Aritro De - Architecture Portfolio by Aritro De

ARCHITECTURE

PORT FOLIO Selected

works

2018-21

A ritro D e SCHOOL OF PLANNING AND ARCHITECTURE, NEW DELHI

Curriculum Vitae Goal I’m an architecture student, graphic design and 3D modeling enthusiast. A believer in the ability of sustainable architecture, research along with design for making the society sustainable and reliant, having a positive impact on the world. I believe architecture is not just about buildings, its about the experiences, the comfort and the feeling that one realises. Energy efficiency and sustainability is an important aspect of building design and achieving it through design is my goal.

Aritro De

Student of Architecture

Personal Details Date of Bith: 29 October 2000

Education Present

Bachelor of Architecture School of Planning and Architecture, New Delhi

2018

Grade XII Kendriya Vidyalaya No. 1, Jalahalli, Bangalore

Language Proficiency English Hindi Bengali

2016

Grade X Kendriya Vidyalaya No. 1, Jalahalli, Bangalore

Get in Touch!

Courses and Certifications

Address: #201A, DS Max Silver Nest, Best County 2, Vidyaranyapura Post, Bangalore, Karnataka 560097

2020 ECBC Compliance through energy simulation Introduction to Energy modeling Organised By: Energy Conservation Building Code

Gender: Male Nationality: Indian Marital Status: Single

Mobile: +91 8660820131 Email: aritrode12@gmail.com

2020 Net Zero energy and Water Buildings Organised By: Solar Decathlon India

Instagram: @aritro.de12

2021 Sustainable Interior Design Week | April 2021 Organised By: UGREEN U.S.

LinkedIn: linkedin.com/in/aritro-de12207b1a0

2021 Renewable Energy and Green Building Entrepreneurship Organised By: Duke University | Coursera

Technical Skills

Experience 2019Present 3D Modeler & Visualiser Organisation: Freelancing 2019-20 Volunteer Organisation: NASA India

• • • • •

Graphics Autodesk AutoCAD Adobe Photoshop Adobe Indesign Adobe Illustrator Sketching/Drafting

Energy Modeling • Design Builder • Insight 360

BIM & 3D Modeling • Trimble SketchUp • Autodesk Revit • Rhinocerous 3D • Blender 3D Other • Microsoft office Suite • Lumion • Twinmotion

Soft Skills

Workshops 2021

• • • •

Rhino-Grasshopper Organised By: SPA Delhi

2020 Design Builder Organised By: Design Builder Australia

Critical Thinker Team-player Organizational Eager to learn

2020 CGBMT Bamboo Organised By: CGBMT

Interests

Achievements 2021 Grand Winner Organised By: Solar Decathlon India 2021 Divisional Winner-Education Division Organised By: Solar Decathlon India

Travel

Photography

Gaming

Painting

Design

3D Modeling

2020 Finalist-KARWAAN National Design Competition Organised By: KARWAAN India 2020 Shortlisted-Annual NASA Design Competition Organised By: National Association of Students of Architecture, India

CONTENTS

ORD International School

Page 06-27

Experience

Page 28-33

Eco-Lib

Page 34-39

Tapovan

Measure Drawing

Other Works

Educational Building | Solar Decathlon India 2020-21 | 3rd Year

Cultural Center Design | 2nd Year | 4th Semester

Library & Skill Development | Nippon AYDA 2020 | 3rd Year

Isolation Centre | KARWAAN National Design Competition | 2nd Year

1st Year | 2nd Semester

Exercise

Page 40-47

Page 48-53

Page 54-57

An Educational Building

Solar Decathlon India Competition SPA Delhi | 3rd Year | Year 2020-21

Academic & Competition Entry - Group

Site: Sector 134, NOIDA

he concept of sustainability has been present for the last 30 years, yet we’ve been seeing a steady increase in greenhouse gas emissions to which Buildings are the largest contributors. ORD International school is an IB-affiliated educational building located on a site area of 3.7 acres, with an occupancy of 2400 students. It is designed for project partner ORD Towers The project as a whole is designed and planned by carefully weighing between cost and performance at every step. The outcome is a net-zero energy and water building with a healthy learning environment for students and an impressive affordability status compared to similar schools with the same facilities.

ORD International School

ORD International school Design Process

Preparatory Work Getting familiar with the competition brief, making a team and setting performance goals. Pre-design Analysis & Design Development Splitting into smaller groups and experimenting with design; performing simulations and analysis; developing 6 different designs. Identifying the Most Suitable Design Performing a SWOT analysis to assess the 6 designs and choosing one to move forward with. Consultation Conducting meetings with industry partners; consulting TRG members.

Conclusion of Final Report Continuing our progress on the ten contests keeping in mind the feedback received from the jury and polishing the final report.

Finding a Project Partner Deciding on the building typology and finding the ideal project.

Acquiring New Knowledge and Skills Attending webinars, completing self-learning modules and exploring new softwares.

Allocation of Work Division of work among the group members with respect to the ten contests; defining everyone’s role in the team Qualifying as Finalists Studying the technical aspects while preparing the deliverable for elimination round

Preparation for the Final Jury Working towards the presentation and video required for the final jury event.

Page 7

Solar Decathlon India 2020-21 Market Potential

Context market

Potential Market in Sector 134

Proximity

Global

Sustainable

Well Being

SITE

6 / 59The

school is being designed to cater to the mixed diversity of people living in the locality of Sector The ARCHONS 134. Being developed in stages, the area holds multinational offices with high-class occupants. The wish town is scattered across 4 nearby sectors and this is a site provided for an educational building. Solar Deacathlon India

Form Development 1

Placing bock in E-W axis

Cutting the block in 3 sub block

Page 8

Stepping down at south face to allow daylight

Joining the 3 blocks together

Planning Courtyards

Placing functions

ORD International school Ground Floor Plan

GROUND FLOOR PLAN 1. Canteen 2. Futsal ground 3. Cycle stand 4. Car parking 5. Air handling unit room 6. Pre-Primary classroom 7. Administration office 8. Ramp 9. Primary classroom 10. South courtyard 11. Dance & music room 12. Studio 13. North courtyard

Page 9

Solar Decathlon India 2020-21 Room Layouts

Class Interior

Berger Bison Acrylic Emulsion

Armstrong Fiber Ceiling Panel Products tested by ARAI NRC value: Up to 0.9 NRC Up to 50 CAC

Techno Acoustic Wall Panel NRC value: upto 0.85-0.9

Classroom (50 sqm)

Mild steel Locker

Laboratory (100 sqm)

Page 10

Wooden Bench Armstrong Vinyl Tiles Terrazzo Flooring NRC value: up to 0.2 NRC value: up to 0.15-0.2 (Senior Classroom) 0.3 Reduce 20%-30% (Junior Classroom) of airborne sound

ORD International school Comfort & Environment Quality Solar Decathlon India 2020 I The ARCHONS

Radiation

Sunshades

South side Horizontal Horizontal fin fin 675mm 675mm eacheach South-east Horizontal fin fin Horizontal 750,600, 750,600, 450mm. 450mm. Vertical fin fin Vertical 750mm deep.deep. 750mm

