A novice, originally from a land miles away from Architectue; even the term ‘Architect’ and ‘Architecture’ often inspired confusion in me. Ending up in architecture was a blessing in disguise. Initially, I felt that I was lacking in imagination (in the visual sense), but 4 years of study have seen me evolve as an individual, for whom such tasks appear enticing. Architecture has its own language - unlike other professions and pursuits – and I am on my way to learning it. I am still mulling over the true spirit of architecture, making my basics strong before taking it up as a profession.
nirbhay singh Architecture, to me, is about molding the physical environment in which people live; an environment which is constantly being subjected to harm. There is, therefore, a need to design buildings that are not only efficient, but also have a connection to, and reciprocate its importance to the world. Therein lies the role of architects.
EXPERIENCES I N T E R N S H I P S
N I R B H AY SINGH
B.Arch thesis July 2019 - Present Building Integrated Agriculture in Urban Metropolis of Delhi (Vertical farming)
120 hours Triar BIM Projects Valencia, Spain January 2019 - July 2019
April 2019 Student design competition
Worked on various residential and industrial projects
& PLEA 2018 P R O J E C T S
September 2019
CSIR - CBRI, Roorkee
Student Design Colloquium
2012
May 2018 - Aug 2018
High School
Worked on Energy Effeciency of Buildings
Maharshi Patanjali Vidya Mandir, Allahabad, U.P. 10.0 CGPA
Way Finding Feb 2018 - Sep 2018 Research project on Analysis of way finding and imageability in grid iron, ring radial & organic road network in Urban Planning
HUDCO Trophy NASA 2017-18 Special Mention (2nd Prize)
ACADEMIC ACHIEVEMENTS
NSDC Trophy Housing competition
Special Mention in HUDCO Trophy - NASA 2018 BAMBOOTECH 2018 - 1st prize (COGNIZANCE)
Dharmalaya Institute May 2017 - June 2017
IDEAZ 2017 - 2nd prize (COGNIZANCE)
Onsite Construction of Duplex using local and sustainable materials and techniques.
Shortlisted in top 12 in HUDCO Trophy - NASA 2017 Shortlisted in top 10 in Louis I kahn Trophy - NASA
Lahoty Associates Dec 2017 - Jan 2017
INTERESTS
Worked on the GFC drawings of various projects
Virtual Design Construction
HUDCO Trophy NASA 2016-17 Shortlisted in Top 12
Campus BIM Modeling May 2016 - July 2016
Estate and Works Dept IIT Roorkee
C O Lead Graphic M Designer P THOMSO 2016 Cultural Fest of IIT Roorkee E T I T I O LIK Trophy N NASA 2015-16 Shortlisted in top 10 S
Energy Efficiency in Buildings Building Information Modeling Building Physics
WORKSHOPS
ANCILL
Fractal Workshop using paper cups
Modern W
Weaving Workshop
Design of
Construction workshop on Brick
Elements
Layering
Landscap
BIM Workshop
opment
B.Arch 5th year Department of Architecture & Planning Indian Institute of Technology Roorkee Roorkee, Uttarakhand, India Mob : +91-81264817171 E-mail : nirbhaysinghbaghel@gmail.com
EDU CATI ON
2014
2015 - Onwards
Middle School
B.Arch
Alahabad Public School, Allahabad, U.P. 89.4%
Indian Institute of Technology Roorkee, Roorkee, Uttarakhand 7.85/10 CGPA
S O F T WA R E S K I L L S
7 2016
Modeling
Rendering
Autocad
Unreal Engine 4
Revit
TwinMotion
Google Sketchup
3ds Max Lumion
Rhino
V-ray
LANGUAGES English Hindi
LARY SUBJECTS
World Architecture
f Reinforced Concrete
s
pe Design and Site Devel-
Energy Simulation
Graphic Designing & Presentations
Design Builder
Adobe Photoshop
Ecotect
Adobe Illustrator
Sefaira Plugin
MS OďŹƒce
REFERENCES Dr. Ashok Kumar Chief Scientist and Head Architecture & Planning Group CSIR- CBRI Roorkee,India Mob: 01332283204 (O). Email: ashokkumar@cbri.res.in
Juan Vicente Poveda Ivars Architect - Project manager Triar BIM Projects Valencia, Spain Ph: +34 - 962066851 E-mail: info@triar.es
Internship projects
Competitions
Professional Training -Evalam Headquarters -Baladre Residence -Gransol Residence CSIR - CBRI -Energy EďŹƒciency in residential buildings
-HUDCO (NASA 2017-18) Housing Design competition Special Mention
-120 Hours
Student Design Colloquium Participation entry
-PLEA Student Design Colloquium Participation entry
Studio projects
Miscellaneous
-School and Kindergarten
-Building Information Modeling
-Health Food Haat
-Graphic Designing
4th semester design problem
6th semester design problem
Graphical presentation
nternship projects
In this section, I will be showcasing some selected projects on which I worked during the tenure of my internships.
