AFRAH B AT H S H A Architecture Portfolio
3
Curriculam Vitae
5
Retrofitting to the existing - Madurai 2050 (MA Architecture & Urbanism )
10
Smart Urban Heritage- El Raval, Barcelona (MA Architecture & Urbanism )
18
Redefining Attached Housing, Salford (Masters in Architecture)
23
28
CONTENTS
Edification of Spirituality, Calicut (B Arch Thesis project 2016)
National Institute of Design,Kollam (B Arch Semester 8 academic work 2015 )
30
Works From AUS Architecture, Bangalore (Proffessional Work )
34
Work From Ajit Menon Architects, Fort Kochi (Proffessional Work )
36
(Proffessional Work )
Work From VA, Bangalore
D.O.B. : 23 August 1993 Phone No :
Notable Projects Worked On:
+44 7379372910
Intern:
• Mall of the World, Dubai • IMPZ Competition ters,Dubai • Golf View Hotel, Dubai • Hard Rock Hotel, Abu Dhabi can Academy, Dubai
Email : abathsha@gmail.com
in
Junior Architect:
https://www.linkedin. com/in/afrah-bathsha-bb08989b?trk=nav_responsive_
• Imbichibava Hospital, Kerala • Samana Healthcare, Kerala • Chick Cottage, Bangalore • Sethuraman Commercial Complex, Karnataka • Amarnath Residence, Karnataka • EMS Educational Complex, Kerala • Sameer Residence,Kerala • Hanifa Residence Landscape,Kerala • Noushad Residence, Kerala • MK Residence, Kerala • Dr.Hassan Residence, Kerala • Haris Residence,Kerala
Afrah Bathsha
Architect: • Thomas Kuruvila Residence, Kerala
• Palluruthy Corporate Tower, Kerala • Santhilal Bakery and Cafe,Kerala • Naresh Bhai Residence, Kerala •Bharat Apartments, Kerala •CSI Resort,Kerala • Chako Residence,Kerala • Rajeev Cherthala Residence, Kerala • Manakkal Hotel, Kerala • Aswani Wholesale Dealers and Godown, Kerala
Education
Architect:
• Boeing India Engineering & Technology Center, Bangalore( Managed the team to construction under the direct leadership) • KPIT Campus, Pune
Indian Islahi Islamic Publc School, Abu Dhabi
TKM College of Engineering, Kollam Bachelors in Architecture
Manchester School Of Architecture
• RTO Headqua• GEMS Ameri-
Skills Languages: Design:
English (Native Proficiency), Hindi, Malayalam Design
Presentation
Concept
Communication and Leadership
Teamwork
Research & Writing
Sketching
Client and Consultant Management
Junior Architect (July 2016 - July 2017)
AutoCad - (2D)
Lumion- (3D Redering)
AUS Architecture, Bangalore
Rhino - (3D)
Enscape- (3D Redering)
Architect ( Aug 2017- Feb 2018 )
Revit Architecture - (3D)
Adobe Suite (Indesign,Photoshop, Illlustrator, Lightroom)- (Graphics)
Sketchup- (3D)
MS Office
MA Architecture & Urbanism
Masters in Architecture (Current)
Architetcural Experience Intern (June 2014 - November 2014) Aedas International, Dubai
Ajit Menon Architects, Fort Kochi Architect ( May 2018 - July 2019) Venkataramanan Associates, Bangalore
Software:
Academic works Masters MA, M Arch
Retrofitting in to the Existing - East Avani Madurai, India Stage 1: Connection Via Mobility -
N
Interconnecting the New and the Old by introducing an LRT line to and from the new city directly for the ease of tourists and citizens in terms of acces to the temple. The East Avani Street is to be pedestrianised, thereby devising basement parking facilities on either end of the street. The pathway to open only for emergency vehicles.
Stage 2: Connection via People -
Existing Plan
Public spaces are introduced and interconnected to each other via human centered activities including street based commercial activities, exercising areas, relaxing areas etc all based on the concept of Urban forests. All void spaces to be public and not as part of gated communities.
Madurai: Project Insight The site for the project is in Madurai, a radial city in urban planning of heritage value. Madurai is located in the south of India in the state of Tamil Nadu. This site is in a developing country with limited economic resources and is in the PHASE 2 of the India's SMART CITY MISSION.
Stage 3: Connection via Buildings The Puthumandapam to have its orginal landuse as when constructed; Communal Gathering space.
This is very apt in terms of the brief of defining a new mixed use development as there is a need for it devoid of the barriers between urban production and living, working and public space as the area around the temple reeks of the artiistic and heritage culture and in turn commerce. The research will be based on the three street radius of the temple but the design strategies will be for the East Avani Street.
Wind Direction Sun Path InterconnectionsDesign proposal
The passage to the Meenakshi Amman Temple via the Puthumandapam from the Raya Gopurams under the watchful eye of the protector “Nandi”. All landuse activites dedicated to the temple. Interconnection between the public plazas on either side of the Puthumandapam to be via the building itself.
Mixed Use Development:
Barrier Free Landuse Pattern: Urban Production, Living, Working and Public Space. The buildings highlighted in the figure on the left are redesigned to be of mixed used development. This shall showcase an integration of the vertical horizontal zoning of lanuse in a building. This model is recognised due to the requirement of the people of Madurai, who find it extremely difficult to have workshops (Urban Production), Residences and Storefront in different areas of the city and the lack of proper infrastructure that aid in the former. Due to this most of the plots in and around the area are left vacant and people are migrating to the new town and hence the identity of the city is quietly fading. The public open spaces can be integrated into urban planning as shown in the green patches in the site plan opening the superblocks making the city more accessible.
N
Mixed Use city: Masterplan Zonong
In cities like these as we move forward in 2050, WHAT we require aren’t skyscrapers sometimes but careful retrofitting into the existing to make a livable home for the people.