Side - South Side - South East Proposed vertical shading angle - 50° vertical shading angle - 45-48° horizontal shading horizontal shading angle - 35° adiation being the major source ofnoheat gain through the envelope, Using east side

Baseline

South-west Horizontal fin fin Horizontal 750,600, 750,600, 450mm. 450mm. Vertical fin fin Vertical 675mm deep. 675mm deep.

optimum Window-Wall Ratio, efficient sun-shades, and mutual shading Figure 12: Shadow through buildings, creation of low radiation blue pockets onMask the southern walls is done. The building being mixed mode, the intake of treated fresh air to the spaces is from the AHU. Considering the bad Air Quality in Delhi NCR, the air has to be treated for CO2 levels and different particulate matters. Hence Efficiency Air filter is utilised to serve this purpose which is infused in AHU itself. Air filters will reduce the Comfort Daylight High Analysis Daylight concentration of PM2.5 to be under 15ug/m3 , and PM10 to be under 50ug/m3 . The CO2 levels have to be maintained below 1000ppm as per ASHRAE guidelines, to cater this, fresh air is let inside the classroom maintained at 5 ach as specified by NBC. The materials used for construction is also environment friendly and have low VOC content. Contaminant distribution due to the occupancy of spaces within the rooms is also to be counted. This is influenced by several factors such as supply air method, contaminant source type, location within the space, heat sources, Lights Off On and space height. To cater to this, Displacement Ventilation is proposed inside the spaces, as the occupied Light Level zone in aTotal classroom is generally within 1.5 m (considering the average heights of the students varying with LED Daylight the age groups), while the ceiling height being 2.8 m, so the rest of Daylight the space is not required to have the Autonomy Contribution Contribution conditioned air. Displacement ventilation helps in improving occupant air quality by reducing the contaminants in the occupied zone of the rooms, and due to the general upward movement of Autonomy air causes contaminants to Daylight concentrate within the upper zone, and hence is extracted out from the return air duct. The diffusers are mounted on walls acting as an aesthetic element in the space and are also designed in consideration by controlling the stratification of temperature in the occupied zone based on the levels mentioned in ASHRAE (the temperature difference between the head and the foot level should not exceed 3°C for a standing person and 2°C for a seated person) for maintaining occupant comfort. This also produces low noise. 3 STEPPED Lighting Sensors VEGETATION DOUBLE HEIGHT BREAKArea in Range (m2) in Range TotalTotal FloorFloor AreaArea Area AreaArea in Range (%) (%) in Range (m2) COURTYARD Annual Sunlight SHADED Exposure

21 / 59

sDA

7285.9 7285.9

4890.6 4890.6

67.1267.12

ASE

7285.9 7285.9

6632.2 6632.2

91.0391.03

Solar Deacathlon India The ARCHONS

OUT SPACE

Annual Sunlight Exposure

Page 11

Solar Decathlon India 2020-21 Comfort Data

he analysis of operational hours was carried out throughout the year by Superimposing the Temperature output from Wind Tower with the IMAC mixed Mode model and found that 77% lies in the comfort range, & can work without refrigerant cooling.

lso focused on Microclimate on our site by incorporating courtyards for adaptive transition between spaces and reducing the building’s climatic stress.

Micro-climate VEGETATION

DOUBLE HEIGHT BREAKOUT SPACE SHADED COURTYARD

32*C

36*C

36*C 26*C

28*C Source: IMAC set points & Design Builder simulation

Page 12

26*C

ORD International school Facade & Passive Performance

Chajja 350mm

Terracotta Facade detail in back elevation Terracotta Facade in elevation

Horizontal Sliding window

Teracotta dry cladding on the facade along with planter beds to keep the facade cool

20mm Kota stone finish

200mm Agrocrete wall Planters

EXTERNAL WALL SECTION

External wall composition

Page 13

Solar Decathlon India 2020-21 Displacement Ventilation

Displacement Ventilation

nhancing the Indoor Air Quality, keeping in mind the pollution levels of the region and the contaminants released by the occupants. Analyzed the fresh air requirements and adopted the Displacement Ventilation method ensuring that fresh air is adequately maintained at all times. This method supplies the air at a lower level and comes in contact with the occupants. As it becomes hotter, it takes all the contaminant particles along with it and accumulates at the top layer in the zone. It is then extracted out by return air ducts placed at the ceiling level. This system not only conditions the occupied zone but also prevents the pollutant particles from mixing with the supplied fresh air eliminating the need for ceiling fans.

Page 14

interact with each other as well as with teachers. The variations in tube adjacencies create unique combinations of light, color, texture, and pattern. These partition walls are placed in the play areas as well as between the pre-primary classes. ORD International school We also intend to include the use of various interesting cardboard furnitures in the campus, which could trigger the students Partitiondesigned & Furniture to open up their minds to the numerous possibilities around them with respect to reuse of materials in innovative ways. Since young minds are curious and readily grasp their surroundings, all they rchitectural elements as simple as partition walls are need is designed a little push in order and to enhance their as interactive interesting miniability mazes to think rato double up as play areas students enhance their tionally and responsibly. Thefor use of thetointeractive partition walls curiosity and help improve their physical activity, while and cardboard furnitures could act as that boosting factor for the also adding to the quality of these spaces. students.

Inclusion of various interesting cardboard designed furnitures in the campus, which could trigger the students to open up their minds to the numerous possibilities around them with respect to reuse of materials in innovative ways. Since young minds are curious and readily grasp their surroundings, all they need is a little push in order to enhance their ability to think rationally and responsibly.

Sitting bench

Table & Chair

Final Design Report, April 2021

Interactive Partition

18 Page 15 Figure 7: Section through Primary Classroom

Solar Decathlon India 2020-21 Energy

nalyzing it throughout the year, found out that the major component of consumption is Space conditioning. Starting with the passive strategies, reduced the conditioning loads by almost 80%. But opted for complete mechanical ventilation, the fan usage increased and the overall reduction came around 60%

Baseline EPI (kWh/m2/yr)

Target (kWh/m2/yr)

Proposed EPI (kWh/m2/yr)

51.59

40.00

21.06

59.17% Reduction

Page 16

ORD International school Renewable Energy Generation

System size: 290 kW Roof Area covered: 56% Generation: 4,91,656 kWh Cost savings (proposed): Rs 34,40,348

115 Panels

oida’s Climate provides an immense potential for solar power generation. With a total plant size of 290kW, generating around 5 lakh units of energy annually. Not used the whole roof area, providing the opportunity to expand the system if necessary.

234 Panels

371 Panels

EPI

(kWh/sqm.)

Generation

Consumption

Net Site energy

491,656.48

321,291.26

-170,365.12

32.21

21.06

-11.16

NET POSITIVE BUILDING Page 17

Solar Decathlon India 2020-21 Water Performance Features

Building Water Demand

Annual Water consumption

23640 kL

Water used from Alternate Sources

20129 kL

Average rainwater Recharged to Ground

4462 kL

28% plant cover

63% Reduction Landscape Water Demand

70.52% Reduction Innovation

41% rainwater collected & reused

Interactive dashboard to create awareness

Permeable pavers

Efficient plumbing fixtures

Modular Pods

aking use of the limited spaces available, the use of adaptive and easy-to-install modular pavilions. These kits can be installed in any desired combination to create a range of different kinds of spaces catering to different needs and functions. Changing the size and scale of the modules further expands its usability; stage for functions and podiums being examples of useful elements for a school. It can even be rented out for any other possible use.