EVALAM EVALAM headquarters design Lliria, Valencia, Spain CLIENT : EVALAM ARCHITECTURE FIRM : TRIAR BIM Projects PROMOTOR : Hornos Industriales PUJOL PLOT AREA : 5028 sqm STATUS : Under construction (June 2019)
BRIEF Evalam is a company that produces laminated glass using a compound called EVA (Ethyl-Acetate Vinyl) that anticipates the architectural needs. Its mission is to provide the laminated glass with the improvement of the damage caused by the, external forces such as twisting, bending, aging and shock; In turn, it prevents glass fragmentation in case of breakage, provides acoustic and thermal insulation. Laminated glass is produced by applying a permanent film between two sheets of glass, resulting in a monolithic glass which is safer and has enhanced properties and, at the same time, provides increased design possibilities. The project was to design the headquarters of EVALAM where all the manufacturing activities can be carried out. The product goes through various processes during
3.37 m
14.00 m
11.25 m
0.17
0.16
8.00 m
Uses - Industrial/compatible tertiary Typology - Isolated building (INA) Buildability - 0.929 Occupation - 75% Form - Rectangular shape Allowed height - 10m Number of floors - 2 Setbacks - 3 to street
área de ampliación
LIBRE CRECIMIENT
SPACES
0.9_3
0.1
0.3_2
0.9_2
1
P. Baja 1 : 300
Show
MY CONTRIBUTION AND LEARNINGS I took this project after the approval of the client and was responsible for detailing and minor modeling changes. In this project I learnt majorly about the structural modelling in Autodesk Revit. Having an exposure of structural modelling is surely an important aspect of BIM. I carried out some of the joinery and facade details of the building and came to know the type of drawings are requirent to build such projects. Apart from these, I pepared the Lumion walkthrough and renders for the client presentation and learnt some presentation skills basically what has been followed in Spain.
2
P. Primera 1 : 300
11.25 m
11.25 m
11.25 m
0.13
7.00 m
LIBRE CRECIMIENTO
TO
6.00 m
COLOR 1
6.00 m
8.75 m
0.14
8.75 m
0.15
15.95 m
SGP 1
EVA 2
0.8
EVA 1
0.6
0.7
0.5
Estánterías Stock Cartón
3
wroom
0.12 0.9_1
0.2
0.4
ZONA BUFFER
0.11
0.3_1
SUPERFICIES ÚTILES Nº 00 Baja 0.1 0.2 0.3_1 0.3_2 0.3_3 0.3_4 0.4 0.5 0.6 0.7 0.8 0.9_1 0.9_2 0.9_3
SUPERFICIE OCUPADA
Nombre
Superficie
Recepción LAB Comedor Vestuarios A Baño Vestuario B Stock Producto Acabado Zona Carga/Descarga Materia Prima Sala Blanca Nave Pasillo Pasillo Pasillo
55.84 62.35 48.55 44.12 5.52 4.00 422.45
m² m² m² m² m² m² m²
108.19 m² 558.44 398.75 1263.11 16.28 10.27 7.05
m² m² m² m² m² m²
Nombre
0.11 0.12 0.13 0.14 0.15 0.16 0.17
Cuarto técnico peróxidos Taller UTA Compresores Depósito de agua CSI CT
01 Primera 1.1 Oficina 1.2_1 Aseo 1.2_2 Aseo TOTAL
6.90 m² 22.98 6.25 6.58 6.58
m² m² m² m²
Ampliación Nave+Oficina Urbanización
Área 503.17 m² 3,061.21 m² 1,462.69 m²
14.62 m² 15.30 m²
207.95 5.39 5.39 3302.86
m² m² m² m²
ill. 29. Proposed plan
3.40
Baladre Large single family house Baladre, Benissa (Alicante), Spain CLIENT : Construcciones Fuertes S.L. Representante Francesc Fuertes Lรณpez ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 522 sqm STATUS : Under construction
3.21
3.22