Residential Commercial Assembly Mixed-Use Building
Existing Scenario Scale : 1:3000
Mixed-Use Building (Commercial and Workshop)
Future Vision
n
Section D-D’
Key Plan Section D-D’
This section cuts through a new public space which is supposed to be flexible with workshops for the commercial activity around to be spilled into it. The uses can be as follows: Concerts, street hawkers, street performances, fairs etc.
Roof + 14.0 m
Commercial Buildings with interactive workshops inspilling into the courtyard.
Second Floor + 10.0 m First Floor + 6.0 m
Commercial
Workshop
Commercial
Puthumandapam
N
Section A-A’
Section B-B’
Site Plan Section B-B’
Roof + 14.0 m Residential
Second Floor + 10.0 m
Residential
First Floor + 6.0 m Mez. Floor + 1.5 m Basement - 2.5 m
Commercial
Workshop
Comm
Inverted Kinetic dome with photo and motion sensors opening the dome at night during respiration and closing during harsh weather like rain and sun.
mercial
This area provides water in the roof to channel to the water source inside the building to recharge the ground water source
Recycled Wooden Screen
Courtyard Area Of The Building Linking Basement And The Private, Semi Private And Public Areas
Green wall shading the harsh sun from the south and giving a cold atmosphere inside
Office Space Cafe
Office Space
Basement Parking
LRT Line
Smart Urban Heritage - El Raval, Barcelona El Raval: Existing Scenario Despite barcelona is the 8th best smart city in the world, El Raval district still suffers to be the one of the backward areas in the European Union that requires the EU Cohesion fund for it’s development. The El Raval District has its beauty in its history and culture, but there are certain blots that keep it from being picturesque wholly. Some of the imperfections in the visual aspect can be found due to the some of the following reasons: • • • •
Lack of green spaces and hence Grey. Congested electric and other service lines Heterogeneous character Unorganised positions for the waste bins
OBJECTIVES • The process would be done in two phases; first phase being the central spine redesign, since this area requires immediate attention, and the second phase that of the green connecting to the rest of the Barcelona and the third phase can be the redeveloment in the museum area and the external boundary redesign. • Decluttering and decontaminating the area from the existing littering and unmaintained buildings. • Integrating the local inhabitants of the area for the processes so that they can be a part of the developments taking place. • The lack of vegetation, which is one of the major causes of a monotonous grey aura, is dealt with.
DISCLAIMER: This projects initial studies have been published in the following link: http://disegnarecon.univaq.it/ojs/index. php/disegnarecon/article/view/612
Ramp so that the ground has a grass cover. Urban Forest Walk..
PRT Lane on columns
LRT Lane on columns
FUTURE VISION EXISTING SITUATION
Developing green spaces and integrating into the monotonous grey tone. The concept is to create an urban forest for a start towards climate crisis. Pedestrianisation of the internal roads help to achieve this. The irrigation will be provided by the desalination plant and water treatment plants.
Road to be removed
EXISTING SITUATION FUTURE VISION
EXISTING SITUATION FUTURE VISION
Cycle Track
Ramp so that the ground has a grass cover. PRT Lane on columns
Street shopping, seating areas for the amazing dining cultutre
EXISTING SITUATION FUTURE VISION
Developing green spaces and integrating into the monotonous grey tone. The concept is to create an urban forest for a start towards climate crisis. Pedestrianisation of the internal roads help to achieve this. The irrigation will be provided by the desalination plant and water treatment plants. The central spine area to be
Attached Housing - Manchester, UK
The proposal is to construct houses utilizing a prefabricated 2D Primary structural system of insulated timber panels, through the use of Field factories situated on a vacant plot of land next to the chosen site. One of the main barriers to offsite fabrication is the initial capital investment, high transport costs and the financial instability of offsite manufacturers. The use of field factories in the manufacture of 2d components will reduce the associated transportation costs, disruption and delays and will have lower associated start up costs. Lesser transportation Constraints.
STEP 1: ORIENTATION
Well shaded
-External connectivity
No more than 30° due South
Overheating
STEP 2: STREET PLANNING Vehicle Community Pedestrian
KEY CONCEPTS
Increased importance
STEP 5: CONSTRUCTION SIP PANELS
ENHANCING LOCAL CONDITIONS
AFFORDABLITY
-Visual connectivity
STEP 3: VARIATION OF STOREY HEIGHT
COMMUNAL CONNECTIVITY
LIGHTWEIGHT EFFICIENCY LESS WASTE AIR TIGHT
RETROFIT DEMOLISHED RECYCLING THE STREET
Choice of SIP thicknesses depends on target insulation of project and budget constraints. SIP 200 SIP 175 -175mm (including 2x11mm OSB/3) -0.14w/m2k £110 + VAT per panel
-200mm (including 2x11mm OSB/3) -0.12w/m2k £125 + VAT per panel
SIP 255
SIP 250
-225mm (including 2x11mm OSB/3) -0.11w/m2k £135 + VAT per panel
-250mm (including 2x11mm OSB/3) -0.10w/m2k £145 + VAT per panel
Private: Bedroom, toilet Semi-private: Work & play space Public: Living, dining, kitchen East, west facing: Least glazing -prevent overheating
Decreasing glazing sizes
STEP 6: GLAZING
North, south facing: More glazing -allow daylighting
Massing Diagram 3 Storey
Massing Diagram 2 Storey
Massing Diagram 1 Storey (Studio)
Studio Unit
2 Bedroom Unit
3 Bedroom Unit
Connections from the HPVT panels.
Hybrid Photovoltaic Thermal (Pvt) Panels
Domestic Water Piping Rainwater Harvesting Piping
MHRV System in the Attic
Used Hot air from inside (MHRV)
Balcony Floor and Handrail: Timber
Fresh Heated air from Outside (MHRV) Natural Ventilation
Triple Glazing
Structural Insulated Panels LIFEPO4 Fitcraft battery system
Cross Ventilation Wherever possible or Adjacent Wall Vent Otherwise.
