ft,

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!!!! :,--

~ .. sitting space

Introduction of social voids

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CO2

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BIO-MASS

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Algae receptors that filter air & produce Bio-Mass

Waste construction material-Grass chair

ANALYSIS A 'passive' solar design involves the use of natural processes for heating or cooling to achieve balanced interior conditions. The flow of energy in passive design is by natural means: radiation, conduction, or convection without using any electrical device. iVlaintaining a comfortable environment within a building in a hot climate relies on reducing the rate of heat gains into the building and encouraging the removal of excess heat from the building .

•

The orientation of the building is determined according to the relation of the longer faces with southern sun.

Precisely calculated louvers are incorporated with balconies to cut off summer sun and allow winter sun through the buildings facade

•

Southern sun can be easily manipulated using solar shading devices. Leading to reduction in solar heat gains.

Placement of service cores around eastern and western facades help reduce unnecessary solar heat gains.

Angled facade reduce the total surface area under direct harsh summer sunlight by 85%

Voids through the facade and public plaza allow deeper penetration of winter sun. reducing cold zones during winters

Introduction of louvers on the southern facade reduce heat gains by 62.5% during summers

Angled facades and voids increase winter solar heat gains by 34%

voids in public plaza carve a path for predominant cool breeze from South I:::asth during summers.The voids are placed so as to allow maximum cool breeze during summers and block warm and cold winds during summers and respectively to create a more naturally ventilated enviornment.

NnzmOWAT~R

T~RRAC~ GARD~NING

l'v1odulesof water cleaning

the fertile soil of construction site is moved onto different ter-

plants are installed on the parapet which clean grey

CRmlT STAIRS

Intermediate staircases are pro-

races formed in the building

vided within the office space for promting use of staircases rather

water and rain water to be

providing it a perfect platform

than lift. ~ach employee would be

reused on site.

for in house farming.

provided with a tracking card which will monitor use of staircas-

These vegetables can be used for food cooked in the cafeteria,

Nn

ztno BIO WAST~

providing the employees a

es, each flight of steps can give cafetaria credits which can be re-

healthy as well as cheaper meal.

deemed for free food.

INTmNAL CAP AND TRAD~

NATURAL V~NTILATION

Compost pits are provided on the

~ach floor will be provided an

The orientation

site for collection and treatment of bio-mass. The bio mass collected is

the building allow it to harness wind by creating natural

converted to energy and manure

energy usage limit. If energy is left with one floor it can be shared with another floor, in ex-

which produces revenue for the

change of points or credits. This

Public plaza is well ventilated

building. Compost pits are easy to maintain and are to be accessed

proposal creates a sense of responsibilty within the users of

by venturi effect through the voids of the building.

once in 3 years for inspection.

the office space to save energy,

ÂŽ

and form of

flow of air through spaces.

and win credits. GOOUND WATm CATC"M<NT

SYST<M

I:::xtrawater is trasnferred ~

Semi Paved Paved Rooftop

752 m2 1552m2

0.9 0.7 0.8

0.714 886.50 m3 0.714 407.26 m3

Greens

3284 m2

0.2

0.714 468.95 m3

Total Runoff water= 595.96 m3 849.21 m3 886.50 m3 407.26 m3 468.95 m3 Total Runoff water= 3207.88 rn'

To decrease surface water runoff more soft scape is proposed in balconies and landscaping.

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Portion water is used

Portion water is used

Rainwater is collected in individual balconies and then distributed evenly while being passed through water filtering planst for use. The used water is again purified by plants and is then transferred to a ground water recharge pit.

P~Rtv1UTABL~

tv1ARK~TSCAP~ [TOP 50 1

~ The aim of the competition was to design a pop-up bazaar in the heart of Istanbul with the aim of replicating a traditional market in a contemporary way. year:

2019

place:

Yenikapi istasyonu subway station, Istanbul

typology:

public design

Group based (3 members)

-urban -culture -computational -intervention

CONC~PT Reminiscing about the old times; shopping as it was centuries ago; when the Turkish bazaars swooped with goods from all cor-

pedestrian plaza and open space

ners of the Ottoman empire, when the markets moulded themselves as per the structures around it, and the markets were interwoven within the urban fabric, one revisits the essence of the traditional Turkish bazaars. This design intends to envision a public space that harmonizes with the context and can transform itself with changing seasons, during festivities and by different times of the day. To achieve this the site is fragmented to 'activity squares': A grid having smaller squares that consist of an activity (pop up kiosk, green space, pedestrian space, etc.), fused with infrastructure for wifi, lighting, water retention, and piezo-electric pavers. ~ach square would flexible and could be used for different functions in morning, evening and night, and different times of the year; enabling an ever-changing and versatile landscape. The design means to accommodate these changing patterns of open spaces, their uses and pedestrian circulation throughout the year. The module design is based on achieving high user interactions along with a large degree of convenience for the shop owner. The two-sided module gives a welcoming appeal. Its contemporary

choice of materials makes it lightweight

and it

has a short and comfortable assembly process (pipes that interlock to create a frame covered with tensile fabric of different

colours). Angled roofs shade the space around the

module, and along with colourful kiosks, make the bazaar visually captivating. The bazaar really does pop up!