BRIEF There was no as such pre-requsite for the project apart from the spatial requirements as the project was from a developer who will sell this house to buyers from different countries. However while designing we have to keep in mind the view points and accessibility on the site. LOCATION AND ENVIRONMENT The municipality of Calpe is the northernmost of La Marina Alta. It has a heterogeneous orography in such a way that it meets the sea defining coves and cliffs; the most characteristic element of its orography is the Peñón de Ifach. Calpe has a more established urban nucleus and a consolidated fabric of Residential developments in the form of isolated single-family homes Typical Wall Type - List of layers : 1.Partition of 20 cm concrete block wall 2.1.5 cm gypsum plaster in exterior 3. 6 cm air chamber with 6 cm EPS isolation 4. Brick factory walling of 7 cm 3.1.5 cm gypsum plaster Total thickness: 360 cm Typical Floor Type - List of layers : 1. 3 cm Stone ware tile 2. 6 cm Self-leveling mortar 3. 6 cm Polystyrene 4. 27 cm concrete vault Total thickness: 420 cm Climate The climate of Benissa is included within the climate type "Mediterranean subtropical". The average annual temperature is 16.5 º C. The highest monthly temperature is that of the month of August, with 24.4 º C, followed by the month of July with 24.1 º C. The average monthly temperature lowest corresponds to the month of January with 10.6 º C. Due to the proximity to the sea of a large part of the territory of Benissa, temperatures are affected by the sea breeze, which maintains a few degrees lower the temperature of the areas close to the coast than inland. Access The pedestrian access is produced by the Northeast boundary and the road access by the southeast. Access to the interior of the house is made through an exterior staircase saving 0.9m . The vehicles access from the level of the street and are kept at said level in a closed garage for a parking space.
MY CONTRIBUTION AND LEARNINGS This was the 1st project in which I was involved since the beginning of the project. I was involved in taking the design decisions along with the modeling of the project I came to know about some building by-laws and regulations of the locality. The site was very challenging to design and it was my 1st experience in designing something on the contours. Making topography as per the requirements of the project and playing with the levels was the best learning experience for me. 3.23
The house is located in the upper part of the plot next to the access road, but separated from the boundaries of more than 5 meters approximately. It is developed on two floors, a first floor with pedestrian access to the street of Baladre and a road access from El Roure street to the ground floor. The house opens towards the southwest orientation in search of a suitable sun. The volume is organized in two bodies perpendicularly; the first floor, the highest, corresponds to the day area (living-dining-kitchen), the forged of this part generates the porch of the ground floor. The lower floor of the house will have a direct relationship with the pool.
Acceso rodado
Acceso peatonal Acometida de agua y electricidad
Linea telefónica
Pavimentada sobre terreno 82.04 m² 66.62
Muro de piedra parcela vecina Carrer del Baladre
66.62 Acera
65.48
Jardinera Calzada (vía pública)
66.82
4.00 m.
Señalización Linea telefónica
Ajardinada 125.44 m²
Bomb. calor (aire - aire)
65.48 70.17
Poste de la linea telefónica
65.71
Residuales Oxid. Total o Filtro biológico
Rebosadero
Pavimentada sobre terreno 57.92 m²
64.02
Edificación 131.02 m²
Acceso rodado
64.02
Lamina de agua 31.08 m²
2.95
64.07
64.02
Acera
Depuradora piscina 4.00 m.