Rainwater Harvesting Tank
Energy Strategy: With the Sefeira Tests Analysed • Prototypes to have MHRV systems as they are comparatively economical compared to Ground source heat pump in terms of initial capital and long-term maintenance. • Rainwater Harvesting Tanks to be a part of the housing. • Hybrid Photovoltaic Thermal (PVT) Panels aiding in the working of the MHRV • A smart LIFEPO4 Fitcraft battery system. Positioned under the stair stores solar electricity, minimising grid imports and limiting grid export to 3kW maximum avoids the need to upgrade the existing mains grid infrastructure. • Passivhaus Construction: (a) High Performance Triple glazed windows, (b) Structural Insulated Panels, (c) Cross Ventilation, (d) Refracted Awnings, (e) Form factor, and (f) Orientation. • Optimal layout of Piping and Ducting. • Superinsulated cladding with heat recovery ventilation and triple glazing reduces heat demand to the point where a Tiny Heat Pump can provide comfort and hot water.
North Orientated
Section: Ventilation
EXISTING SITE PLAN
South Orientated
PROPOSED SITE PLAN
Academic works Undergraduate B Arch
Edification of Spirtuality
Accomodation
Cultural Wing
Why This Project???? : As we go into the future, the necessity of retaining culture and tradition of religion has never been more crucial. In the modern society, where change is an inescapable process, values and traditions are just victims. A cultural center will open doors to people of all religions and become more of a center to educate rather than a polarized entity within the fabric of our cities and towns.
Educational Wing
Admin Wing
The Cultural Centre is a public space open to people of all religions who would like to know more about the religion. Owing to the current affairs that have been going about, there have clearly been misconceptions about the religion and hence the people interested can use the facilities provided to get a better knowledge. There are very few Islamic cultural centers that one can see in India ( eg. Indian Islamic Centre, New Delhi, Islamic Cultural Centre Thane etc.), but these are mostly private facilities that only members can enter and be a part of. Most of these centers are also based on caste system and hence all the Islamic population can’t be a part of. Hence the aim of my project is to design a purely public facility retaining the traditional values and integrating the contemporary elements accessible to all.
Site Study and Analysis
Mosque Main Entry
• Since the mosque is the most public area in the project, it is positioned at the very entrance of the site . • Admin is the entrance to the cultural center and hence is positioned next. • The cultural wing is the block that requires maximum area and hence is placed in the most flat area found according to the slope analysis. • The educational wing is placed right next to the cultural wing so that it can enjoy a good view of the busy street.
Legend Natural Drainage Wind Direction
• The residential wing is kept at he topmost wing as there is a government school near to that area. This way the activities of the cultural center are not disturbed by the activities of the school and vice-versa
Sun Path Main Entry
Rhy
SWOT ANALYSIS :
Existing Scenario : Islamic architecture encompasses a wide range of both secular and religious styles from the foundation of Islam to the present day.
Orgin :
Roman, Byzantine and Persian lands which the Muslims conquered
The principal Islamic architectural types are: the Mosque, the Tomb, the Palace and the Fort. From these four types, the vocabulary of Islamic architecture is derived and used for other buildings such as public baths, fountains and domestic architecture Islam is the second-largest religion in India, making up 14.2% of the country’s population with about 172 million adherents (2011 census). The current scenario is that there are a lot of fallacies about the religion and as time has progressed, even the believers have begun to forget their roots. The recent issues of Charlie hebdo shooting and other ISIL attacks which are being held in and against the name of Islam have caused people to be confused and have misconceptions about the religion..
STRENGTHS: • Views and Vistas of the site are excellent and it has a natural environment aura all around • The site is located on the NH byepass which makes the site easily noticeable and all imortant amenities are in the vicinity. • Natural vegetation and a distinct pathway for natural draingae • Presence of immense natural sunlight and wind without any obstruction. OPPORTUNITIES:
All organizations are private and one has to be a Muslim to be a member or follow that particular caste. In Kerala, organizations are mostly formed according to the caste they follow.
• There is a government school nearby, whose students may be disturbed due to activities of the cultural center. This can solved by providing the educational wing towards that side and providing mazimum buffers.
Indian Islamic center on the the other hand is private but even non muslims can be a member .
• Immense volume of traffic from the NH side and hence noise buffers and polution buffers to be provided.
At present there are about 21 organizations in India of which the most established, reknowned and architecturally planned is the Indian Islamic Cultural center, New Delhi.
Cultural Wing Educational Wing
Auditorium Parking Mosque Main Entry
R C
S
Admin Wing
• Contour Site; giving it high possibilities of design and planning manipulation with a play of levels WEAKNESS:
Accomodation Wing
Service Areas
This project is an Islamic Cultural Center which is to be open to public with all religious beliefs. The site located in one of the trending areas in Kerala, i.e. the new NH bypass in Calicut. The vistors enter the site with mosque on their left and the parking is on either side after drop-off in the admin block. The parking is 30 degree angle parking.
Landscape concepts
The road has been designed with a slope of 1:10 and a pedestrian pass of 2 m width follows the road.