Page 18

ORD International school Fiber-optic lamp

nnovative sunlight-catching units to focus on the natural light and use it where it cannot reach easily. This light brings a feeling of skylights in the spaces where they are not possible. Moreover, the real-time light intensity brings beautiful variations during the day. The Optical lamps work on the concept of concentrating the natural light using convex lenses. It is then directed to optical fibres taking to the space needed to be lighted. The optical fibres diminish the loss of energy during internal reflection and hence more useful for this technique. The intensity of light output depends on the number of units.

Page 19

Solar Decathlon India 2020-21 Structural system

10MM Ø DISTRIBUTION BAR @ 450MM C/C 10MM Ø MAIN BAR @ 300MM C/C BENT-UP ALTERNATIVELY

120

2-10MM Ø ANCHOR BARS 5-24MM Ø BENT UP MAIN BARS

120

oida/New Delhi lies in the zone 4 category of earthquake zones. The design has taken into consideration the possibility of an event of earthquake and we have tried made the building earthquake resistant. The building frame system used 8MM in Øour 2LVS design is Special Reinforced concrete moment resisting frame.

800 680

680

800

480

600

Ductile detailing has been considered for the design. Separation joint of 0.75 cm has been given for giving space for vibration during an earthquake. 300

SECTION BB' SHOWING BEAM-SLAB REINFORCEMENT ACCORDING TO IS 13920:2016, IS 1893 PART 1 & IS 2502:1963

300

Structural Drawings

300

8MM Ø 2LVS

2-10MM Ø ANCHOR BARS

3-20MM Ø MAIN BARS 10MM Ø DISTRIBUTION BAR @ 450MM C/C

120 450

300

480

600

330 65

480

600

330

450

120

4-20MM Ø BENT UP MAIN BARS 10MM Ø MAIN BAR @ 300MM C/C BENT-UP ALTERNATIVELY

300

SECTION AA' SHOWING BEAM-SLAB REINFORCEMENT ACCORDING TO IS 13920:2016, IS 1893 PART 1 & IS 2502:1963

10MM Ø DISTRIBUTION BAR @ 450MM C/C

800 680

680

800

480

600

120

2-10MM Ø ANCHOR BARS 5-24MM Ø BENT UP MAIN BARS 120

10MM Ø MAIN BAR @ 300MM C/C BENT-UP ALTERNATIVELY

8MM Ø 2LVS

300

Page 20

SECTION BB' SHOWING BEAM-SLAB REINFORCEMENT ACCORDING TO IS 13920:2016, IS 1893 PART 1 & IS 2502:1963

300

TYPICAL SLAB (S2) REINFORCEMENT (CORRIDORS)

300x800MM MAIN BEAM

ORD International school 8500

2830

Structural Layout of classroom

300x800MM MAIN BEAM

6500

300x600MM SECONDARY BEAM

40 470 550

320 400 160

400

160

PLAN 400*550 COLUMN C2

Fig 19: Column reinforcement detail

320 400

PLAN 400*400 COLUMN C3

6500 9000 9000 6500

300x600MM MAIN BEAM

300x800MM MAIN BEAM

40 PLAN 400*450 COLUMN C1

320 400

450

370 40

2500

6500

300x600MM MAIN BEAM

9000 C2

S1 300x450MM SECONDARY BEAM

300x600MM MAIN BEAM

8MM Ø CROSS-TIE

S1 300x450MM SECONDARY BEAM

10MM Ø ANCHOR BARS FOR CROSS-TIE 8MM Ø 2LHS 20MM Ø MAIN BAR A'

2500

300x600MM MAIN BEAM

300x450MM SECONDARY BEAM

300x600MM MAIN BEAM

TYPICAL BEAM-COLUMN LAYOUT (G+3, BASEMENT)

2830 300x800MM TYPICAL SLAB (S1) REINFORCEMENT MAIN BEAM (CLASSROOM SPACES)

Column plan C1

400*450

TYPICAL BEAM-COLUMN LAYOUT (G+5, BASEMENT) B'

TYPICAL BEAM-COLUMN LAYOUT (G+4, BASEMENT)

830

SECONDARY BEAM

300x800MM MAIN BEAM

300x800MM MAIN BEAM 10MM Ø BENT UP MAIN BAR @ 300MM C/C S2 300x600MM

300x450MM SECONDARY BEAM

6500

2500 15500

10MM Ø DISTRIBUTION BARS @450MM C/C

2500

300x450MM SECONDARY BEAM

A 300x600MM MAIN BEAM

6500

300x600MM MAIN BEAM S1

300x800MM MAIN BEAM S1

2830

300x800MM MAIN BEAM

300x450MM SECONDARY BEAM

300x600MM MAIN BEAM

S1 300x800MM MAIN BEAM

8500 2830

2840 B

300x600MM MAIN BEAM

8500 2830

2840

300x450MM SECONDARY BEAM

2830

2840

2830 8500

2830

Ductile detailing of 8500 beam column junction as per C3 2840 IS 13920:2016 2830 & IS 1893:2000 2830 300x800MM MAIN BEAM

Page 21

Solar Decathlon India 2020-21 Resilience

Page 22

Earthquake Resilient

Fire Resilient

The design has taken into consideration the possibility of an event of earthquake and we have tried made the building earthquake resistant.

The building has down comer with sprinklers installed on all floors with pipe diameter of 150mm with valves on each floor. The construction type is of Type 1 and the walls have 2 hours fire rating against fire.

Future Expansion

Water failure

Use of only 56% of roof for renewable energy generation, there is a scope for future expansion.

In case of water failure, the building will sustain itself for 7 days on the freshwater storage on site.

Pandemic Ready

Power Outage

In case of pandemic situations, school is equipped with open spaces for community activities, modular classrooms for reduction of infections & inclusion of green scapes in the project for well being.

In case of a power failure, we can run the operations directly from solar using the DG set as a reference voltage by using smart inverters removing the need for battery storage.

ORD International school

lso, the retracting partition walls can be moved along to create spaces comfortable enough to use even in case of a pandemic like Covid. To meet the extended demand for fresh air requirements, VRF Outdoor units can be increased in modules without affecting the internal systems.

n case of a pandemic or an emergency, the multipurpose hall can be converted into a resilience shelter and can house numerous modular units. The hall also has a kitchen on the ground floor which can be converted into a community kitchen.