transluscent tensile fabric ".

planned grid of 'activity squares'

Different zones of a bazaar expand and contract in different seasons. Specific zones are active during specific times of the day, and then fa bric-su pporti ng.... frame

curtain'fabric

people use the same space for some other purpose.

~ach grid is independent

lightweight connect~ble PVC pipes

Module Design Detail

unit,giving

way to way to endless forms and spaces.

APPROAC~ The site is fragmented to 'activity squares': A grid having smaller squares that consist of an activity (pop up kiosk, green space, pedestrian space that changes throughout

the year

An aerial view of the bazaar [for any particular

permutations]

showing the

orientation of spaces with respect to the kiosks and circulation areas throughout

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TAGOR~ UNIV~RSITY

This theme based studio project was conceived as an idea in order to incorporate philosophical aspects of design with generic urban design regulations to create a project with holistic virtues. year:

2018

place:

Knowledge park III, NCR

typology:

public design

Group based (3 members)

-urban -philosophy -landscaping -brutalism

SITE Knowledge park III, greater NOIDA, Delhi, India 28.4785° N 77.4814° ~

site area: 28.8 l-la Knowledge Park III is a Locality in Greater Noida City in Uttar Pradesh State, India. It belongs to tv1eerutDivision, according to the master plan. The site is particulaly surrounded by many existing.... ", universities and hospitals, one of them , b~rn'g Sharda university towards the south-west."

"

Major landmarks Urban f=orest Reserves 2 LG Chowk - Industrial Road 3 Tulagpur - Organic, dense settlement 4 Sharda University Campus ,""----,'" ~,."" -: ,

URBAN ANALYSIS

Mapping out built vs. unbuilt in the region so as to analyse degree of densification of land parcels, and identify unbuilt areas that the area has to offer to the public Built 11.6% Unbuilt 88.4%

BUILT i=ABRIC

,

malls

~

hospitals

@

schools / colleges

local parks

<il

hotels

o

•• ••

22

%

0.6% 2.4% 75%

•

Industrial

•

mixed use

•

institutional

•

residential

BUILDING US!;

Out of the unbuilt area, tracing the pieces of land that are hard paved and that have green cover. This part of Greater Noida has almost all its unbuilt area under green cover, due to proximity to forest area as well as master plan provisions of the area

APPROAC~ ~

gu idi ng axis

various

~

fIij

cores

*

0

masses

.. ~

landmarks

growth orientation

Visualisation of a basic layout and growth pattern of the university. A planning which would be guided around a central spinal axis. This axis will in-turn have several intersecting axes creating nodes and potential landmarks. placement of cores on these axes,and hence establishment of various other massesaround this system

* )

landmarks central

axis

Ij~

virtual visual axis

Ii>

secondary

~

axis

academic

residential

~

administrative

Setting up a zoning plan in conformation with the concept. analysing the urban context helped in placement of important landmarks.Defining the central spine as pedestrian oriented with the secondary axis serving as vehicular connection. l-ienee,following the established hierarchy of planning helped in makingof the rest of the structure plan

~

-

..* ~

landmarks

entry green scape

I

residential

II

i:,

0

ti;;

academic

~

administrative

\\

\\1 /,/

Translatingthe concept into reality, with a more detailed structure plan. Introduction of an ELEVATED WALKWAY. All in accordance with the concept, this new addition helped in giving a new dimention and identity of the university and hence in creation of an INAGE of the place. The vehicular road being under the elevated path, helps in serving accessto the entire site in one stretch.

+--+---==i'-=+==-JI-I Having the benefits of transit orientation in a typical grid iron layout, this morphed grid system was derived out for the purpose of connecting the two main entrances of the site, while also providing vehicular access to each and

BRINGING IN Hit: GRt:t:NS In the context of urban planning, it was a very important step to follow the built as well as unbuilt heirarchy of the place. An abundance of green patches on across the road towards noth-west led this design to flow the green inwards the site.