The other blocks included the educational wing, the auditorium and the mosque
Admin Block 3 A102 3 A102
5.13 1.74
1.50
1.74
1.15
1.50 1.50
1.74 1.15
1.15 2.20
1.50 1.02
1.15 1.98
2.20
1.02
0.10 1.80
0.32
1.98
1.98
0.65
0.10 1.80 1.50
0.32
0.65
1.50
1.98
0.65
1.20 0.60
1.50
0.65
2.70
1.50 0.52
1.20 0.60 1.98
0.12
2.70 1.98
0.52
0.82
1.98
1.98 0.12
0.12 1.98
1.98 0.60
0.82
1.98
0.12
1.98
0.60
2.00
2.00
2.20
2.20
Telecommunications Room 11 m²
4.10
1.27 0.35 1.33
2.00
0.35 1.35
1.98
1.98
1.49
1.27 0.35 1.33
5.75
1.98
0.50
1.49
2.85
5.75
3.80
0.50 10.00 46.20
1.10
2.85
3.52
1.21
3.80
Plinth Lvl 1 : 100
1.48
0.49
3.52
1.48
1.98
1.21
1.69
1.12
1.48
1.73
0.49
1.98
1.48
1.07 0.35
1.98
2.00
1.69
13.90
1.40 0.90
1.98
3
Section 4 1 : 100
2.00
5.00
10.00
4
Section 5 1 : 100
EDUCATIONAL WING
Ground Floor Plan
0.5
South 1 : 100
1
South 1 : 100
Front Elevation
0.3 0.6 0.5
10.00
1.07 0.35
5.7
1
1.4 1.7 0.3
2.00
5.00
1.73
0.3
2
1.12
1.10
10.00 46.20
Plinth Lvl 1 : 100
0.50.5
DN 0.00
0.3
1.98
0.45
DN
0.00 0.00 DN
1.5
0.35 1.35
LIBRARY
4.6
2.00 0.45 0.45
DN
MOSQUE VIEW
1.10
1.10
UP
0.00
2
1.4
1.02 0.50 1.98
UP
0.45
2.00
0.3
North 1 : 96
Admin Office 34 m²
1.1
Admin Office 34 m² Reception 76 m²
Reception 76 m²
REF. DW
0.201.02
Rest Room 8 m²
Rest Room Wash Room 8 m² 8 m²
2.70
0.90
2 Board Room 77 m² Wash Room 8 m²
Board Room 77 m²
2.70
Orientation Room 77 m²
Orientation Room 77 m²
3.1
4.65
2.00
2.00
0.35
1.40
4.75 4.65
1.02 0.50
0.20 0.35
1.98
2.00
DN
DN 1.40
4.75
REF. DW
1.40 0.20 1.60 1.98
1.80
1.60 0.201.02
1.98
1.40 0.20
0.20
1.80
2.00
DN
13.90
A102
A102
3.00
DN
3.00
5.80
26.20
DN
0.45
0.45
0.25
0.25
1.90
1.90 4.10 1.40
1.35
1.35 5.80
2
26.20
DN
2
MOSQUE FRONT ELEVATION UP UP
REF. DW
Store Room 26 m²
Conference Room 77 m²
Conference Room 77 m²
DW REF.
Pumproom 19 m² Room Store 26 m²
Pumproom 19 m²
DW REF.
1.50
1.25 1.50
Director's Room 58 m²
Director's Room 58 m²
REF. DW
Telecommunications Transformer Room Room 1911 m²m²
Transformer Room 19 m²
1.25
1.25
1.25
1.50
1.50
1.15 0.20
1.15 0.20
2.00
2.00
5.13
1.74
AUDITORIUM
Museum Block The museum is based on the concept of rhythemic tessalations. Even in the planning the flow of public and ergonomics have been taken into consideration. Each exhibit is handcrafted to perfection utilising the local materials available and appropriate lighting and sound system has been given to assist.
Services :
Lighting:
• Consists of beam detectors for the stability of the building • Consists of smoke detectors and wet riser systems • CCTV cameras are provided at every gallery’s entry and exit • All materials used are fire proof • Gypsum painting, leather painting etc are kept fire prof • Centralized AC system used and AHUS are present in the ground floor
• Different methods of artificial lighting are used: • Track Lighing • Movable optical Lighting • Led Lighting • Fresnel Lighting. • In most of the display units, Led lighting of diffierent colours are provided behind the FRP Sheets and plywood paintings. • In case of thr boat gallery : • Movable Lighting • Fresnel Lighting with reflectors
Materials : •Flooring: Epoxy, Gypsum •Walls: Gypsum, Fare face concrete •Display Units: Plywood, Phulkari, Poly carbonate Sheet, FRP sheet, Stainless Steel, Plaster of Paris etc.
Exhibit sketches
Sound Insulation : • Materials used: Gypsum walls and ceiling. • Acoustic panneling provided wherever phulkari walls are used. • Sound system is provided behind the display units. • Spoken word will play a role of greater significance over the written one. Thus, a trigger based audio guide serves as a seamless overlay on the scenographic exhibit environments as the visitor moves from one exhibit and gallery to the other.
• Although natural light is not used much, skylights are used. • Different shae for different galleries • Skylights are covered with halogen silk screens; These allow only 10% of direct sunlight to come inside. • Lights are controlled automatically with the help intelligent building systems.
National Institute of Design, Kollam AMALGAMATION IS THE MIXING OF TWO ELEMENTS AND HERE I HAVE CHOSEN TO WORK WITH TWO CONCEPTS, MIXING THEM TOGETHER FOR AN EFFICIENT PLANNING. FOR THE planning ASPECT OF THIS PROJECT, THE NAVAL TERMINOLOGY “NETA” , MEANING “neat, safe, efficient” IS projected as the design concept keyword. Since the spatial planning and operation principles of ships and dockyards are based on simplicity, plainness and efficiency, this concept was very much appropriate with the use of brutal materials and functionalist simplicity of the overall layout. “Clusters of compact, multi-functional buildings with green roof areas create essentially versatile spaces where outdoor spaces converge. The buildings will be better integrated into the landscape.
Faculty Housing
Auditorium
Sketch Scheme
The project allocates an intense programmatic function in fragmented blocks embedded in a contour site. The basic aim was to create open- air public spaces among blocks where students and academic staff may interact with each other throughout the day. The steep slope of the terrain and the fragmented blocks are utilized to minimize the perception of the overall campus silhouette. An open-air walkways binds the interconnected blocks over the ground. This spine defines the main circulation path of the overall campus and enables the experience of the continuous interaction and the nature within the campus.
Design
For a more form based approach, volumetric alterations can play a great role in spacial definition. the jigsaw puzzle can be worked out in numerous ways to finally find the apt solution.
