and planning portfolio
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Indian Institute of Technology (IIT) Kharagpur Jadavpur University, Kolkata Selected works architecture
Tanbir Sarkar
03 CONTENTS 01. EFFECT OF LULC CHANGE ON AIR QUALITY 04 PG thesis; Land use Land cover (LULC) change; Historical AQI trend; Future LULC; Future pollution trend; LULC-AQI interaction 02. URBAN DEVELOPMENT MONITORING 05 PG internship Urban growth; Sector wise Urbanization level; Sector specific public facilities; Urban Liveability Index;; Urban Development 03. COMMERCIAL BANK PROJECT, KOLKATA 06 UG internship Commercial Bank project; Working drawing; Tender drawing; 3d modelling; BOQ 04. MUSEUM OF ENERGY AND SCIENCE - CARBON NEUTRAL DESIGN APPROACH 07 UG thesis; Theme museum; Parametric design; Thermal, ventilation, natural lighting analysis; Stack effect; Solar chimney; BIM 05. CLIMATE RESPONSIVE OFFICE BUILDING DESIGN 12 Academic project; Thermal comfort analysis; Facade head gain optimization; Parametric louvre design; Shading design; BIM 06. HOUSING COMPLEX DEVELOPMENT, KOLKATA 16 Academic project; Site analysis; Site development; Residential tower; Co living blocks; Commercial facilities; Public amenities 07. WORKING DRAWING OF A G+2 STOREY APARTMENT 20 Academic project; Plan; Elevation; Section; Detail drawing 08. MISCELLANEOUS 22 Other projects
Objectives
• To analyze the air pollutant distribution at different land uses using spatial interpolation.
• To assess the changing Land Use (LU) pattern using satellite image classification
• To formulate the relation between land use and air quality of the selected study area
• To predict future Land use dynamics with different Land use scenarios and forecast air quality.
LULC ANALYSIS
04 PM2.5 PM10 SO2 NO2 CO Satellite image data Year 2010 Year 2016 Image processing Land use (LU) classification Accuracy assessment LU change detection Year 2022 Built up Vegetation Water Others Correlation analysis Air quality forecasting Spatial predictor variables DEM Aspect Slope Hillshade Urban extent Distance from road Distance from railway Restricted zones Spatial mapping Scenario framework development Business as usual Sustainable development Input variables Land Use classes Model training LU modelling LU classification Air quality data analysis Statistical analysis Spatio-temporal analysis of air quality Predominant pollutant identification Statistical analysis Conclusio n
AIR
PREDICTION (LONG TERM TREND)
01. PG Thesis | Effect of Land use Land Cover (LULC) cnhange on Air Quality PROPOSED METHODOLOGY OBJECTIVES SPATIAL ANALYSIS OF AQI AND
POLLUTANT AQI PREDICTION (SHORT TERN TREND) AQI PREDICTION (SHORT TERN TREND) AQI PREDICTION (SHORT TERN TREND) AQI
48.44 25.99 37.55 85.08 97.54 39.98 23.02 24.73 49.52 38.05 0.00 30.56 52.17 57.17 50.32 32.45 19.33 32.67 43.35 29.32 26.17 16.72 24.19 43.92 48.31 0 20 40 60 80 100 June July August September October AQI Monthly mean AQI distribution (June - October) Talbagicha Hijli Bus station Primary school Hospital Good AQI 2018 2021 2022 2028
02. PG internship | urban development monitoring - noida, india LULC
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PATTERN ANALYSIS (2010
2022) URBAN LIVEABILITY INDEX (ULI) (2010 - 2022) 0.70 4.65 26.61 152.94 5.18 8.72 1.10 21.80 58.77 97.99 6.97 12.16 0.63 28.56 97.33 46.83 15.76 9.67 0 20 40 60 80 100 120 140 160 180 Water Vegetation Urban Agriculture Fallow land Open green Area (sq.km.) LULC area statistics 2001-2022 2001 2010 2022 0.20% 8.63% 16.18% -27.64% 0.90% 1.73% -30.00% -20.00% -10.00% 0.00% 10.00% 20.00% Water Vegetation Urban Agriculture Fallow land Open green % LULC Change 2001-2010 -0.24% 3.40% 19.40% -25.73% 4.42% -1.25% -30.00% -20.00% -10.00% 0.00% 10.00% 20.00% 30.00% Water Vegetation Urban Agriculture Fallow land Open green % Change 2010-2022 ATM Bank Bar Bus stop Communi y cen re Fue /cha g ng stat on Hosp ta /hea hca e Hote /homes ay Inst tut on Me ro sta on O f ce Pa k ng space P ace o worsh p Po ce sta on Post o f ce Pub c to e Restaurant cafe Shops/ma ketp ace Sports/stad um St eet ght Tou sm a trac on LEGEND ATM Bank Bar Bus stop Commun ty centre
station Hospital/healthcare
/homestay Institution Metro station Office Parking space Place of worship Po ice stat on Post office Publ c toi et Restaurant/cafe Shops/marketplace
um Street ight Tourism attract on LEGEND No da c y boundary Transportat on Expressway Pr ma y Secondary Ter ary Res dent a Me ro ine LEGEND No da c ty boundary Transportation Expressway Pr mary Secondary Tert ary Resident a Metro l ne LEGEND No da c ty boundary Transportation Expressway Pr mary Secondary Tertiary Residential Metro l ne LEGEND
SPATIO-TEMPORAL ANALYSIS (2010 - 2022) URBANIZATION
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Fuel/charging
Hote
Sports/stad
This project is accomplished during my UG internship. Its a G+7 Mixed use project encompassing predominantly Commercial banking and Residential.