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The buill mass Forms were predorni I

The mass is spread out towards the

1

U

nantly laid out as per the form of the sectors of the planning grid

r-----t L____j

··~~~·~;;;' ~ I«;[Ill (~JI

north of site and density increases as one goes towards the south of the site

CIRCULATION Minimum circulation paths for the vehicles with the additional pedestrian walkway, the site would function in a campus friendly manner without any conflict points.

BUILDING USt: A concentration of residential aeas owards the south-east blending with the main academic spine towards the centre of the site.

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LEGEND

ro

A ADMIN B PAVILLION C GYMNASIUM D FlO PHY EOU. E LANGUAGE+L1T F CANTEEN G LANGUAGE+L1T H LIBRARY I TAGORE INST. J WORKSHOP

<0

-"

~l ...0

« ....., 0-

"\« I I

I

K FlO HUMANITIES L CANTEEN M SAC N EXHIBITION P FlO FINE ARTS

o

FlO

MUSIC & DANCE

Q AUDITORIUM R FlO FINE ARTS

5

FlO

T

AMPHITHEATRE

ARC.HITECTURE

U

V W X Y Z 1 2

GUEST HOUSE & v.c. HOUSE GIRLS HOSTEL FACULTY RESIDENCE BOYS HOSTEL SPORTSAREA AUDITORIUM SERVICEAREA ADMIN PARKING (SO)

3

RESIDENTIAL PARKING (110)

4

GENERAL PARKING (212)

ACADEMIC AREA 32.8%

o

D~PARTM~NT OF ARTS AND ARCHIT~CTUR~

FACAD~ CONTROL ~mploying

a

AshO'"

brutalist

facade control to all the buildings on site. Use of

~NCLOSUR~ D~TAIL

exposed

and

The elevated pathway will be punctured throughout with

concrete with latent frame windows and concrete louvres. This

dedicated green spaces. Since it is raised deep root tree cannot be planted, instead small shrubs abd bushes will be used to create topiaries

bricks

goes well with the lush

GYMNASIUM

I

S~CTION AA'

BLOCK

LlT~RATUR~&LANG. BLOCK

While

o

Fig

Street Light

Roadlighl Gangetic Primerose

Concrete Pavers

green spaces around.

ADMINISTRATIV~

o

S~CTION BB'

~NTRY TO ACAD~tv1IC SPIN~

All the departments collectively

of the university are

merge through a wide pedestri-

an corridor.This corridor starts from a drop-off point and ends at an open amphitheatre.Elevated

greens puncture the

corridor at various intervals, and also serve as sitting spaces Ramps accompany staircases for a barrier-free experience

ni~SPIN~ The academic zone is designed to be the signature style of the university, with its very unique voids and volumes The large width of the pedestrian corridor in between departments

helps in creating

zones of congregation for students, thus also acting like a plaza

C~NTRAL GR~~NS The central open space is the largest unified green area of the univsersity It acts a buffer zone, helping a user to transition from the academic to the residential zone or vice-versa. The pedestrian paths are laid out to respect freedom of movement of the user.

TRANS!=ORtv1ABL~

~OUSING

This project is about challengingthe housing proposals of the govt. in the current context, by providing a better solution for the current housing crisis in New Delhi. An additional layer of sustainability is in playas well. year:

2019

place:

BK Dutt colony. NCR

typology:

housing

Group based (3 members)

-urban context -research -net zero -policy intervention

BRI~!= INTRODUCTION The brief of tihs design project deals with an alternate to the housing solution provided by the government of india at the BK dutt railway colony. The existing flats are to be demolished and new ones are to be built. The design aims to challenge the government proposal on various levels and to provide a suitable, sustainable and economically viable living conditions.

t:J c::::J

o

GO

SIT~ & BY~ LAWS New Prem N~ar, Bk Du,)colony, New Delhi, 28.5784° N, 77.219r ~ Total site area: 7 ha = 17.4acres JJ Cluster area: 0.44 acre Max permissible ht. 45 M Ground cover: 40% Max achievable built area: 15.4 ha Population density: 300 ppha

R~QUIR~M~NTS Site area: 70,000 rrr' f=amilysize: 5

eAR~A

f=AR:2

WITf-i 2 i=AR

AR~A WITf-i 4 i=AR

Population density: 300pph

TYP~ II: 240

Total population: 2100

TYP~ III: 192

Total flats: 480

TYP~ IV:48

SIT~ ANALYSIS

BUIDING USE

URBAN FABRIC Built: 29.4% Un-Built: 70.6%

_

RESIDENTIAL

_

GOVT. OFFICES _

_

COMMERCIAL

_

INSTITUTIONAL

DISTRICTCENTRE

_

RECREATIONAL

The urban context is of varying nature in terms of den-

As per the land use in M PD, the site lies in residential

sity, across the site. The dense kotla settlement of low heighted structures are present in contrast to the

sector, hence major areas around are residential

planned nothern lodhi colony

CONTEXT HEIGHT MAPPING

_G+l.G+2

_

G+3.G+4

ASI HERITAGE ZONE

_

G+5 AND HIGHER

_

PROHIBITEDAREA 1100 M) _

The only high rise structure is Thyagraj stadium on the

The area in 100 m proxity

southern side. can be used as a potential energy trading

regarded as prohibited

source

in the zone.