Adminstration Block
Academic Block
Auditorium The Auditorium, being the public platform used by visitors and students, is located first at level +9.00 with a capacity requirement of 400-600 people. The Roofing done is a steel space frame with poly carbonate sheet covering. Landscaping of the the auditorium site follows the same pattern as that of the master plan. The concept behind it being the play of levels and volumetric alterations.
Student Housing Block
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Admin Block
Academic Block
Exam Room
Accounts/ Registar
Students Record
Dean's Office Reception
HVAC Room PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Generator Telecom Room Room
Admission Office
Co- Curricular Dean's Office
Chairman's Office
Administrative Office
Washroom
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Rest Room / Pantry
Service Room
Electrical Room
Washroom Pump Room (M)
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Washroom
Washroom (M)
PLINTH LEVEL PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRO
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
The Administration block, which is the most public space, comes just after the auditorium at level + .00 with a grand reception, accounts section, other academic offices and conference rooms meeting the necessary requirements. The building with it’s vernacular attire projects elegance throughout.
LEVEL 1
LEVEL 2
The Housing Blocks of both faculty and students have been designed with adequate care meeting the requirements of the inhabitants. Faculty housing of capacity 15 and student housing block of 128, 2 blocks of each in total meeting the requirements of the given project.
SITE MODEL
STUDENT HOUSING
Both buildings give out an elegance of exposed brick masonry and with lavish porch with all the amenities required by them in the block itself.
Student Housing Block Academic Block
Faculty Housing
Auditorium
Adminstration Block
SITE MODEL
Proffessional works
220.9
95
501.7
106
75
191.1
249 193
389
389 356
120
356
25X40 75
25X40
52
106
188
389
389
384
379
66 103
251
134
220 159.5
356
25X40
75
246
REFER DETAIL AA
89
358 93
103
DUCT
553
523
387
188
901
2727
100
505
342
316
256
652
75
DUCT
140
DUCT
806
924
844.5
60
193
193
188
100
202
103
390
90
- BEAMS OF 20 CM WIDTH
553
- BEAMS OF 25 CM WIDTH
513
103
- BEAMS OF 30 CM WIDTH 99
153
320
50
124
63
68
20
65
638
638
638
726
63
63
63
63
REFER DETAIL B
63
60
63
63
63
63
346
63
63
63
- SUNKEN SLAB (SUNKEN BY 10CM) 350
153 63
63
- PT BEAM (VARYING WIDTH) - SUNKEN PT BEAM (VARYING WIDTH)
297
392 143
365
- BEAMS OF 40 CM WIDTH - BEAMS OF 50 CM WIDTH
638 354
107
127
412
140
163
476
476 121 50
575
127
DUCT
157
285
226
100
155 282
210
120
230
97
DUCT
123
DUCT
DUCT
471
274
- BEAMS OF 15 CM WIDTH
553
221
520
120 50
226
824.5
839.5
759.4
662
NOT TO SCALE
157
153
25X60
DETAIL A
131
218
487
120
578 242
186
216
244
773 60
60
420
25X50
384
287
829 653 60 678
63
153
25X60
136
191 147
2792
75 35 462
492
389
153
171
556 467 60 788
1315 75
95
663
75
254
254
427 103
63
68
205
293
249
303.5
386.5
266 6 236
316
236
316
342
196.8 513.5 276
414
448
83
381
98 130
220
113 113 113
473.5
130 95
20X40
DUCT
322
20X40
307
25X40
242
139
20X40
63
15X40
139
25X60
S2
139
25X40
12cm
BEAM - Z8
168
153
126
134
BEAM - Z2
434
12cm
153
20X40
DUCT
107
20X40
20X40
20X40
63
25X60
291
63
DUCT
120 157
307
30X40
5
307
20X40
15X40 BEAM - Z2
LIFT WELL
553
EXPANSION JOINT OF 5CM
307
25X50
256
249
20X40 57
103
BEAM - Z3
STAIRCASE
323
20X40
63
432
15X30 BEAM-Z4
75
LIFT WELL
REFER DETAIL Y
DUCT
135 DUCT
20X30
25X50
105
DUCT
PT SLAB 180mm THICK
DISCLAIMER: This is a professional project signed with non disclosures and hecne is only for the use of the portfolio.
513
25X60
153
BEAM - Z6 BEAM - Z6
20X40
20X40
70.5
25X60
523
12cm
309.9
45
139
BEAM - Z3
20X60
249
25X60 139
DUCT
88
153
63
25X40
553
153
120
15X40 BEAM - Z2
147
20X40
DUCT
BEAM - Z5
BEAM - Z2
115
25X60
25X60
REFER DETAIL X
52
356
25X40
512.5
25X40
356
30X60
300
STAIRCASE
356
DUCT
191
364
319
25X40
30X40
103
67
25X40
25X40
25X40
158.5
DUCT
DUCT
57
Z13
163
242
DUCT
25X60
93
301.5
DUCT
108.5
DUCT
DUCT
DUCT
LIFT WELL
235
63
DUCT
I was working on the project since Dec 2017 and was in charge of handling the project from April 2017.
523
DUCT
75
226
143
211 256.5
STAIRCASE
60 242
DUCT
REFER DETAIL A
553
25X30
103
DUCT
386
DUCT
498
744
STAIRCASE
83
392
55
107
206
426.5
419
419
411 120
DUCT
75
120
392
Imbichibava Hospital, Tirur
496
419.5
537
DUCT
124.5
744
628
75
75
75
55
107
82 197
DUCT
DUCT
The Imbichibava hospital in Tirur, Kerala was a project started in 2013 and is in construction stage at present. I started working on the construction stage and was in charge of the whole project including coordinating the consultants as we were the lead consultant. This hospital has a built up area of around 9000 sq.m.