Page 23

Solar Decathlon India 2020-21 Affordability

Project Estimate

Proposed Design Estimate (in Million Rs) 5.0%

Direct Maintenance

Civil Works Internal Works

30.5%

MEP Services Equipment & Furnishing 48.7%

32.4%

21.3%

Administration Insurance

Landscape & Site Development Contingency

Marketing

Total Construction Cost:

Profit

INR 45.53 Crores

44.2%

Incremental Cost:

10.2%

General Expenses

INR 4.75 Crores 2800 Rs/sq.ft. 7% less than budget

Savings comparison Incremental Cost: ₹ 34,46,370 Energy Savings: 2,54,775 units/yr Cost Savings: ₹ 23,69,410 per year Carbon Equivalent: 2986 Trees

Incremental Cost: ₹ 94,89,510 Energy Savings: 4,91,312 units/yr Cost Savings: ₹ 34,40,328 per year Carbon Equivalent: 5757 Trees

Cost/Year Total Operational Cost

₹ 223,725,720

Expected Minimum Profit

₹ 68,000,000

school + client (30% margin)

Income Required

₹ 291,628,292

opex + profit

Min. Student fee required/term

₹ 132,560

2200 students

Incremental Cost: ₹ 1,05,78,692 Energy Savings: 2,05,956 units/yr Cost Savings: ₹ 22,43,302 per year Carbon Equivalent: 2413 Trees

Page 24

Remarks

he total project estimate is about 45 crores, coming around Rs 2800/ft². It is under the client budget of 3000/ft2. The minimum fees required for our school with a 30% profit margin is around 1 lakh 30 thousand. This is almost 40% of what nearby IB schools charge.

ORD International school

Revenue v/s Profit Business Plan

IRR- 14.15%

tration Expenses

Maintenance

IRR = 14.15%

Render Views

Courtyard

Revenue vs Profit

Futsal Court

School bus-stand with view to court

Page 25

8MM Ø 2LVS R.C.C BEAM STIFFENER PLATE300*600MM 10MM THICK BOTH SIDES OF TRUSS

OVED STEEL DECK SHEET

600 1200 600

2400

3000

DETAIL C

600

600 1200

600

984

1412

600

984

1412

DETAIL A

3000

6500

GI SHEET., AS PER SPECIFICATIONS

6500

26000

13000

1412

1840

40MM HIGH ALUMINUM RAIL 6500 THICK RIGID INSULATION

984

1412

1840

2269

Fig 13: Truss jo

984

2269

15600 750

3000

13000

65 A

26000

APPROVED PANEL FRAME 30x35MM PANEL CLAMP

6500 50MM

6500

DETAIL A VAPOUR BARRIOROF THE TRUSS SECTION DETAIL

2800

6500

2800

GI SHEET., AS PER SPECIFICATIONS

26000

13000 DETAIL OF THE TRUSS SECTION

13000 65MM LONG SELF DRILLING SCREWS 390kWp SOLAR PANEL SCREWED TO ROOF PURLIN APPROVED PANEL FRAME 2269

30x35MM PANEL CLAMP 390kWp SOLAR PANEL

200

40MM HIGHAPPROVED ALUMINUMPANEL RAIL FRAME 30x35MM PANEL CLAMP GI SHEET., AS PER SPECIFICATIONS

984

40MM HIGH ALUMINUM RAIL

600

50MM THICK RIGID INSULATION DETAIL C BOXSHEET., AS PER SPECIFICATIONS 45x45MM IS GI SECTION SUB-PURLIN DETAIL B

50MM THICK BARRIOR RIGID INSULATION VAPOUR 6500 45x45MM IS BOX SECTION SUB-PURLIN GI SHEET., AS PER SPECIFICATIONS VAPOUR BARRIOR 65MM LONG SELF DRILLING SCREWS SCREWEDGITO ROOF AS PURLIN SHEET., PER SPECIFICATIONS

6500

Fig 14: Truss section DETAIL OF THE TRUSS SECTION

3450

65MM LONG SELF DRILLING SCREWS SCREWED TO ROOF PURLIN 390kWp SOLAR PANEL

APPROVED PANEL FRAME 30x35MM PANEL CLAMP 40MM HIGH ALUMINUM RAIL

600

25MM GRANITE TILE FLOOR FINISH

AP 25*2 C-

45x45MM IS BOX SECTION SUB-PURLIN

GI SHEET., AS PER SPECIFICATIONS 50MM THICK RIGID INSULATION

MULTIPURPOSE HALL EXTERNAL WALL SECTION MULTIPURPOSE HALL Fig 12: Multipurpose hall external wall section EXTERNAL WALL SECTION

45x45MM IS BOX SECTION SUB-PURLIN

VAPOUR BARRIOR DETAIL C GI SHEET., AS PER SPECIFICATIONS 65MM LONG SELF DRILLING SCREWS SCREWED TO ROOF PURLIN

Fig 15: Truss roofing

3450

50MM RIGID INSULATION

GI SHEET., AS PER SPECIFICATIONS

DETAIL B

200MM R.C.C FLOOR SLAB

AP W

2 10MM Ø BARS AT TOP

4 24MM Ø BARS AT BOTTOM 2 10MM Ø BARS AT13000 TOP 390kWp SOLAR PANEL

25MM KOTA STONE FINISH 200 25MM GRANITE TILE FLOOR FINISH R.C.C STAIRCASE 6MM CEILING PLASTER 25MM KOTA STONE FINISH 300*750MM R.C.C BEAM R.C.C STAIRCASE

Page 26

8MM Ø 2LVS

Fig 14: Truss DETAIL A section DETAIL OF THE TRUSS SECTION

DETAIL B

APPROVED, AUTOMATIC SLIDING DOOR ALUMINUM FRAMED, GLAZED WITH 6MM CLEAR GLASS, APPROVED EPDM GASKET INSULATED

APPRO 2 25 M

30x35MM PANEL CLAMP

65MM LONG SELF DRILLING SCREWS SCREWED TO ROOF PURLIN

3450

MULTIPURPOSE HALL 200MM R.C.C FLOOR SLAB 200MM R.C.C FLOOR SLAB 50MM RIGID INSULATION 25MM GRANITE TILE FLOOR FINISH EXTERNAL WALL200MM SECTION R.C.C FLOOR SLAB

65MM LO

13000

2800

6MMBEAM CEILING PLASTER 300*750MM R.C.C IN ELEVATION 300*750MM R.C.C BEAM MM KOTA STONE FINISH APPROVED, AUTOMATIC SLIDING DOOR R.C.C STAIRCASE ALUMINUM FRAMED, GLAZED WITH 6MM CLEAR GLASS, 50MM THICK WOOD PANEL FLOOR APPROVED EPDM GASKET INSULATED APPROVED, AUTOMATIC SLIDING DOOR THICK SCREED ALUMINUM FRAMED,50MM GLAZED WITH 6MM CLEAR GLASS, APPROVED EPDM GASKET INSULATED 50MM RIGID INSULATION 50MM RIGID INSULATION

25*25MM

4 24MM Ø BARS AT RAIL BOTTOM 40MM HIGH ALUMINUM

VAPOUR BARRIOR

6500

15600 750

3450

600

0MM R.C.C FLOOR SLAB

300*750MM R.C.C TIE R.C.C BEAMFLOOR SLAB 200MM 200 6MM CEILING 150MM THICKPLASTER R.C.C SLAB IN ELEVATION 300*750MM R.C.C BEAM