AIRPORT FUNNEL ZONE

_

APPROACH ZONE

The site lies between

_

transition

REGULATED AREA (300M)

to Najaf Khan Tomb

IS

area and no built up is allowed

[Source: AMSAR 2011]

TOD DEVELOPMENT CORRIDOR

TRANSITION ZONE

zone and horizontal

On the western end of the site 7000 sqm are within

plane zone of safdarjung airport ,hence the maximum

M RTS TOD corridor

permissible height varies between 22 m to 45 m.

section.

[Source: AAI ,Ministry of Aviation Guidelines 2015]

,hence,

FAR of 4 applies on this

PART A: TRANS!=ORMABL~ ~OUSING CHALLENGE Dealing with a rapidly expanding urban population can post a large problem to developing nations. Places such as Delhi, find themselves unable to keep up with their rapidly expanding urban populations.

-- -

People congregate in illegal slums where disease runs rampant, adding to the health problems already present becauseof other pollutants such as sulfur dioxide and hydrocarbons. As the city grows in size,it expands out into viable farm land, causingthe unemployment rate, as well as food prices, to rise, causing more problems for the lower classes. SPATIAL GROWTI-.j 01= DRI-jI [TIM~S 01= INDIA] Before 1950

1950 to1975

1975 to 1997

1997 to 2000

.'\

The Indian culture puts emphasison living in a joint family. which has its benefits in various dimensions Takingthis mentality into account, if one expands his/her family into the same living unit, the space isjust not enough. This encourages people to buy new homes,or construct new ones on unbuilt land. The flaw with the current provisions under PiVlAYis increasing occupancy of the same Indian family over multiple locations due to their unit sizes- failure to envision for a longer period (family growth).

~N~RGY CRISIS IN DRI-jI

"Delhi's power demand touches record 7,409 iVlW on Tuesday" -[liveiVIINT,2019]

"Delhi government in 2016 brought a policy related to solar energy which has set a target of generating 2,000iVIW on solar power by 2025." -[f=inancialbpress, 2019]

Even more such articles show that delhi is in a major electricity consumption crisis as of now and is projected to be in such state for the coming decade. even solar power will help in coping with 7% of total requirements.

.~.~ . ••• t.;.t

The electricty demand of delhi is on a dramatic rise annuailly

The land parcels are limited, and undue constrcution should be discouraged

The population rise is an aspect which is difficult to control and is also on the rise exponentially

APPROACH THE TRANSFORtviABILITY

AND NET ZERO APPROACH

•••••

Via Policy Intervention (taking permission from authorities for additional construction) - Building as per the existing bye-laws, all the while proposing for accomodating the increased population density in the near future, and planning for it predictively.

- Designing a unit which can further be expanded with the help of attachable modules according to the various needs of the user. - Producing modules of same size and varying the typology of the flats by varying the number of attachable modules. -An average Indian family expands over a course of appx. 40 years, and needs more space to live in eventuality. -If this growth is internally contained comfortably, the housing will not only become a growth-capable

housing

model for other projects.

establishing a grid on the basis of spatial standards so as construct modular spaces

~

A typical structure

A typical structure

plan for a type IV unit

plan for a type unit

III

A typical structure plan for a type unit

II

to

BUILDING COR~

/; COURTYARD

conceptual cluster plan showing a

structural

typical cluster arrangement with fixed place of core and internal

prefabricated construction

courtyard

representation steel

of frame

the spatial relationship

showing

formation of the space could be semi built or fully built

PART B: INCR~M~NTAL SLUM CHALLENGE Most central

city slum areas are already

at a very high development

density

- often

from

600

to 1800

persons/hectare. Most high-rise developments

do not have a higher density than this. Moreover, slum areas maintain a high level of

human/social activity (residential, commercial and industrial) at ground level, a situation which city managers and planners are now trying to re-create! The problem with most slum areas is nor their social and economic life, but their lack of environmental infrastructure

and social

and security of tenure.