Top three floors (5th, 6th and 7th) are utilized for residential prupose. Both 2 BHK and 3 BHK flats are avaialble.
Total parking including stack parking is 27 nos. (MLCP 8x2 = 16 nos.; open car parking 11 nos.).
Site area 1003.59 sq.m. with proposed ground coverage 32.20%.
Total built-up area 2492.82 sq.m. with proposed FAR 2.031.
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03. bank project, kolkata
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04. museum design
The museum is designed focusing on reducing the operational energy during its life cycle.
Optimzed orientation is achieved with analysis of heat gain through facade at different orientation.
Building blocks are conceptually and strategically placed to segregate private and public space.
09 THIRD FLOOR SECOND FLOOR FIRST FLOOR GROUND FLOOR SITE BASEMENT CIRCULATION PATTERN Incident Solar Radiation 500 600 400 300 100 200 0 ORIENTATION 1 ORIENTATION 2 ORIENTATION 3 ORIENTATION 4 ORIENTATION 5
SECTION FF SITE PLAN SECTION CC SECTION II
10 FIRST FLOOR BASEMENT SECOND FLOOR THIRD FLOOR SECTION EE SECTION DD REAR ELEVATION FRONT ELEVATION SIDE ELEVATION G G E E F F D D C C E E F F X X D D G G C C D D E E F F G G C C D D C C
11 THERMAL COMFORT ANALYSIS (JUNE 21, SUMMER SOLASTICE) SOLAR RADIATION ANALYSIS BUILDING ENVELOP MATERIAL DAYLIGHTING ANALYSIS (LUX LEVEL) VENTILATION ANALYSIS 54.20% 44.76% 1.05% Basement Naturally ventilated Fan forced ventilated HVAC system 61.69% 3.25% 35.05% Ground floor Naturally ventilated Fan forced ventilated HVAC system 77.33% 15.64% 7.03% First floor Naturally ventilated Fan forced ventilated HVAC system 77.25% 17.60% 5.15% Second floor Naturally ventilated Fan forced ventilated HVAC system 69.77% 14.99% 15.24% Third floor Naturally ventilated Fan forced ventilated HVAC system kWh/m2 520 470 420 370 320 270 220 170 120 70 20 0 100 200 300 400 500 600 700 800 INCIDENT SOLAR RADIATION WITHOUT ENVELOPE [kWh/m2] INCIDENT SOLAR RADIATION WITH ENVELOPE [kWh/m2] INCIDENT SOLAR RADIATION INCIDENT SOLAR RADIATION WITHOUT ENVELOPE [kWh/m2] INCIDENT SOLAR RADIATION WITH ENVELOPE [kWh/m2]
FLOOR @ 12’O CLOCK
@
P.M.
THIRD(TOP)
THIRD(TOP) FLOOR
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@
P.M.
FLOOR @ 6 P.M. 63.63% reduction in heat gain HOT AIR VENTILATED OUT SIDE ELEVATION STACK EFFECT (SOLAR CHIMNEY) COLD AIR VENTILATED IN
THIRD(TOP) FLOOR
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THIRD(TOP)
Office Building
05.
The G+13 storey office building is designed with an optimized ACP louvre system to lower direct heat gain.
Louvre shading is designed such that the commercial look is maintained while reducing heat gain.
Basement is used for vehicular parking with single and MLCP facility.
The commercial space is provided with a courtyard for natural ventilation.