DUCT
247
75
DUCT
63
63
63
63
63
68 20
DETAIL B NOT TO SCALE
95
75
57
+ 00 LVL
NO BRICK WALL
D1
SILL @ 180 LINTEL @ 240
SILL @ 100 LINTEL @ 240
UP
SILL @ 000 LINTEL @ 240
92
113
GW1
27
1442 SILL @ 100 LINTEL @ 240
45
REFER DETAIL A
418
253
ORTHO CONSULTATION ROOM 400 X 295
146
75
45 183 245
161 183 45
389
1489
101 50 193 32
93 78 93
87
SILL @ 100 LINTEL @ 240
146
DUCT 23 52 23 100
SILL @ 060 LINTEL @ 240
OP
20
113
LINTEL
HEIGHT
TOTAL
75 240 120 150 180 200 240 100 90 80 300 VARYING 110 250 60 110
60 00 00 00 00 00 00 00 00 00 00 10 10 100 100 100
240 240 240 240 240 240 240 240 240 240 240 240 240 240
180 240 240 240 240 240 240 240 240 240 240 140 140 140
21 2 22 1 9 3 4 5 11 1 1 5 7 19 9 2
60 180
1 10
DD MD D1 D2
17
STW
VARYING
10 FROM LANDING BEAM
18 19
V OP
90 VARYING
180 60
D3 D4 D5 D6 D7 D8 D9 GW GW1 W1 W2 W3
(ALL DIMENSIONS ARE IN CM)
SILL
VARYING ACC. BEAM DEPTH
VARYING 240 240
4
SILL @ 100 LINTEL @ 240
W1
FIRST FLOOR
GEN SURGERY CONSULTATION ROOM 400 X 300 238
OP
LINTEL LVL @ 240
REMARKS GLASS DOOR
STAIR WINDOW
DUCT OPENING TO BE LEFT OPEN DURING MASONRY TO BE CLOSED AS PER DETAIL AFTER DRAIN PIPES ARE LAID INSIDE THE DUCT
30
GW1 DD
31 78
DUCT 160
33 60 33
62 40 30
30
W1 253
53
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
418
SILL @ 10 NO LINTEL REQUIRED
OUT
78 73
+ 15 LVL
30 CM WIDE SLAB PROJECTION @SILL AND LINTEL LEVEL
W1
PORCH
IN
253
SILL @ 100 LINTEL @ 240
SILL LVL @ 100
51 65
GW1
103
DUCT
W1
REFER DETAIL A
46
378
ORTHO CONSULTATION ROOM 400 X 295
194
52
D4
48
30 CM WIDE SLAB PROJECTION @SILL AND LINTEL LEVEL
SILL @ 100 LINTEL @ 240
W1
378
253
SILL @ 000 LINTEL @ 240
D1
D1
UP
D3
9
263
203
123
52
384 14
15
418
D1
247
753 60
253
10
MEDICAL GAS 363 X 406
20
SILL @ 100 LINTEL @ 240
+ 00 LVL
302 349 SILL @ 000 LINTEL @ 240
55
UP
226
103
78 33
SILL @ 60 LINTEL @ 240
75
W1
DD
D2
TREATMENT ROOM 420 X 406
87
+ 45 LVL
47 8
153
D3
ELECTRICAL ROOM 417 X 492
WINDOW DOOR SCHEDULE
105
77
DUCT
DD
220
243 223
201 SILL @ 000 LINTEL @ 240
253
113
203
55 27
100
113
33
312
SILL @ 000 LINTEL @ 240
DUCT
+ 45 LVL
S.NO LEGEND WIDTH
418
SILL @ 000 LINTEL @ 240
34 78 31
168
D1
SILL @ 60 LINTEL @ 240
DD
20
60
397 24 93
V
W1
418
438
SILL @ 60 LINTEL @ 240
73
73 93 92 78 20 73 429
409
27
243
384
186 183 201
203
50 66 253
323
243 41
LOBBY 387 X 429
SILL @ 180 LINTEL @ 240
TOILET
SAMPLE COLLECTION 400 X 528
D1
83
103
27 27 136 X 220 139
26
UP
253 SILL @ 000 LINTEL @ 240
243
SILL @ 000 LINTEL @ 240
36
103
+ 45 LVL
20
SILL @ 000 LINTEL @ 240
20 83 20
DUCT
UP
30
103
193
35 30
35 30
147
D5
OP
307
UP
164
78 20 236
75
20 52 20
46
415
115
187
15 44
103
230
44
162
147
167
93
116
189
SILL @ 60 LINTEL @ 240
62
375
147
WALL , OPENING AND LINTEL AS PER LIFT SPECIFICATION
+ 15 LVL
30
107
WHEEL CHAIR HOLD
125
83
131 20
30
GROUND FLOOR
TYPICAL SECTION OF WINDOW
17
SCREEN PARTITION
75
75
254
133
133
121
137
93 43
421
140
180 X 144
82
372
57
DUCT
30
EMERGENCY WARD 642 X 1164 SILL @ 60 LINTEL @ 240
DUCT 80
W1 D5
307
80
SILL @ 060 LINTEL @ 240
17 NO BRICK WALL
93
139
183
44 93
90
90 90
496
421
CR ROOM 364 X 389
10
+ 45 LVL
UP
UP SCREEN PARTITION
175
93 45
15
93
93 40
40
25 78
133
198
SILL @ 000 LINTEL @ 240
D6 TOILET
D6
WAITING AREA 1084 X 1304
RAMP FOR PEOPLE WITH SPECIAL NEEDS GRADIENT 1:12 WIDTH : 150 CM
147
93
273 28 78 31 78 125
D1
163
91
143
101
63
78 63
SILL @ 60 LINTEL @ 240
103
249
183
D3
X-RAY-01 398 X 480
183
D1
GW1
+ 45 LVL
180
218
344
TOILET 160 X 144
153
DUCT
203
D1
SILL @ 000 LINTEL @ 240
263
40
238
PLANTER BOX
MAIN ENTRANCE
20
638
130
40
55
25
CW
DD
SILL @ 10 NO LINTEL REQUIRED
50
16 197
876
183
187
FIRE DUCT
DD
SILL @ 000 LINTEL @ 240
DD
SPARE CONSULTATION ROOM-03 400 X 300
202
59
GLASS FACADE
253
RAMP UP 60
320
MD
12
LIFT 246 X 320
SILL @ 000 LINTEL @ 240
253 16
30
354
307
16
20 100
75
MD
W1
D5
15
SILL @ 10 NO LINTEL REQUIRED
GW
GEN MED. CONSULTATION ROOM-02 400 X 300