SITE IN QUESTION:

BK DUTT COLONY

-BK Dutt Colony, is a locality which served as home to refugees from Pakistan, post Partition in 1947 -currently in a demolished sate, this locality also serves as a homeland for new prem nagar slums

CURRENT STATISTICS

2000pph

population

density

slum backyard collection of junk items

~135 ~

current number of built slums refered as houses

a typical slum street with narrow gaps and open drains.

general occupational demographic

On analysing the result it is observed that most of the habitants are engaged in activites

which are constrcited

on the ground

level.

hence the form of the slums. This result

led to the formation

of the underlying

concept

of

incrmental slum housing, without having to build high rise structures

approach towards the end of the end of the beginning

APPROACH Slum dwellers are used to a certain degree of freedom when it comes to building their own homes. +I-lis n-aro~r bu~ld.ingon one's ~wn ~erms is one that is long-I~ved. :rhe~ also have a dynamic interaction with file ~rouna level. This Innate behaviour IS taken away when a typical high-rise structure replaces those slums, rendering th-e dwellers

I:

dissatisfied and the homes inefficient.

~,

i

\

OFFERING SLUM DWELLERS A DEGREE OF INCREMENTALITY TO'Q''=JS=FGMlljE iHEIR-lj'WN He;

The traditi.onal building design in case of in.-situ slum rehab did not provi1de Ior eno 81 . b~eathable spac_~sJ/ punctures In the settlement and would result In a cluttered, dense slum. Also. the ]slum,sget Ilmltedlto as as straight vertical incrementation is carried out. ==-

q+l ~r

_BUILT

SPAC~S

Ei'lCOiVIiVIUNITY SPAC~S

placing 2 identical blocks in an adjacent manner. each having a min. area of 25m2

typical stacking in order to provide for incrementation

spacing equally

of each house. this stacking

directions

would result dense cluster

void shared equally

in

a

highly

Stacking in this manner allows for each house to get

placement external

individual incrmentation

provide maximum access

with

sufficent porosity in the mass

a central circulation to

out the 2 blocks In respective to create a large

a conceptual visualisation of a typical street inside the rehab. colony

APPROACH The approach

to bringing the concept

into reality was

fairly simple in terms of energy analysis. certain parameters such as height of blocks and the stacking of units in a manner to cater for introvert common

in india] and provision

planning [quite

of courtyard,

mutual

shading were set and various outputs were analysed based on radiation gained throughout the year. f=rom these the one with the minimum value was selected due to the predominant

hot climate of Delhi setting up of site bounds and allocation of open and built spaces

Defining entry points and hence fixing the majority of

allocation of planning grids with spaces in between for

orientation

pedestrian paths and walkways

permutations

for the blocks

Manual placement of a single cluster on site and defining the land parcels where the built masses will be placed

total radiation: 48.929Mwh/veor

total radiation: 47.828MWh/veor

total radiation: 47.794MWh/year

SOLAR PANR COV~RAG~ 1kWp solar rooftop plant will generate on an average over the year 4.6 kWh of electricity per day

13200 1V12 Or: SOLAR PANR UNITS 136620 kWh or: SOLAR ~N~RGY G~N~RAT~D

Average solar irradiation state is 1156.39W / sq.m

In

NCT Or: D~Lf.i1

Or: ~N~RGY 136800 kWh CONSUMPTION BY ALL ni~ f.iOUS~f.iOLD UNITS IN A Y~AR

Open users

Access with

connected

enables

more

than

load to

heavy 1

MW

buy cheap

power from the open market.

like

60% of energy requirements are met together with this permutation, solar panel arrangement and a solar farm

installation will be equivalent to planting ~------------~~This 4481 Teak trees over the life time

Solar

companies can now power fro m th eirs 0 I-"'-r-nc"'-r·llrc::--h..,..----

emissions mitigated tonnes.

different load cen

PERMISSIBLE r:AR: 2 GROUND COV~R: 33% ~CS: 2 CARS/looM2 BUILT r:OR TYP~ IV 1.5CARS/100M2 BUILT r:OR TYP~ III 1CARS/100M2 BUILT r:OR TYP~ II f.i~IGf.iT: 20M PPf.i: 300pph

ACHIEVED GROUND COV~R: 32.3% 546 CARS: 182SURr:AC~ PARKING 362 UND~RGROUND PARKING type 2: 208 units type 3: 237 units type 4: 45 units

LEGEND

Terminalia arjuna (arjun tree) •

Delonix regia (gulmohar)

"

Plumeria alba (champa)

total built up: 53682.4m2

••

•

. 2'801_

[MNR~ SOLAR CALCU

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SOLAR PANR COV~RAG~ 1kWp solar rooftop plant will generate on an average over the year 4.6 kWh of electricity per day

13200 tvl2 01= SOLAR PAN~L UNITS 136620 kWh 01= SOLAR ~N~RGY G~N~RAT~D

Average solar irradiation in NCT 01= D~Lf.i1 state is 1156.39W / sq.m

~AST R~VATION

136800 kWh 01= ~N~RGY CONSUMPTION BY ALL ni~ f.iOUS~f.iOLD UNITS IN A Y~AR

Open users

Access with

connected

enables

more load

than to

buy

heavy MW

1

cheap

power from the open market.