Ajardinada 194.42 m²
63.35
61.91 Parcela vecina 2
1
Borde asfalto
Vallado de simple torsión parcela vecina
67.06
4.03
64.12
Carrer del Roure
Ajardinada Calzada (vía pública)
Edificación Lamina de agua Pavimentada sobre terreno
Emplazamiento y urbanización 1 : 200
In First Floor we access through a hall that will distribute to the night areas: 3 bedrooms, 2 bathrooms and the day area: living room, kitchen. These rooms will have south-southwest views. On the ground floor, the rooms will be distributed below the sleeping area, with garage, storage room, bathroom, bedroom and a living room. that will be related to the porch and the pool. COVER Flat roof of the traditional type with formation of waterproofing slopes Asphaltic sheet and extruded polystyrene insulation. FACADES The enclosures of the building have been resolved by a hollow block factory concrete, non-ventilated insulating chamber of extruded polystyrene and hollow brick, taken with mortar
Section key plan
3.35 ill. 25. Site photos
Rear access to the house.
Front view of the house ill. 26. House renders
3.36
GRANSOL Large single family house Gransol, Calpe (Alicante), Spain CLIENT : Construcciones Fuertes S.L. Representante Francesc Fuertes Lรณpez ARCHITECT : TRIAR BIM Projects - Jaime Perez Dinnibier - Juan Pablo Pellicer Casado - Juan Vicente Poveda Ivars PLOT AREA : 1472.23 sqm STATUS : Completed (July 2019)
ORIENTATION The house is mainly developed on the ground floor with a marked horizontal component in the longitudinal direction to the plot and oriented towards good solar orientation and views. TOPOGRAPHY The topography is sensibly flat with a slight access ramp to the street Wall Type - List of layers : 1 - Mortar monocapa 1.5 cm 2 - Hollow ceramic brick factory 11 cm 3 - Extruded polystyrene 6 cm 4 - Hollow ceramic brick factory 7 cm 5 - Plastic painting Total thickness: 25.5 cm The maximum buildable area of our plot is 479.13 sqm higher than the total buildable area of the project of 415.28 sqm. Building 297.97 m² 20.24% Paved on land 258.96 m² 17.59% Landscaped 817.00 m² 55.49% Pre-existing water sheet 43.86 m² 2.98% Area to be filled 54.44m² 3.70% Total = Plot surface 1,472.23 m² 100.00% The percentage of maximum occupation is 25% higher than the 20.24% occupation of the project in the plot. Floor Type 1 - List of layers : 1 - Catalan tile flooring 1 cm 2 - Cement mortar 4 cm 3 - 0.08 cm polyester geotextile 4 - Asphaltic waterproofing monolayer adhered 0.36 cm 5 - XPS Expanded with carbon dioxide CO2 [0.034 W / [mK]] 6 cm 6 - Formation of slopes with expanded clay poured dry 10 cm 7 - Unidirectional forging 25 + 5 cm (concrete vault) 30 cm 8 - 12 cm non-ventilated air chamber 9 - False continuous ceiling of plaster plates 1.6 cm 10 - Plastic paint on interior walls of plaster or plaster Total thickness: 65.04 cm Floor Type 2 - List of layers : List of layers: 1 - Glazed stoneware ceramic floor tiles 1 cm 2 - Base of self-leveling cement mortar 4 cm 3 - XPS Expanded with carbon dioxide CO2 [0.034 W / [mK]] 5 cm 4 - Unidirectional forging 25 + 5 cm (concrete vault) 30 cm Total thickness: 40 cm ORIENTATION The house is mainly developed on the ground floor with a marked horizontal component in the longitudinal direction to the plot and oriented towards good solar orientation and views. TOPOGRAPHY The topography is sensibly flat with a slight access ramp to the street
Kitchen
Toilet BR1
Dining
Living
BR2 Toilet Duct
Built-up Area - 70 sqm
CSIR - CBRI
Energy eďŹƒcient design in Residential buildings Roorkee, Uttarakhand Summer Training (May - August 2018) Scope of my training at CBRI was to understand the building physics and the key parameters of building envelope. I was responsible for developing the residential apartment layouts utilizing the concept of building physics and compare the results from the traditional method of construction. The idea is to reduce the cooling and heating load on the buildings also understanding the HDDs and CDDs of dierent climatic zones.