303
844
844
553
586 197
138
SILL @ 100 LINTEL @ 240
4511
FIRE DUCT
DD
64
W1
LAUNDRY 747 X 649
354
DD
78
103
553
413
20 100
CORRIDOR 304 CM WIDE
250
413
RECEPTION
D3
X-RAY-02 362 X 480
D5
SILL @ 000 LINTEL @ 240
195
SILL @ 000 LINTEL @ 240
248
413
DOUBLE HEIGHT
GW
SILL @ 60 LINTEL @ 240
100
177
D3
30
PLASTER/ INJECTION ROOM 400 X 295
358
GEN MED. CONSULTATION ROOM-01 400 X 305
+ 45 LVL
BACK OFFICE/ RECORDS 318 X 881
D4
100
20
32
402
SILL @ 000 LINTEL @ 240
FIRE PANEL
321
LOBBY 1133 X 1304
20
243
WALL UPTO 100CM FROM FLOOR LEVEL
15
22
60 30
D1
20
183
SILL @ 000 LINTEL @ 240
D9
197
138
SILL @ 000 LINTEL @ 240
182
20
138
361
D8
SILL @ 60 LINTEL @ 240
20 78
+ 45 LVL
160
253
SILL @ 000 LINTEL @ 240
14
9
15
123
WALL UPTO 100CM FROM FLOOR LEVEL
425
SILL @ 000 LINTEL @ 240
TOILET - M 737 X 447
STORE 755 X 406
37
44
123
LOBBY 590 X 720
20
15
260
57
37
22
CORRIDOR 344 CM WIDE
60
SILL @ 10 NO LINTEL REQUIRED
15
D1
DD
123
SILL @ 100 LINTEL @ 240
492 40
60 11 30
303
78
DD
SILL @ 60 LINTEL @ 240
60
57
463
SILL @ 100 LINTEL @ 240
32
63
168
418
418
75
15
55
75
333
492
492 20 26
103
55
553
120
15
83
63 63 183
108
PEDIATRIC CONSULTATION ROOM-12 128 388 X 400
250
D1
20
PEDIATRIC CONSULTATION ROOM-13 383 X 400
75
60
35
15
391
D1
20 40 242 60
GW
203
136
147 220
FIRE DUCT
D7
W1
23 52 23 100 20
SILL @ 100 LINTEL @ 240
+ 45 LVL
SILL @ 000 LINTEL @ 240
145
253
13
GW
SILL @ 10 NO LINTEL REQUIRED
D7
20
103 63 63
15
385
38
113
D7
145
CORRIDOR 320 CM WIDE SILL @ 000 LINTEL @ 240
208
SILL @ 100 LINTEL @ 240
SILL @ 000 LINTEL @ 240
57
30
SILL @ 060 LINTEL @ 240
OP
SILL @ 100 LINTEL @ 240
12
55
LIFT 319 X 253
207
28
243
D5
763
103 38
292 15
85
386
79
59
120
20
SILL @ 100 LINTEL @ 240 SILL @ 100 LINTEL @ 240
W3
95 27
333
93
15
168
145
SILL @ 100 LINTEL @ 240
DUCT
15
320
579
20
D1
145
D7
153
193
STAFF (M) 200 X 180
223
D3
120
118
222
83
20
165
DRINKING WATER
193
2
15
123
D7 47
15
20 27 16
360
233
180
153
STAFF (F) 200 X 180
STW
UP
11
75
256
15
Imbichibava Hospital, Tirur
STW
27
UP
20 100
SILL @ 10 NO LINTEL REQUIRED
14
HIGHLIGHTING SUNKEN BEAM AND SLAB
WALL , OPENING AND LINTEL AS PER LIFT SPECIFICATION
13
24.06.17
12
R1
62
DUCT
SILL @ 060 LINTEL @ 240
148
123
TOILETPHY.CHALL D6 200 X 162
77
15
GYNECOLOGY CONSULTATION 383 X 275
DUCT
11
OP
75
105
W2
75
118 30 83
78 20 82
78
SILL @ 60 LINTEL @ 240
290
145
133
15
63 28
D1
123
93
233
401
63
D1 105
SILL @ 000 LINTEL @ 240
153
23 52 23
82
SILL @ 000 LINTEL @ 240
60
30 CM WIDE SLAB PROJECTION @LINTEL LEVEL ONLY
10
10
W2
93
TOILET - F 777 X 278
D7
63
63
15
123
20
SILL @ 100 LINTEL @ 240
DUCT
144
336
23 52 23
DUCT
242
SILL @ 60 LINTEL @ 240
DD
+ 00 LVL
8 9
8 9 SILL @ 10 FROM LANDING LVL NO LINTEL REQUIRED
116
OP
SILL @ 10 FROM LANDING LVL NO LINTEL REQUIRED
OP
183
13
582
85
158
123 98 60
78
CORRIDOR 304 CM WIDE
384
118
200
210
DD
78
DUCT ELEC DUCT
143
103
FIRE LIFT 278 X 250
SILL @ 060 LINTEL @ 240
WALL , OPENING AND LINTEL AS PER LIFT SPECIFICATION SILL @ 060 LINTEL @ 240
SILL @ 60 LINTEL @ 240
DD
92
FIRE DUCT
DD
242
LOBBY 518 X 300
123
WAITING AREA
D1
60
SILL @ 100 LINTEL @ 240
W2
D1
SILL @ 000 LINTEL @ 240
DD
60
SILL @ 10 FROM LANDING LVL NO LINTEL REQUIRED
STW
UP
SILL @ 000 LINTEL @ 240
GYNECOLOGY CONSULTATION 383 X 275
187
108
WALL , OPENING AND LINTEL AS PER LIFT SPECIFICATION
DUCT
258
103
103
D1
109
123
123
177
140
401
8
INJECTION 260 X 197
165
67 10
60
ULTRASOUND 387 X 330
D1
278
SILL @ 10 FROM LANDING LVL NO LINTEL REQUIRED
196
222
SILL @ 000 LINTEL @ 240
206
TOILET D6 193 X 162
256
45
345
191
SILL @ 000 LINTEL @ 240
FEEDING ROOM 210 X 278
528
157
113
W3
236
96
169 SILL @ 100 LINTEL @ 240
30
LIFT 253 X 313
125
276
113 150 75
93
UPS ROOM 294 X 313
D3
7
333
STW
15
STORE 188 X 300
48 20
199
30
123
D1
179
129
278
200 123
68
60
SILL @ 000 LINTEL @ 240
50 714
113
20
DD
9
6
130
D1
75
443
26
UP
105
LIFT LOBBY 480 X 452
528