APPROV C-CHAN

6500

13000

1840

600

MULTIPURPOSE HALL EXTERNAL WALL SECTION

6500

45x45MM IS BOX SECTION SUB-PURLIN

3000

150MM THICK R.C.C 1200MM HIGH, 50*50MM SS RAILING PARAPET 300*750MM R.C.C TIE BEAM IN ELEVATION SLAB IN ELEVATION 450*750MM R.C.C COLUMN IN ELEVATION 300*750MM R.C.C BEAM IN 50MM THICK PANEL FLOOR 18MMWOOD THICK EXTERNAL DETAIL B ELEVATION PLASTER 50MM THICK SCREED 200MM THICK AGRO-CRETE 50MM THICK WOOD PANEL FLOOR 50MMWALL RIGID INSULATION 50MM THICK SCREED 200MM R.C.C FLOOR SLAB 50MM RIGID INSULATION

1840

2269

600

2400

DETAIL A

R.C.C BEAM

SLAB IN ELEVATION 25MM KOTA STONE FINISH WITH 30MM 200DIA SS BALUSTERS (275MM C/C) IN ELEVATION 300*750MM R.C.C BEAM R.C.C STAIRCASE 150MM THICK R.C.C 6MM CEILING PLASTER

20 MM L

8MM FILLET WELD ALL AROUND 26000 TRUSS BOTTOM 390kWp SOLARCHORD PANEL ANCHOR BOLTS TO BE CAST IN SITU 4 24MM Ø BARS AT BOTTOM APPROVED PANEL FRAME 200MM ANCHORAGE 2 10MM Ø BARS AT TOP

50MM THICK RIGID INSULATION 300*600MM

1200

RANITE TILE FLOOR FINISH

APPROV W-SECT

DETAIL A DETAIL OF THE TRUSS SECTION

GI SHEET., AS PER SPECIFICATIONS

15600 600 750

3450

2800

300*750MM R.C.C TIE BEAM

Fig 13: Truss joint detail

10 MM A

13000

600

(275MM C/C) IN ELEVATION 1200MM HIGH, 50*50MM SS RAILING PARAPET 450*750MM R.C.C COLUMN DETAIL WITH 30MM DIABSS BALUSTERS IN ELEVATION (275MM C/C) IN ELEVATION 18MM THICK EXTERNAL 450*750MM R.C.C COLUMN PLASTER IN ELEVATION 200MM THICK AGRO-CRETE 18MM THICK EXTERNAL WALL PLASTER 200MM THICK AGRO-CRETE 300*600MM R.C.C TIE BEAM WALL

NITE TILE FLOOR FINISH

R.C.C BEAM 8MM Ø 2LVS STIFFENER PLATE300*600MM 10MM THICK 6500 BOTH SIDES OF TRUSS R.C.C BEAM 300*600MM BASEPLATE 200*16MM M16 ANCHOR BOLTS

600 1200 600

15600 750

300*600MM R.C.C TIE BEAM 450MM DEEP SUSPENDED FALSE CEILING

50MM RIGID INSULATION

1840

2269

2400

DETAIL A

3000

2800

6MM THICK CLEAR GLASS

WITH 600*600MM ACOUSTIC TILE 0*750MM R.C.C TIE BEAM 200 300*600MM R.C.C TIE BEAM HOLLOW BOX SECTION SS RAILING PARAPET 6MM CEILING PLASTER 150MM THICK1200MM R.C.C HIGH, 50*50MM HSS: 76.2*76.2*7.9MM WITH 30MM DIA SS BALUSTERS SLAB IN ELEVATION 300*750MM R.C.C BEAM APPROVED STEEL DECK SHEET

TOMATIC SLIDING DOOR WITH 6MM CLEAR GLASS, DM GASKET INSULATED

M16 IN ANCHOR ANCHOR BOLTS TO BE CAST SITU BOLTS 200MM ANCHORAGE 8MM FILLET WELD ALL AROUND TRUSS BOTTOM CHORD 8MM Ø 2LVS ANCHOR BOLTS TO BE CAST IN SITU 200MM ANCHORAGE

6500

HICK FLOOR 18MMWOOD THICKPANEL EXTERNAL APPROVED STEEL DECK SHEET PLASTER 50MM THICK SCREED 150*50MM UPVC CLERESTORY MM THICK AGRO-CRETE WINDOW FRAME 50MMWALL RIGID INSULATION

25 MM LON 13000

4 24MM Ø BARS AT BOTTOM 8MM FILLET WELD ALL AROUND BASEPLATE 2 10MM Ø BARS AT TOP TRUSS BOTTOM CHORD200*16MM

DETAIL DETAIL CA

APPROVED STEEL DECK SHEET HOLLOW BOX SECTION 300*600MM R.C.C BEAM HSS: 76.2*76.2*7.9MM

200MM R.C.C FLOOR SLAB

65MM LONG T APPROVED P (12*30

26000 BASEPLATE 200*16MM STIFFENER PLATE 10MM THICK M16 ANCHOR BOLTS BOTH SIDES OF TRUSS

13000

2400

15600 600 750

6MM THICK CLEAR GLASS 150*50MM UPVC CLERESTORY WINDOW FRAME 450MM DEEP SUSPENDED FALSE CEILING WITH 600*600MM ACOUSTIC TILE CLEAR GLASS 6MM THICK 150MM THICK R.C.C M SS RAILING PARAPET SLAB IN ELEVATION 0MM DIA SS BALUSTERS HOLLOW BOX SECTION 450MM DEEP SUSPENDED FALSE CEILING 76.2*76.2*7.9MM 5MM C/C) IN ELEVATION 300*750MM R.C.C BEAM WITHHSS: 600*600MM ACOUSTIC TILE

IN ELEVATION 0*750MM R.C.C COLUMN IN ELEVATION

20 MM LONG B APPRO APPROVED (2 25*25MM APPRO C-CHANNEL

BOTH SIDES OF TRUSS

150*50MM UPVC CLERESTORY 300*600MM R.C.C BEAM WINDOW FRAME

300*750MM R.C.C TIE BEAM

APPROVED SE W-SECTION AC

DETAIL A10MM THICK STIFFENER PLATE

300*600MM R.C.C BEAM

*600MM R.C.C TIE BEAM

300*750MM R.C.C BEAM

R.C.C BEAM 300*600MM

1200

18MM THICK EXTERNAL PLASTER 200MM THICK AGRO-CRETE WALL

200MM R.C.C FLOOR SLAB 0MM R.C.C FLOOR SLAB

10 MM ACOUS 40*25

DETAIL C

450*750MM R.C.C COLUMN IN ELEVATION

50MM RIGID INSULATION 50MM RIGID INSULATION

25 MM LONG BO

8MM Ø 2LVS

HOLLOW BOX SECTION 0MM SS RAILING PARAPET HSS: 76.2*76.2*7.9MM H 30MM DIA SS BALUSTERS VED STEEL SHEET (275MM C/C)DECK IN ELEVATION

50MM THICK SCREED

APPROVED PRIMA (12*30*12MM

1412

300*600MM R.C.C TIE BEAM PENDED FALSE CEILING MM ACOUSTIC TILE

BASEPLATE 200*16MM M16 ANCHOR BOLTS

8MM FILLET WELD ALL AROUND TRUSS BOTTOM CHORD ANCHOR BOLTS TO BE CAST IN SITU 4 24MM Ø BARS AT BOTTOM 200MM ANCHORAGE 2 10MM Ø BARS AT TOP