Kitchen
Living
Detailed report of my training can be ďŹ nd out at - https://issuu.com/home/published/cbri_report
ANALYSIS OF LAYOUT 1 Cooling Load 01-01-2002 0
ORIENTATION From the simulation it has been observed that glazing on east and west facade results in maximum solar heat gain in compare to other two facades. Proper orientation can results in saving of upto 250 kWh annually for a unit of 45 sqm gross area.
WALL THICKNESS Choosing optimum wall thickness can result in huge power savings. Total Energy consumption varies from 14,000 kwh to 18,250 annually for a unit of wall thickneess 100 mm to 400 mm
01-03-2002
01-05-2002
01-07-2002
01-09-2002
01-11-2002
-500
-1000
-1500
-2000
-2500 Total Cooling load (Glazing on N=S>E>W ) kWh
Total Cooling Load (Glazing on N=S>W>E ) kWh
Total Cooling Load (Glazing on E=W>S>N) kWh
Total Cooling Load (Glazing on E=W>N>S) kWh
Radiant Temperature 35 33 31 29 27 25 23 21 19 17 15
100 mm Wall °C
200 mm Wall °C
300 mm Wall °C
400 mm Wall °C
EFFECT OF SHADING DEVICES Radiant Temperature 35 30 25 20 15 10 5 0
Sens 0 -50 -100 -150 -200 -250 -300 -350 -400 -450 -500
Radiant Temperature (Without Shading Devices) °C
Sensible Cooling (Without Shading Devices)
Radiant Temperature (With Shading Devices) °C
Installation of proper shading devices can save upto 2500kWh per unit of energy consumption.
Solar Gains Exterior Windows 200 180 160 140 120 100 80 60 40 20 0 05-11-2001
25-12-2001
13-02-2002
04-04-2002
24-05-2002
13-07-2002
.
21-10-2002
10-12-2002
29-01-2003
Solar Gains Exterior Windows (Glazing on N=S>E>W ) kWh
Solar Gains Exterior Windows (Glazing on N=S>W>E ) kWh
Solar Gains Exterior Windows (Glazing on E=W>S>N) kWh
Solar Gains Exterior Windows (Glazing on E=W>N>S) kWh
Total Cooling Load 05-11-2001 0
25-12-2001
13-02-2002
04-04-2002
24-05-2002
13-07-2002
01-09-2002
21-10-2002
10-12-2002
29-01-2003
-100 -200 -300 -400 -500 -600 100 mm wall kWh
200 mm wall kWh
300 mm wall kWh
400 mm wall kWh
Solar Gain
ible Cooling
kWh
01-09-2002
200 150 100 50 0
Solar Gains Exterior Windows (Without Shading Devices) kWh
Sensible Cooling (With Shading Devices) kWh
Solar Gains Exterior Windows(With Shading Devices) kWh
HEAT GAIN
ROOF INSULATION Adding Insulation of XPS Extruded Polystyrene of just 40mm along with Reinforced concrete can save upto 3200kWh per unit of energy demand annually.
25
45
20
40 35
15
30
10
25 20
5
15 10
0
5
-5
0 0
Heat Gain through roof(Uninsulated) kW
WALL MATERIAL It has been observed that AAC block performs best in a range of wall thickness 200mm-300mm. It saves upto 250kWh of annual energy demand per unit of a cluster from the conventional brick wall system.
Heat Gain through roof(Insulated) kW
Radian
Total Cooling Load
05-11-2001 25-12-2001 13-02-2002 04-04-2002 24-05-2002 13-07-2002 01-09-2002 21-10-2002 10-12 0 -100 -200 -300 -400 -500 -600
EFFICIENT DESIGN Combining the optimum solution from the above 5 factors, it has been found that AAC wall with thickness of 250mm, insulated roof and windows designed with proper shading devices can reduce the annual energy demand by 4000kWh per unit in a cluster of 4 than a conventional brick wall system of 230mm.