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1 10 11 12 13 14 15 16 A C D E G H DN DN 17 0 50M 20M 10M (1:12) (MEETING/DISCUSSION ROOM) RECEPTION BOOK STORE ARTIFACTS DIRECTOR ROOM) LIFT LOBBY LIFT LOBBY TOI(L) RAMP ENTRY(1:6) UP (1:12) 5500 8500 FIRE TANK 7000X6000X2500 (1.05 LAKH LTR.) (10000X6000) BOOTH (5000X5000) WIDE CORRIDOR 4MWIDE CORRIDOR RAMP EXIT(1:6) LVL +150 LVL +150 FFL +1350 SSL +1300 FFL +1350 SSL +1300 FFL +1350 FFL +1350 SSL +1300 LVL ±00 LVL ±00 LVL ±00 LVL ±00 ENTRY EXIT 200 sqm. GYMNASIUM ROOM (36sqm.) sqm. 30000X75750 8275X9400 11850X7875 9875X11875 9875X11875 200 sqm. LOUNGE LVL +1050 EM BYPASS TOWARDS NEWTOWN TOWARDS TOPSIA OFFICE G.L. ADMINISTRATIVE COMMERCIAL BASEMENT FLOOR WISE SPACE DISTRIBUTION SECTION AA’ SECTION EE’ SECTION BB’ SITE PLAN ISOMETRIC VIEW
14 UP UP LIFT LOBBY LIFT LOBBY RAMP UP TO LEVEL (1:6) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 A B C D E F G H 0 50M 20M 10M 151 152 154 155 156 158 159 161 162 163 164 165 166 169 170 171 172 173 174 184 185 187 188 189 191 192 194 195 196 197 198 199 202 203 204 205 206 207 217 218 220 221 222 224 225 227 228 229 230 231 232 235 236 237 238 239 240 253 254 256 257 258 260 261 263 264 265 266 267 268 271 272 273 274 275 276 242 244 278 280 245 246 281 282 247 283 178 211 299 300 307 308 250 251 287 288 298 306 181 182 214 215 179 180 212 213 293 294 301 302 176 209 248 249 284 285 286 290 292 324 322 320 318 316 312 310 309 150 75 146 71 144 69 142 67 140 65 138 63 134 59 132 57 128 53 126 51 122 47 120 45 116 41 114 39 110 35 108 33 106 31 104 29 100 25 96 21 94 19 90 15 88 13 84 82 78 76 13 14 16 17 18 19 22 23 24 32 33 34 36 37 38 39 10 25 30 35 42 40 289 321 319 317 313 311 326 5M WIDE DRIVEWAY 5M WIDE DRIVEWAY 6M WIDE DRIVEWAY 5M WIDE DRIVEWAY 5M WIDE DRIVEWAY 5M WIDE DRIVEWAY 6M WIDE DRIVEWAY 6M WIDE DRIVEWAY RAMP UP TO LEVEL (1:6) GROUND LVL GROUND LVL FFL -2250 C C' D D' E E' B' SECURITY CHECK A A' TOI(L) TOI(G) TOI(L) TOI(G) 1 10 11 12 13 14 15 16 A B C D E G H J OFFCIE SPACE LIFT LOBBY LIFT LOBBY LIFT LOBBY GRAND HALL CONFERENCE CONFERENCE 240 sqm. 240 sqm. SURVEILANCE ROOM 110 sqm. STORE ROOM 78 sqm ADMINISTRATION ADMINISTRATION EXHIBITION 240 sqm. SMALL HALL SMALL HALL UP DN UP DN DN DN 4M WIDE CORRIDOR 4MWIDE CORRIDOR 0 50M 20M 10M FFL +5250 SSL +5200 FFL +5250 LIFT LOBBY C' D D' E' A A' B' 30000X63875 OFFICE SPACE (MEETING/DISCUSSION ROOM) AHU OFFICE SPACE (MANAGER/ DIRECTOR ROOM) 7925X5325 8075X8200 8125X3925 18000X21500 6375X3875 19250X11800 19250X11800 11425X11775 TOI(L) TOI(G) 4 10 A B C D E F G LIFT LOBBY DN UP DN 0 50M 20M 10M C C' OFFICE SPACE (MEETING/DISCUSSION ROOM) (MANAGER/ DIRECTOR ROOM) 7925X5325 8075X8200 12200X9390 30000X75815 TOI(L) TOI(G) 2 3 4 5 6 7 8 9 10 A C D E F G LIFT LOBBY LIFT LOBBY DORMETORY INDOOR GAMES DN KITCHEN COUNTER SLOPE SLOPE GREEN 0 50M 20M 10M SSL +57850 7925X5325 8075X8200 7925X5325 36 MM THK POWDER COATED ALUMIIUM PANEL METAL HOLDER 300 TYPICAL TYPICAL TYPICAL 450X750 BEAM FALSE CEILING HEAT STRENGTHEN GLASS @63MM FRONT ELEVATION SIDE ELEVATION BASEMENT PARKING PLAN GROUND FLOOR PLAN DIFFERENT OPTIONS FOR OFFICE SPACES ONE OFFICE (3000 SQM.) TWO OFFICE (1500 SQM. EACH) THREE OFFICE(1000 SQM. EACH) The site gets 8 hrs (8a.m. to 4p.m.) of direct normal solar radiation. Total no of solar p.v. installed 143 Power generation capacity of each b.i.p.v. 300 watt. Total solar power generation each day (143 x 300 x 8) = 343.2kw. TYPICAL FLOOR PLAN ROOF PLAN ABOVE ROOF PLAN TANK (8000X8000) 750MM ROOM DN UP LIFT MACHINE 2 3 4 5 6 7 8 9 10 B C D E G BIPV (300W EACH) BIPV (300W EACH) BIPV (300W EACH) STAIRCASE MACHINE STAIRCASE PRESSURIZATION MACHINE 0 50M 20M 10M FFL +61950 C' A A' 7925X5325 LIGHTING ARRESTER 10 0 50M 20M 10M (MANAGER/ 10 G 50M 20M 10M (MANAGER/ 10 50M 20M 10M (MANAGER/
Lower portion has more opening size to showcase product to the customer outside the building and attract them.