DETAIL A Construction Drawings Appendix 2: Construction Drawings

MM THICK CLEAR GLASS

Solar Decathlon India 2020-21

Solar Decathlon India 2020 I The ARCHONS

600

MM UPVC CLERESTORY WINDOW FRAME

APPROVED 25*25MM APPROVED

600

300*600MM R.C.C BEAM

300*750MM R.C.C BEAM IN ELEVATION AUTOMATIC SLIDING DOOR D WITH 6MM CLEAR GLASS, CK WOOD PANEL FLOOR EPDM GASKET INSULATED

ACOUST

600

HOLLOW BOX SECTION HSS: 76.2*76.2*7.9MM

Final Design Report, April 2021

650

Solar Decathlon India 2020 I The ARCHONS

ORD International school

Solar Decathlon India 2020 I The ARCH 2

1 8500

GER

8500

6500

GENERATOR ROOM

00 65

ELECTRIC ROOM

00 65

D E

ACOUSTIC TILE 20MM

Y CHANNEL

80 70

APPROVED WALL ANGLE

APPROVED SUSPENDER

(12*30*12MM) C-SECTION

AHU

MM LONG BOARD SCREW

600x600x30MM TERRACOTTA TILE WET CLADDED TO WALL TUD 24 GAUGE HANGER

G H

6500

CREW OVED PRIMARY CHANNEL

6500

ELECTRIC ROOM

6500

40*25 MM MAIN RUNNER TEE) SECTION

3000

24 GAUGE HANGER

6500

NEL ION

J 6500

PRODUCED BY AN AUTODESK STUDENT VERSION

L 00

M U

5MM LONG TENSION APPROVED PRIMARYSTUD CHANNEL 50MM RIGIDC-SECTION INSULATION (12*30*12MM)

50MM SCREED

6500

FIXED WITH RESIN TO BOARD

0 MM LONG BOARD SCREW APPROVED SUSPENDER 30MM PLYBOARD PPROVED (20*25*25MM) 12MM MORTAR 25MM APPROVED WALL ANGLE -CHANNEL

6500

0 MM60MM ACOUSTIC LONGBOARD BOARD SCREW 40*25 MM MAIN RUNNER TEE) SECTION PPROVED SECONDARY CHANNEL 90MM ABSORPTION FOAM W-SECTION ACOUSTIC TILE 20MM

SLAB 25 MM LONG200MM BOARDR.C.C SCREW

50MM WOOD PANEL FLOOR

oint detail

200MM AGROCRETE WALL 600x600x30MM TERRACOTTA TILE WET CLADDED TO WALL

GW UG CYLINDER ug

WW ug

20MM MORTAR 10 MM ACOUSTIC BOARD

RWH

556

200

APPROVED CHANNEL 60MMSECONDARY LONG BOARD SCREW W-SECTION 20 MM LONG BOARD SCREW

90MM ABSORPTION FOAM APPROVED (20*25*25MM) FIXED WITH RESIN TO BOARD

PHYTORID PLANT

WW ug

C-CHANNEL

600x600x30MM TERRACOTTA 30MM PLYBOARD 8MM Ø 2LVS TILE WET CLADDED TO WALL 65MM LONG TENSION12MM STUD MORTAR

Fig5:Basement plan

R.C.C BEAM LONG BOARD SCREW 50MM60MM SCREED 300*720MM

50MM RIGID INSULATION

90MM ABSORPTION FOAM

200MM R.C.C SLABRESIN TO BOARD FIXED WITH

50MM WOOD PANEL FLOOR30MM PLYBOARD

200MM R.C.C SLAB

DETAIL50MM B WOOD PANEL FLOOR 200

3. PIPE SHAFT

PIPE SHAFT

URINALS

LADIES WASH

DRINKING WATER

LADIES WASH

DRINKING WATER

GENTS WASH

GENTS WASH JANITOR ROOM

DRINKING WATER

PIPE SHAFT JANITOR ROOM

200MM AGROCRETE 5 24MM Ø BENT MAIN BARS WALL DETAIL BUPBARS 2 10MM Ø ANCHOR AT TOP 20MM MORTAR

TERRACE

LEVEL : + GENTS TOILET WW 2M H

GW 2M H

22450 BW 2M H

FW 2M H

DRINKING WATER

KEYPLAN

PROJECT:

DETAILS

NAME: ARITRO DE

CLASS: 3 - B

WASH BASIN

Page 27 TOILET AND COR TOILET AND CORE

GENTS WASH

WIND TOWER

TOILET BLADIES LADIES WASH

K LADIES WASH

200

DETAIL Fig 16:BExternal wall

PIPE SHAFT

7000

W/C

GENTS WASH 1

WASH BASIN

W/C

VRF OUTDOOR UNIT

MULTIPURPOSE LEVEL+15600

SPECIAL ABLED W/C

50MM WOOD PANEL FLOOR

ALL DIMENSIONS AR UNLESS SPECIFIED. DRAWINGS TO BE R SCALED. ALL DRAWINGS TO WITH CONJUNCTIO RELEVANT DRAWING

5 24MM Ø BENT UP MAIN BARS50MM RIGID INSULATION 2 10MM Ø ANCHOR BARS AT TOP 200MM R.C.C SLAB

WASH BASIN

30MM PLYBOARD 8MM Ø 2LVS 12MM MORTAR R.C.C BEAM 50MM SCREED 300*720MM

8 2.

FIXED WITH RESIN TO BOARD

8MM Ø 2LVS

8500

200

WASH BASIN

7000

WASH BASIN

8MM Ø 2LVS 60MM LONG BOARD SCREW R.C.C BEAM 90MM ABSORPTION FOAM 300*720MM

ALL DIMENSIONS ARE IN MM, UNLESS SPECIFIED. DRAWINGS TO BE READ NOT SCALED. ALL DRAWINGS TO BE READ WITH CONJUNCTION WITH RELEVANT DRAWINGS

W/C

7000

200MM AGROCRETE WALL 600x600x30MM TERRACOTTA 20MM MORTAR TILE WET CLADDED TO WALL

NOTES

8500

556

50MM RIGID INSULATION

8500

7000

200MM 5 24MM Ø BENT UPAGROCRETE MAIN BARS WALL 12MM MORTAR 10MM Ø ANCHOR BARS20MM AT TOP MORTAR 50MM SCREED

6500

AHU

GLE

8500

DER

8500

6500

NER ION NNEL MM

A Cultural Center

Culture Center Design SPA Delhi | 2nd Year | 4th Semeter | Year 2020

Academic Project - Individual

Site: Purana Qila, New Delhi n a city like Delhi, where people don’t have time to spare for anyone/anything, they miss/ lack their enjoyment of going to far away places to say, dessert, sea, mountain and all travel experiences due to shortage of time and busy lifestyle.

Hence there is a need to design “a space that includes all these travel experiences along with keeping the culture of ourself active”. Design a space/centre where the different “Travel Experiences” are incorporated along with fusing the culture of the country.

Experience...

Cultural Center Design

“ EXPERIENCE” Form Development

Concept

Inspired with the idea of tearing thread which shows that a single element of thread keeps the two sides united whatsoever happens.

The hanging parts in the form shows the idea of “tearing thread”

Different cultures, different people yet connected. The ‘single element of a thread’ unites all cultures into one.