Total Cooling Load (AAC Block Wall) kWh
Total Cooling Load (Cavity Wall) kWh
Total Cooling (Brick Wall) kWh
Total Cooling (Concrete Block Wall) kWh
Total Cooling (Hollow Concrete Block) kWh
Total Cooling(Insulated Wall) kWh
Cooling load
0 -50 -100 -150 -200 -250 -300 -350 -400 -450 -500 Total Cooling Load (new) kWh
Total Cooling Load (conven onal) kWh
RADIANT TEMPERTURE
Total Cooling Load 0 -100 -200 -300 -400 -500 -600
10
20
30
nt Temperature (Uninsulated) °C
40
50
-700 Total Cooling(Insulated) kWh
Radiant Temperature(Insulated) °C
2-2002 29-01-2003
Total Cooling(Uninsulated) kWh
Radiant Temperature 35 33 31 29 27 25 23 21 19 17 15
Radiant Temperature (AAC Block) °C
Radiant Temperature (Cavity Wall) °C
Radiant Temperature (Brick Wall) °C
Radiant Temperature(Concrete Block) °C
Radiant Temperature(Hollow Concrete Block) °C
Radiant Temperature(Insulated Wall) °C
Radiant Temperature 35 30 25 20 15 10 5 0 05-11-2001 25-12-2001 13-02-2002 04-04-2002 24-05-2002 13-07-2002 01-09-2002 21-10-2002 10-12-2002 29-01-2003 Radiant Temperature (New) °C
Radiant Temperature (conven onal) °C
First Floor Pla
DHARMALAYA Tradition + Innovation = Sustainability, Health & Joy Bir, Uttarakhand Volunteering experience (May - June 2017) I worked in Dharmalaya for 4 weeks and did various types of activities from laying foundation, brick making to plastering . I was involved in the construction of a Duplex house which was built for the visitors.
Store Kitchen Bed Room
Living
Entry
Toil
an
Store
Bed Room
Kitchen
Entry Living
Toilet
let Adobe Bricks
Ground Floor Plan
0
1
2
4
8M
Typical section of Building
Side Elevation of Duplex
Front Elevation of Duplex
COB MAKING Cob is a natural building material made from sub soil, water, some kind of fibrous organic material (typically straw), and sometimes lime. Cob Is fireproof, resistant to seismic activity, and inexpensive .The earthen mixture was then ladled onto a stone founation in courses and trodden onto the wall by workers In a process known as cobbing.
Ratio Earth : Rice Husk - 6 : 1 Earth and rice husk are mixed along with water to a definate consistency in wheel barrow’s or tarp according to the quantity need. The moulds are washed everytime a brick is laid. Some amount of quarry dust sprinkled into the mould to patch up the uneven surface. The adobe bricks are shade dried for a day and the sun dried for minimum three days and then stored inside the houses. Adobe Construction Adobe construction is a low-cost, readily available construction material, usually manufactured by local communities. Worldwide use of adobe is mainly in rural areas, where houses are typically one storey, 3m high, with wall thicknesses ranging from 0.25 to 0.80m. It has excellent thermal and acoustic properties. A traditional adobe house that exhibits good seismic behavior is the bhonga type in dry climate, Adobe structures are extremely durable and account for some of the oldest existing buildings in the world.
After the foundation is laid, then we started with the laying of Adobe bricks. Each course is checked with plum bob after construction. The rubbles are used to fill the gap when the gap between two bricks are more. More gap comes between the bricks when the vertical joints are been maintained. mpressive strength of adobe bricks by 3 to 4 times in comparison with rice straw bricks.
Chhachhra Making (using Bamboo) Bamboo is available in abundance in Himalayas. It can be cut into several layers and then these are used for shuttering work. Earthen vs Concrete The advantage of earthen building is the minimal environmental impact it has since the materials can be locally sourced and at the end of its lifetime, which is considerably longer than concrete, it can be recycled on site.
Other Constituents Sub soil Subsoil plays a major role in compressive strength of the brick. The sub soil is considered to be more moist. Rice Husk Here rice husk provides the brick tensile strength. The tests proved that rice hus helped in increasing the compressive strength by 3 to 4 times and also it adds insulation to the building. Cow Dung It was used for Plastering
ompetition entries
In this section, I will be presenting entries of various national and international competitions whom I participated during my bachelor’s studies.