60% of energy requirements are met together with this permutation, solar panel arrangement

.--

__

~.-

lv~~OQ_

L.a_n_d_a_s_o_la_r_f_ar_m __ ----l This installation will be equivalent to planting 4481 Teak trees over the life time Ivl +2400

Open Access will ease the power Open access source: /, tase si b f Thyagraj i stadium S o~ age since anum er 0 power Ik I [Dueto presence-of a"huge solar ~ ~ p~OIl,ucers i e So ar energy rooftop it s~pplies su~ companies can now transmit_ellergyi~tothe~

f

h·

I

k

I

power rom t err so ar=par s t~ different load centers.

II

Carbon dioxide emissions mitigated is 2801 tonnes. -, [MNR~ SOLAR CALCULATOR~

: I I

Ivl-600

-.._

_.III"W1"W1"W, 11~II-ll

II

SLUMvmTICAL S~CTION

PERMISSIBLE I=AR:2 GROUND COV~R: 33% ~CS: 2 CARS/100M2 BUILT I=ORTYP~ IV 1.5CARS/100M2 BUILT I=ORTYP~ III 1CARS/l00tvP BUILT I=ORTYP~ II f.i~IGf.iT: 20M PPf.i: 300pph

ACHIEVED GROUND COV~R: 32.3% 546 CARS: 182SURI=AC~ PARKING 362 UND~RGROUND PARKING type 2: 208 units type 3: 237 units type 4: 45 units total built up: 53682.4m2

LeGeND

••

shopping complex

Terminalia arjuna (arjun tree)

N Delonix regia (gulmohar)

Plumeria alba (champa)

(}1

m Ill s]

...-.

shopping complex

SLUiV1 ROW S~CTION

f-iOUSING

AA'

BB'

ROW S~CTION

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RI:::VATOR SPACI::: i=OR I:::XPANSION STAIRCASI:::

Cluster

type A

CONNON

ARI:::A

Cluster

Slum rehab cluster

Group

housing

Slum rehabilitation

type B

L02

S~~LI: ~ANG

The aim of the competition was to design a product/ furniture item with the spatial context of an interior space, keeping in mind the practical construction aspects. year:

2019

place: typology:

furniture design

Group based (3 members)

-interior design -minimalism

L02 Shell-Hang is a wall mounted shelf unit and a hanging unit. All the horizontal members have an extendable front, which can be used as a hanger.~ach extendable horizontal member also consists of L~D lights facing the shelf thus giving an interesting play in light & shadow when members are extended.

The approach which lead to this design was pretty simple in terms of form and function. The aim was to design a product with a multi-dimensional function, meaning it could multi-task at any point of time

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Mahogany wood was kept in mind while designing the piece beacause of its strong color. The form shape and color together in a balanced manner to give a focal appearance

The extendable front panels were thought of in integration with the idea of lighting. the pulling causes a dramatic lighting which IS produced by a L~D strip, with the switch triggered on the pull

Provision of rotatable hangers at the front edge of the panels increase the functionality and storage ~,--12---------) I

53

I

~

54 23

I Metal c -channels bolted onto the side of panels

[ALL DIMENSIONS IN INCHES]

Right elevation

SIGNAG~ POL~

The aim of this studio project was to establish an existing problem in the public context and generate a viable solution in the form of a design intervention. year:

2017

place:

Jamia Millia Islamia, New delhi

typology:

public design

Group based (4 members)

-public survey -wayfinding -intervention

METHODOLOGY

Identification of a busy node inside or outside of campus. the selected place was a 4 way node connecting 4 different pathways

Layout plan at every entrance

I-Iandy maps

Surveys conducted [physical & digital] showed that node needed an identity, sort of a subtle yet focal and functional entity

_

1:::==:lI miI

Route maps

Wifiaccess Signage

_

The design intervention that was most suitable in order to mitigate the problem was placement of some sort of sign post which indicated the direction and the place of important locales.

By conducting surveys and assessing the feasibility the placement of the entity was zeroed down to this location. As this location served the best visual interaction from all directions.