The hanging parts in the form shows the idea of “tearing thread”

Entrances are made such that the air passage is maximum in the summers and Entrances are made such minimum at the winters. that the air passage is maximum in the summers and minimum at the winters.

Form Development

Spatial Orientation Entry/Exit access points from the main road.

The form is thought in such a way that it gives in a sneeking view of the Purana Qila yet focusing on the functions of the current form. The form is thought in such a way that it gives in a sneeking view of the Purana Qila yet focusing on the functions of the current form.

Placement of Building block as a chunk

Aritro De A/3159/2018

Dividing of spaces with respect to openess & public interaction

Page 29

Ground Floor Plan

Photogr Lake/Moat

Rock Climbing Wall

Veg

Main Entry

Mathura Road

“Experience”

Mathura Road, Delhi

Vehicular Enrty & Pedestrian Entry

Towards site

Architectural Design

4th Semester | 2020

Cultural Centre Design

West Section, BB’

Lifts Entry 3

Materiality Exhibition Area

Lvl +00

& Passive performance

Performance Hall

The use ofLobby Jaali on the 230 thick brick Entrance Gallery wall acts as a thermal break forPlantation the facade, making itCafe climate reponsive Gift Shop as it falls on the west side along with giving the facade a aesthetic apperance. Jaali

Open

Scale: 1:200

Plaza

Ground Floor Plan

Boundary Fencing

Roof-Top Beach Pool

A’ n

ia tr es

d Pe y tr En

C’

Aritro De 2B

Architectural Design g

cin

y ar

n ou

B’

Page 30

Entry 2

n Fe

“Experience” Mathura Road, Delhi

Cultural Center Design

Section through site, AA’

raphy Workshop

Cafe Exhibition Area

ggie Art Room

Lifts

Roof-Top Beach Pool

Photography Exhibition

Experience Tunnel

Entrance Lobby & Reception Plantation Gallery

Section BB’ Photography Workshop Veggie art room

230mm brick wall Admin

Internal plaster with paint

Sand art workshop

The composition of wall in cafe comprises of wood panels cladded onto the wall, giving thermal break along with aesthetic look.

The composition of walls on other sides including internal are 230mm brick wall with 12mm and 18mm plaster alongPhotography with paint on internal Exhibition & external sides respctively.

Wood panels on exterior facade

External plaster with paint

Cultural Centre Design

Rock Climbing Wall

East Section, CC’

Sections Scale: 1:200 Elevation showing

Aritro De 2B A/3159/2018 materials Page 31

4th Semester | 2020 Site Interaction

Site

Purana Qila Wall

Relation and interaction of site with immidiate context as Puran Qila is catered so that the historical context is appriciated along with newer design. Viewing angles are created such that a part of the monument is seen from site. Nodes of social interaction and gathering after entering the site. The mid space has been kepy open to facilitate ease of crowd flow and connectivity.

n Pla

tat

a ng

lle

Water flow path

The blocks are placed in such way that the water drained is directed towards the plantation gallery, hence, no extra water is used to irrigate at times

Levels and Relation of Spaces

lay of levels for different functions on a contoured site in a way that enhances the view of the protected monument from the site and algamates the built space with the historical context. The plantation galley is placed on a lower level nearby the moat to enhance the sense of nature in the surrounding.

Page 32

Cultural Center Design Public interaction

Public interaction in the spaces along with the relation between built & open spaces Roof-Top Beach Pool Exhibition Area Performance Hall Plantation Gallery

Cafe

Entrance Lobby

Section through site Secti Page 33 Photography Workshop Rock Climbing Wall

A Library & Self Development Center

Nippon Asia Young Designer Awards SPA Delhi | 3rd Year | 5th Semeter | Year 2020

Competition Entry - Individual

Site: Jakkur, Bangalore, India

his project proposal of “Library and Self Development Centre” along with individual “Pod libraries” tries to resolve the issues posed by the citizens of the city. The centre consists of spaces that bring out the utmost of a self. Creation of children development cells, workshops enhancing knowledge along with amalgamation of inner and outer libraries tries to connect books with nature. The centre tries to bring life to the dead lake and can be a cause of the rebirth of Jakkur lake. It tries connecting nature with reading and also to personal interest of people of the locality and to create a space to rejuvenate through reading and doing stuff that are utmost loving to one.

-Eco-Lib-

Library & Self Development Center

-Eco Lib-

Library & Self Development Center

Analysis of site

Strength -Proposed site being beside a lake regulates in microclimate -Great view of the lake & surround -Temperate region, hence plesant weather all over the year Weakness -Not much footfall -Lake dirty, can lose visitors -Lack of maintenance Oppurtunities -Proposed site can act as a revival factor for the Jakkur Lake. -Mostly residential area surrounds the site, hence can act as recreational Threats -Only one entry, no dedicated entry -Water overflow from lake to site Implies

= Not

& Reading spaces

Present

Recreational Spaces

Concept & Form Development “Pouring Hands” Ability to accept, ability to return, one has to be humble and down to earth

Regular rectangular block

Increasing Daylight

Division of Blocks

Ventury Effect, Increasing Pressure, Hence decreasing temperature

Provision of atrium to diffuse direct light

Page 35

Nippon AYDA 2020 Ground Floor Plan Workshop

Lib-Pod

Page 36

Knitting room

Indoor Play spa

-Eco Lib-

ace

Personalised reading

Library & Self Development Center

Administration

Personalised reading

Library

Lavatories

Section through Library & self development wing The main block is further divided into self development on the left wing and the main library on the right The upper floor is a more private reading space

Exploded of the main Block Page 37

Nippon AYDA 2020 Open Reading Plaza

d clu Lib-Po

st e r

he open Reading plaza with clusters of Lib-Pods along with open seating spaces tries to render a feeling of free & open reading experience among the readers who want privacy & personalised reading of different genres. The organic landscape surrounding the clusters gives an experience of open landscape with a view of the lake and fresh air of outskirts of Bangalore city. The passage of the reading plaza covered with modular ‘Dot-shed’ shades the space from harsh sun, and also gives a good play of light.

Exploded of the shopping Block Page 38

-Eco Lib-

Library & Self Development Center

Render Views

Visual from the Reading plaza

Main Library

Lib-Pods

Visual from the shops & eatery MS Hollow channel column Polished & colored wood panel

40 long SS screws 65x200x65 MS C-channel

Exploded of Canopy Page 39

An Isolation Ward SPA Delhi | 2nd Year | 4th Semeter | Year 2020

KARWAAN National Design Competition

Competition Entry - Group

Site: Sector 20, Dwarka, New Delhi e are living in uncertain times and as citizens of a developing economy, we are posed with an additional challenge of using our resources sparingly so as to ensure minimum impact on our economy.

This project of isolation ward in a quarantine facility help subdue the effects of the outbreak on existing infrastructure. To slow down the spread of virus. The design has been an amalgamation of not only easy to install modular and adaptable units, but also necessary precautionary design norms that are a prerequisite to any Covid facility in the current times. Adequate measures to follow social distancing have been kept in mind whilst the process of design

Tapovan

Isolation ward Design

-Tapovan-

Isolation Ward Design

Introduction

his structure has been designed to cater to 40 patients in 19 isolation cells. It has been adapted to function in any sort of context in the country, irrespective of site constraints. It comprises various modular units, which have been united by a central axial block. The modular units comprise the isolation cells that are catered to by the entral block, which houses the main service compound.