INPATIENT SERVICES 575 X 414
SILL @ 000 LINTEL @ 240
203
UP
SILL @ 100 LINTEL @ 240
10
201
236
7
DUCT 65
78
ELEC DUCT
DD
SILL @ 000 LINTEL @ 240
75
SILL @ 000 LINTEL @ 240
DUCT
FIRE EXIT
62
30 CM WIDE SUNSHADE
5 6
GW1
DD
55
UP 20
113
83
78
103
91
130
ELEC DUCT
SILL @ 100 LINTEL @ 240
253
W1
395
62
52
253
333
W1
5
GW1
191
DUCT
75 60
3 4
GW1
36 63 36
253
W1
120 CM SUNSHADE / ARCHITECTURAL FEATURE
3 4
185
98
78
DUCT
SILL @ 60 LINTEL @ 240
246
55
62
WALL UPTO 100CM FROM FLOOR LEVEL
162
84
20
83
SILL @ 10 NO LINTEL REQUIRED
253
W1
36 63 36
GW
2
147
60
CORRIDOR 426 CM WIDE
ELEC.CABINET
OP
DD
LOBBY 1263 X 429
+ 45 LVL
SILL @ 060 LINTEL @ 240
78
245
99
SILL @ 60 LINTEL @ 240
118
253
183
W1
183
60
118
253
W1
SILL @ 060 LINTEL @ 240
OP
SILL @ 10 NO LINTEL REQUIRED
223
D4
253
60
UP
30 63 30
SILL @ 100 LINTEL @ 240
15 103
253
W1
SILL @ 100 LINTEL @ 240
108
55
SILL @ 000 LINTEL @ 240
55
SILL @ 100 LINTEL @ 240
75
HVAC DUCT
253
W1
20 100
SILL @ 100 LINTEL @ 240
104
237
SILL @ 100 LINTEL @ 240
59
SILL @ 100 LINTEL @ 240
63
UP
243
328
D5
2
DISCLAIMER: This is a professional project signed with non disclosures and hecne is only for the use of the portfolio.
74
67
SILL @ 100 LINTEL @ 240
BREAKABLE GLASS
84
DUCT
SILL @ 100 LINTEL @ 240
SLAB PROJECTION @LINTEL LEVEL ONLY
OP
1
1
AUS Architecture being the main consultant, I also had to interact with the site and other consultants( structural, MEP etc) and manage between the site and other consultants.
147
75
32 63 32
REFER DETAIL A 30 CM WIDE SLAB PROJECTION @SILL AND LINTEL LEVEL
91
20
OP
REFER DETAIL A 30 CM WIDE SLAB PROJECTION @SILL AND LINTEL LEVEL
62
SILL @ 060 LINTEL @ 240
NOTE REFER DRAWING : " FIRE ZONING LAYOUT "
FOR WALL HEIGHT WITH REFERENCE TO FIRE SEPARATION ABOVE CEILING
Amarnath Residence, Bangalore
GROUND FLOOR PLAN
FIRST FLOOR PLAN
The Amarnath Residence in Bangalore started in 2016 in design stage and is in construction stage at present. I was an active member from the design stage and was in charge of preparing the drawings as well.
Bangalore
Amarnath Residence,
DISCLAIMER: This is a professional project signed with non disclosures and hecne is only for the use of the portfolio.
The Thomas Kuruvila Residence in Trivandrum started in 2017 is in design stage at present. I was in charge of the whole project including the preparation of drawings. The drawings were sanctioned by the government in 2017 and foundation to be laid in Feb 2018.
FRONT ELEVATION
Trivandrum
Thomas Kuruvila Residence,
The concept of the openess and courtyards. The clients had a very specific requirements and we were able to completely satisfy the them.
SIDE ELEVATION
GROUND FLOOR PLAN
Trivandrum
Thomas Kuruvila Residence,
DISCLAIMER: This is a professional project signed with non disclosures and hecne is only for the use of the portfolio.
FIRST FLOOR PLAN
TERRACE FLOOR PLAN
The privilege of working on the design and execution of the Boeing Campus (BIETC) in Bangalore which included Manufacturing lab and an office building in the Phase 1. I started off during the detailed drawing discussion of the office Block and was in charge of the design of manufacturing block under direct leadership. I was fortunate to be a part of the team with direct client communication and consultant management. The project is currently undergoing construction. https://www.boeing.co.in/boeing-in-india/about-boeing-in-india. page
I also worked in the Design proposal for the later phase of the KPIT Campus in Pune, India. There was a research on Mobile Building involved in the design for the phase after. The project is currently in the phase of providing drawings for construction.
Venkataramanan Associates, Bangalore
https://www.vagroup.com/
DISCLAIMER: These are professional projects signed with non disclosures and is on going and hence work done cannot be attached.