SITE PLAN

\ \ \ \ \ \ \ \ \ \ \ \ \ \ \

Public Interest Design Preference Survey

Public Interest Design Development Survey

Name

The pole was placed on thls particujar spot \ by taking into consideratio~s all the:factors which would affect the functionalit¥ \ \ \ \

f,..;l.Ihy/Oo:p:::ntmoml' Faculty/Department'

I I I I I I

Being:. P~f\ of JMI. ClIl1you ';31 :1>:>1 you h~'{",,.:.ti",I:octolily.,~pIOl'.,.dIh" wholecl>mpo.l';?

0O~ 0··,··, Onyourfu,;t.,.,,,;\ \0 JMI,wh:.t.... ""e thePfobl~n,;youfx~ :lc<="""ibiily?

In which area(s) do you think people \vho might be visiting the campus for the • (,rst time tend to get confused as to where to go? I Which area(s) do you think need instant implementation of signage to guide people who might be visiting

lheca~sfortheflrsttime?

rmled:o

o Do you ,;till fC'<:llh3\ rou ':.ce problC'fT'i'; in loc,,:;09

bndm3lk,;

in~e

th",

c:.mpu,;?

If any suggestions or solutions or problems related to accessibility in our university. pleaselet us know

Do you feel it would be easier to explore the campus if there were more signages?

Wh.:!t~gtution~ C::Inyou ~Ll99.,:t 11'1::1\ ",;I h~ IhC'c~mQu~?

Do you f.,..,tit wodd b., c".~"" to ~plorC' \1'1" whot" c~mpu:: if Ill""","'''',''' o:;i9"'::I9<:' d:'C"<;tin<;J:tVu \0 'NC'rybndm~,k/f::lcultyldo:p:tl\men\?

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you n::lvi9"'t.,bio\t'" ",hilt: C'XPk!.in9

CONC~PT

MAT~RIALS

The intent was to establish a signage that would symbolize the trees through its shape and [orm.; and also quickly guide a pedestrian or vehicle by directly pointing at the direction of the target area, rather than having arrow guides that ask for more attention span.

The main frame of the signagewas made out of steel.

A foundation of signage.

300

x

300

x

300

Vinyl stickers were added on the board to give the desired vermillion green shade. The signageboards were chosen to be made out of acrylic board [PCC] was made in the ground for the

The design process spanned over a time period of design was executed by the end of April 2017.

1

month, and the

A week or so after design completion, a sample of people were asked if they made use of the design.

Curb Stone Level - +15Q"",

• Yes, I've used it • No, I have just seen it •

I have just heard about it

Reference map

Bill of Quantities ITEM

SIZE

Steel Pipe(340 grade)

8ft.

<'600

Steel Pipe(340 grade)

15ft

<'1125

Steel end caps

20mm dia

Hollow steel

50mm dia

QTY.

4

COST

<'80 <'200

crown sphere Plastic carry hooks

8

<'32

Acrylic boards

500mmX200mm

4

<'1600

Printed green

500mmX200mm

8

<'400

6

<'200

vinyl sheets Cutting and smoothing wheels

Labour Charge [cutting, welding, polishing,and on-site installation] TOTAL

tv1ISC~LLAN~OUS

A collection of non academic work done throughout the years.

individual

AREA STATEMENT OF FACULTY QUARTERS BLOCK (G+51

@-~1-----1--@-

533_69SQ_MTS

+---~~~d!I-"~~~"'lF

@- ~--.~~~"o~o--I~ @-

®00-

533_69SQ_MTS

i--+-l--

t---,i';iP=~

NOTES :-

7_FIRETENOERPATHSHAUBESURFACEDWITHINTERLOCKINGGRASSPAVERS a.ALLCUR8HEIGHTSARELESSTHAN100MM{4")INAREASOffIRETENDERACCESS

PROJECT

SCHOOL OF PLANNING & ARCHITECTUREAT VASANT KUNJ, NEW DELHI WORKING

DRAW(NGS

DRAWING TITLE :FACULTY BLOCK GROUND FLOOR PLAN

FACULTY RESIDENCES AT SPA NEW CAMPUS Working drawings were aloHed to be draughted by taking reference from older files

FIRST FLOOR PLAN

NOTES :-

7,FIRETENDERPA,THSHALL9ESURFACEOWITH,NTERLOCKINGGRA,SSPAVERS.

8. AllCUR8KEIGHTSARELESS THAN100MM(4")INAREASOFFIRETENDER ACCESS

PROJECT SCHOOL OF PLANNING & ARCHITECTUREAT VASANT KUNJ, NEW DELHI WORKING DRAWING

TITLE.