Problem statement The pandemic has created a massive stop at activities and claimed many lifes. The common practices and measures that is to be followed in buildings and indivisuals are illustrated. Compartmentation

Social Distancing

Isolation

Massing Options

Massing option 1

Massing option 2

Massing option 3

Design intervetion chosen for the islation center design.

Massing option 4

Massing option 5

Plug & Play

The isolation cell units are plug and play units, connecting one and creating the whole.

1 Unit

2 units iteration

This iteration was chosen for further development as it is minimalistic. The central spine having servic functions is further branched into 4 distant wings containing the isloation wards 4 unit row

Cluster creating ward

Page 41

KNDC 2020 Site Selection

Features

Isolated in Itself

Modular units that are independent, can be replicated easily

Pre Fabricated

Plug and play, can be installed directly on site

he proposed site is inside the boundary of Artemis Hospital, Dwarka at Sector 20, Dwarka, New Delhi. The proposed site is near to the I.G.I Airport and also surrounded by various hospitals. The site is also connected to some major highways which helps in transportatin. The area available for the quarantine facility is greater than required, hence it can be scaled whenever required.

Reusable

Modular units that can be used for other functions as housing, storages etc.

Location independent

Can be built anywhere, flexible in functions

Modularity & Scalability Site Zoning

Can be replicated easily with many different iterations

Infrastructure independent

The units are independent of existing infrastructure and can be installed from scratch

Easy to maintain & clean

Separated from one another and tightly sealed units help in easy maintanance and cleaning

Sustainable

Self sustainable, renewable energy generation, waste and water management done on site

Page 42

-Tapovan-

Isolation Ward Design

Legend

Plan

Page 43

KNDC 2020 Renewable energy generation

Lights

Lights Equipment

Onsite Energy generation

P Natural & resilient

Detailed plan of an isolation cell Page 44

Self sufficient

hotovoltaic Arrays are set up on the tilted roof to harness solar energy and hence using it to run Medical Equipments, lights, fans and all other essential service.

-Tapovan-

Isolation Ward Design

Detailed exploded view of unit cell

Page 45

KNDC 2020 After the pandemic gets over

Clinics

Neighborhood

Housing

Warehouses

Modules that can be incorporated in different other functions when the pandemic is over

Page 46

-Tapovan-

Isolation Ward Design Fate of these isolation wards once Pandemic is over... The entire design of the isolation wards has been done keeping in mind modularity and expandibility for future reuse, when these isolation cells will not be required anymore, they can be converted into various possibilities, the color overlays on the plan on the left shows some possible modular units that can be obtained out of these isolation wards can can be used as housing units, clinics, warehouses etc

Clinics

Affordable housing units

Community houses & neighborhoods

Affordable housing units

Page 47

Measure Drawing Evercise SPA Delhi | 1st Year | 2nd Semeter | Year 2019

Academic Project

Site: Jami Masjid, Ahmedabad, India his exercise was conducted to learn about the history of Indian & Islamic architecture. The influence of local artisans on the works of this islamic mosque and the examples of that shown and studied via actual measurement, drawings and documentation.

Documentation was done to learn and understand about function, scale and volume of space along with the material pallete and their properties.

Measure Drawing

Exercise

Measure Drawing

Exercise

Introduction

he Jama Masjid (Friday Mosque) on Mahatma Gandhi (MG) Road was built by Ahmed Shah in 1423 and is considered one of the most beautiful mosques in India, enriched by a huge, quiet courtyard. The mosque shows an architectural fusion with the Hindu and Jain religions, particularly in the lotus carving of some domes, similar to that of many Jain temples. The 260 columns in the prayer hall support 15 main domes at different heights.

Front Elevation

Section: A perspective

Source: INDIAN CITIES, Ecological Perspectives - VINOD K. TIWARI, JAY A. WIENSTEIN, V.L.S PRAKASA RAO

Page 49

2nd Semester Domes

DOME

Secondary Dome

DOME

Stepwise formation of Domes

Centra

his dome above is the central and the most detailed and ornamented dom intricate floral patterns sculpted on the

Stephad 1 a standard squat circular Domes of this mosque shape with a lotus design and bulbous finial at the top, derived from the Hindu architecture. As the tradition did not include arches, flat corbels Page 50 were used to transition from the corners of the columns to the dome, rather than squinches.

Step 2

STEPWISE FORMATION: 1

1) 2) 3) 4)

Beam layout of octagonal shape. Offsets of octagonal shape. Offsets of polygon with 12 sides. The circular dome with regular offsets.

KEY:

sequence from left

Measure Drawing

Exercise

DOME Secondary

DOME

Dome

DOME

al Dome

e main dome of the 15 domes made. It is the me.It consists of 12 concentric rings that have em.

d a standard squat circular n and bulbous finial at the ndu architecture. nclude arches, flat corbels rom the corners of the her than squinches.

Step 3

STEPWISE FORMATION: 1

1) 2) 3) 4)

Beam layout of octagonal shape. Offsets of octagonal shape. Offsets of polygon with 12 sides. The circular dome with regular offsets.

Step 4

Page 51

KEY:

sequence from left

Dakshil Rana Aritro De Pradeep Shoora Sumit Kumar Shar

2nd Semester Transverse section

Details on the columns & other surfaces

Intricate detail of patterns on the main column of the exterior facade

The balconies of the upper levels, there are enclosed spaces for private prayers, separated with beautifully decorated perforated screens.

Floral patterns on the periferal of the roof

Page 52

Islamic patterns with Hindu relics carved out on the main column

Measure Drawing

Exercise

Columns & Formation

Elevation

Formation of Column

These are the different kinds of columns that enclose the whole prayer space in the mosque. There are a total of 260 columns and these columns divide the prayer hall into fifteen bays which are crowned by fifteen domes. The central nave of the prayer hall is split into three levels.

Plan

PLAN

Reflected REFLECTED CEILING PLAN

Ceiling Plan

Page 53

Collection 3D Modeling & Renders

D Models and renders are essential part of architecture. So the skill of the same are collated here. 3D modeling is done in Blender and the renders are taken out with the help of Keyshot with some post processing in Photoshop. I do freelance projects in between the breaks for different automotive enthusiasts and students,

Page 54

Other Works

Other Works Illustrations

llustrations are the ways in which I bring out my way of thinking about the current world and the happenings. These are produced during semester breaks and free time to bring the creative self out.

Page 55

Collection Paintings

Some thoughts cannot be expressed via words... Pain the world is facing due to the outbreak of Coronavirus is unexpressive. Canvas: 12” x 18” Medium: Acrylic

‘Liesure’

The life of wealth.. The life of prosperity.. The leisure life! Canvas: 24” x 20” Medium: Acrylic

Page 56

‘Colors’

‘Pandemic’

Life is full of colours. It’s vibrant, jolly and can have a lot of positivity. Canvas: 8.3” x 11.7” Medium: Dry Pastels