120 Hours INTRODUCTION Theme : Passive and Low Energy Architecture - Smart and Healthy within the 2-degree Limit Organising authority : PLEA Hongkong Other collaborators : Juhi Srivastava Key factors : Science and Technology People and Community Design and Practice Education and Training
3.21
PLEA Theme : Passive and Low Energy Architecture - Smart and Healthy within the 2-degree Limit Organising authority : PLEA Hongkong Other collaborators : Rishi Tiwari Aishwarya Tanaya Wasnik Key factors : Science and Technology People and Community Design and Practice Education and Training
3.21
Electrical Energy Heat Energy Views Dayligh ng
Completely open
0
25
50 %
30 degree tilt in horizontal
0
25
50 %
Completely open
0
25
50 %
Completely closed
0
25
50 %
75
100
3.22
HUDCO Housing and Urban Development Corporation Limited. Chanakyapuri, New Delhi, India Organising authority : NASA India (2017-18) Other collaborators : Juhi Srivastava Mukul Goyal Saivivek Kalivemula
PLOT AREA : 18000 sqm Result : Special Mention
3.21
3.22
tudio projects
In this section, I will be presenting some of my selected academic projects. I will be showcasing my designing and rendering skills.
SCHOOL DESIGN Roorkee, Uttarakhand
4th semester design problem Type : Educational (School and Kindergarten) PLOT AREA : 14000 sqm
BRIEF A child enters a school as a toddler & leaves as a teenager. It is important that the design remains valid for generations of children. It is important that a school went beyond the 3 dimensions of space and catered to the 4th dimension of time. The basic idea was to create three kinds of spaces. Covered spaces to house activities which need full attention from the children. Semi-covered spaces (i.e. courtyards with pergolas above) for group and fun oriented activities (e.g. circle time!) that don’t need too much attention. Fully open spaces for outdoor play. Instead of designing one big mega structure to house the entire school, I chose to split it into smaller units, so that the size would get scaled down for a child’s visual and emotional comfort. The spaces were assigned names which would make each unit a home away from home e.g. a classroom was called ‘a house’, storage space space was called ‘treasure hunt’, restroom area was called ‘cleanshi’ etc.
School
Play
A
A’
Location : Roorkee, Uttarakhand Site Area : 14000 sqm Site is located in the Marshy land of the Roorkee near the Ganga Canal. There is a problem of soil settlement on the site. To cater the problem of water logging , large plinth has been provided with the pile foundation all over the building. Site has been devided into several zones. 1. School 2. Kindergarten 3. Admin Block 4. Parking 5. Canteen 6. Informal seating spaces 7. Playground for school with Rock garden 8. Playground for Kindergarten 10. interior courtyard for school to carryout indoor activities or smaller outdoor activities School The school has classrooms till 8th grade and each grade has 2 sections. Each section will comprise of 40 students. The area for each classroom is 90-100 sqm. Apart from these school has -Computer lab -Library -Science lab (P, C, M each separately) -Dining room and kitchen -Staff room KinderGarten -Kindergarten has 3 classromms -Principal’s room -Staff Room -Sick room -Care taker room -Kitchen
B
A
Cafeteria KinderGarten Ground
15 m Highway Road
E1
B’
E1
Parking
Main Entry Academic block
Waiting Area
0
2
4
8
16M
SCHOOL DESIGN Ground Floor Plan
1st Floor Plan Dining
Toilets Kitchen Staff Room
Terrace
Lift Waiting Area Courtyard Classrooms Columnated Corridor
Skywalk (Bridge)
2nd Floor Plan
3rd Floor Plan
Concept Circular Studies strongly claim that children whenever left free instinctively love to run in closed circular paths. Hence the plan calls for numerous opportunities for circular movement in internal planning. Noise Contrary to the obvious belief that silence is a must for concentration for children the case is entirely dierent Noisy environ• ment improves their concentration and silence makes them nervous.