DRAWINGS STUDENT'S

COMMON

GROUND &FIRST FLOOR PLAN

GROUND FLOOR PLAN

STUDENT COMMON

AREA, SPA NEW CAMPUS

Working drawings were aloHed to be draughted by taking reference from older files

RIDGE

PROJECT SCHOOL OF PLANNING & ARCHITECTURE AT VASANT KUNJ, NEW DELHI

interiors for new office floor under construction at CPWD south division, RK puram

GRIHA

COUNCIL PRESENTS

Acknowledged by the United rating

system

Nations

of

tool

in 2009

in 2007

Government

as an

innovative

India byMNRE

of Sikkim

of 3 star GRIHA

rating

semi-Government

has mandated for all the structures

a minimum

Government in the

and

GreenRating for IntegratedHabitat Assessment

state.

"India's own Rating Systemfor Green Buildings"

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Developedon designprinciple Wh a t get s Mea sur e d . get sMa nag e d

Benefits of adopting GRIHA GRIHAworks on an integrated oesign prlnciple.We follow a robust processi.e, handholding, site visits to check implementation, third party verification, and post construction performance validation. We update our guidelines every two years,to match demands of construction industry and the changing

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energycon,umption

What are green buildings?

e

A green buildmg ISnne that makes least Impact an the environment. Its design must be climate responsive, utmost care must be taken during construction to preserve the environment and It must be operated to utihze all resources efficiently. sustalnebnttv is nat added an to conventional bUlldmgs but It lies Inthe approach of designing, constructing and operating.

Join GRIHAcommunity

t

GRIHA Council

As an Individual

1i2D®1U'

Presents

Green Rating for Integraled HabilatAssessment

GRIHAEvaluatorsare involved in ensuring third party and credible assessment of GRIHAregistered projects in their field of expertise.

GRlHA is a rating system for green buildings in India and it is a tool to facilitate design, constructions, operations of a green building and in turn measures "greeness"of a building in India.

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1 Prof:'~;onaIS'CertifiedprofessionalsassistGRIHA

projects in documentation and partake in awarenessprogrammes.

1

CE (Agents of Change for Environ-

Platform enabling interaction with eru Iditenational and international speakers, facilitating awarenessabout current re-

ment) iThisstudent membership programme will bring together future generation and provide interactive platform to propagatethe knowledge of sustainable habitats.

~:+:~

A collection of various posters, bruchures, book covers, and Pendrive cards designed during

As an Organisation

'@liG'f'@'l9IiHomes

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~

Apartments

Offices

Schools

For Corps

Institutes

Hotels

LargeCampuses Sports &Townships Complex

Follow

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!ow:~~;:~~;.·,

Banks

us

GRIHA App

This Belongs

~••~:f-~~ t:, ~:,

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submutcdrc UNFCC in2015

GRII-IACouncil,A-260, Bhishma Pitamah Marg, Defence Colony, New Delhi-II 0024 Tel.:(+91 11) 46444500/24339606-08 Fax:(+91 11)24682144 & 24682145 E-mail: info@grihaindia.org Website: www.grihainida.org

10:

GRJDH[A

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COUNCillL GRIHA Council

Green Ratin n lor lmcuratcd

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info@grihaindia.org

®

erganisations who beli:ve in sustainable development canJoinhandswith bRIHAand becomeassociatemembersto promote this common goal.

growth

Rccognizcdaslndia's owngreen building ranng systcm inlndia'slNDCs

Acknowledgedby the United Nations as the innovative 1001 in 2009

Fo;;roouct

att,UNA%®iifhli•

GRIHA Endorsements

Recognizedasthe National green building rating systcm cf lndia By Ministry ofNcw and Rncwablc Encrgy, Govcmmcntof'lndia in 2007

Hospitals

It ~rovidesinformation about green bulldlng products which may be used to makesustainablehabitats.

WlI1oI.grihaindia.nrg

l labitat Assessmellt

India's own Green Buildingrating system

Freating 8.warenessIhrough 8.cademICS: Leadingto Youth'sSustainable lrran~formation-::Bringin~g together in~tjtutjonal headstowards the common goal of educating and senstttstng youth about green habitats.

internship under GRIf-iA

'ONLY

VISAGE'

3DS MAX [KI:::YSI-IOT]

'NIGHT TO REMEMBER' 3DS MAX lV-RAY]

'SHATTER' 3DS MAX [KI:::YSI-IOT]

'A LONG WAY' 3DS MAX lV-RAY]

'ni~ ~y~' [J=RI:::I:::STYLI::: DIGITAL SKI:::To-n

[!]l~[!] ...

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awatans47@gmail.com

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lin ked in .co m/i n/awata ns- tri pat hi-890327121

+91-9999846358 htt pS:/ /www.behance.net!awata

ns47 cds8

Jamia Millia Islamia

[Vth year]