Concept
Studyzone on GF + Service Zone FF
+
Staff Ro Admin Zone
Recreational Zone
Staff Toilet Void surrounded by columnated space
Office + Principal’s room
Main E Sick Room
Wooden columns 150mmx75mm
Toilet (Female)
Ground Floor Plan Study Room
Toilet (Male)
Towards Playground
Toilet (Universal)
Central Void
oom Art and crafts room
Music Room
s Main Entrance
Entrance Kitchen
E2 Elevation
E1 Elevation
Section AA’
S
Section BB’
SCALE - 1.200
SCALE - 1.200
SCALE - 1.200
Bridge near canal
HEALTH FOOD HAAT Roorkee, Uttarakhand
6th semester design problem
PLOT AREA : 2400 sqm
Space to have a more clear experience of water
Built Structures overhead temporary stalls Built Structures also used to collect rainwater
Walking promenade Walking Stalls
BRIEF For generations, street vending has provided vibrancy, colour and a market outlet in Indian cities Infect the most visible face of the informal economy in the urban landscape is that of the street vendors— a class of humans known but unknown. However. street vending exacerbates congestion at busy sites (where competition for space is acute) and vendors lack the facilities for 'decent work' This lack of space tag surfaced pavements and secure vending sites) and lack of facilities leg shelter street drainage water and toilets, or storage) cause major problems for vendors.
A
- Semi open space for fruit vendors - Built space for preparation of juice/fruit salads - Outdoor and semi covered landscaped seating areas - Toilets
Elevation E2
This has to be work in accordance with the (i) Edge conditions, especially since physical access to the canal water is not to be given (ii) Potential cultural programs and get-togethers for the fruit and vegetable sellers (iii) Waste disposal (especially organic waste) (iv) Services - plumbing, drainage, transportation (parking, access), etc. Permanent overhead roof has been provided to protect from harsh sunlight. Shop vendors have ďŹ xed timings for their stalls, accordingly they cn place their stalls Dustbins are provided against each stall to collect the garbage which later on transfer to a large waste collecting area on the site itself from there Nagar Nigam truck will collect the garbage each morning for solid waste management Use of arches to contextulize the architecture of Roorkee city during the British India Walking water front promenade runs along the whole stretch of canal Projects like Health Food Hatt carries much wide perspective of any city, they represent the whole town and at the same time provide job opportunities for the poor people and lower middle class of the society. From the climatic aspects Water front development majorly do not need permanent structures but proper shades can be provided with the help of trees. This will not only protect from glare of the sun at the same time promotes the sustainability by reducing the air pollution and also soothes the whole environment. Waterbodies can be used for social purpose, along the Ganga canal and vibrant activities can be developed for public use, which includes waterfront parks, pedestrian lane and markets etc. It will be helpful in social integration, cultural development, can rediďŹ ne the lost character of the Roorkee city.
Toilet 2
Main Entry
Space for waste collection shared ParkingLarge among 4 shops Dustbin
Main Entry 1
Main Entry 2
Elevation E1
B
8m Wide road
Section AA’
A’
2 B’
Conceptual 4m x 3m shop design - Making “water” as a cental design element, the whole circulation revolves around it. - Central open space with the undulating terrain and at higher altitude creates perfect place for visitors and opens a playful enionment for the children.
y2
Permanent shops
Main Entry 1
Service Entry Toilet as 1 well as entry for waste collection
Temporary stalls with permanent overhead roof
0
2
4
8
Design Elements on the Site WATER Water can be soothing to eyes both physically as well ha psychologically. It ha two properties -Pleasant sound -Physical touch
Markets/Streets Streets brings noise and that primarily deďŹ nes the typical market of India. Cocept of Indian Bazaar can be used.
BRIDGE Moving cars and pedestrians on the bridge resembles the current lifestyle of people. It can be used to create interesting views
An Epitome of Indian Bazaar Certain sounds make Soundscape Bazaar unique to its place, noice of people, Smell
Visual
Positive as well as negative Certain smell make consumers to come back at
Narrow and small streets are the typical features of every Indian
Streetscape
Communication
How the Bazaar is formed from Feeling/taste the marketbooths to streetscape width and how spaces are designed according to the context of the site to have great
These markets act a a social gathering space and often the only means of communication during Particular market have its unique taste and it has certain impact on the mind of individual emotionally
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iscellaneous projects
In this section, I will be presenting some uncategorized work related to Building Information Modeling. I will be also showcasing some of my Graphic designing work
An isometric prepared for an International BIM Conference (EUBIM) in Valencia during my internship.
Exploded isometric for an apartment building which I modelled on Revit during my internship.
“ Gr eatar chi t ect ur eshoul dt el la st or y“ -Ol eScheer en