15 WEST FACADE 30% OPENING SOUTH FACADE 60% OPENING EAST FACADE 75% OPENING 36 MM THK POWDER COATED ALUMIIUM PANEL METAL HOLDER 300 HVAC DUCT HVAC DUCT HVAC DUCT 50 MM FINISH FALSE CEILING TYPICAL FLOOR FFL. TYPICAL FLOOR FFL. TYPICAL FLOOR FFL. 4050 4050 HEAT STRENTHEN GLASS @63MM THK 200 THK. SLAB POWDER COATEDD ALUMUNIUM LOUVRE @36MM THK 300 SPIDER JOINT 450X750 BEAM FALSE CEILING HEAT STRENGTHEN GLASS @63MM SINGLE MODULE- 750MM EQUILATERAL TRIANGLE HORIZONTAL ARRANGEMENT VERTICAL ARRANGEMENT PLINTH LVL FFL. +1350 SSL. +1300 GROWING MEDIUM ENGINEERED SOIL @100MM FILTRATION LAYER @75MM PERFORRATED SOILD HOLDING LAYER @150MM WATERPROOF LAYER @75MM DRAINAGE (150DIA PIPE) GROUND LVL LVL ±00 DRAIN GRATING @300MMDEPTH SITE DRAIN 300 450 BASEMENT ROAD SLAB @150MM REMOVABLE PLUG PIPE HOLDING CLAMP ROOF LVL BERM TO SUPPORT TREE COPING STONE DRIP COURSE DRIP COURSE 300 DRAIN PERFORRATED SOILD HOLDING LAYER @150MM GROWING MEDIUM ENGINEERED SOIL @100MM FILTRATION LAYER @75MM WATERPROOF LAYER @75MM SLAB @200MM REMOVABLE PLUG PIPE HOLDING CLAMP RAIN WATER PIPE @150MM DIA ROOF LVL FFL. varies SSL. +57850 BERM TO SUPPORT TREE COPING STONE DRIP COURSE DRIP COURSE HVAC DUCT HVAC DUCT FALSE CEILING 300 DRAIN PERFORRATED HOLDING LAYER GROWING MEDIUM ENGINEERED SOIL @100MM FILTRATION LAYER @75MM WATERPROOF LAYER @75MM SLAB @200MM SIDE ELEVATION COURTYARD DRAINAGE DETAIL ROOF AND PARATET DETAIL ROOF SECTION DETAILS TYPICAL SKIN SECTION REAR ELEVATION INCREASING OPENING SIZE
HOUSING COMPLEX
06.
The objective is to design a resedential, co-living cum commercial complex in a 3.2 acres (13,000 sq.m.) site in Panchla, Howrah district, West Bengal.
Residential towers placed at the rear end of the site to minimize noise from nearby industrial areas.
Commercial block are strategically positioned at the front for enhanced visibility and public engagement.
Co-living blocks integrated near residential blocks, away from main road, to foster community and modern living.
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Six G+12 resedential tower/block, each of 500 sq.m. are present in the premises.
Each block comprises four 3 BHK unit flat of 120 sq.m. each with combined living dining and one master bedroom.
Ground floor plan of the resedential block can accomodate 20 car for parking with one conditional parking.
Gym, Library are present in the commercial block for common access to outside public and people living in the complex.
Office spaces are provided at the top floor in the commercial block to avoid disturbance.
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+00 +150 +3150 +6150 +9150 +12150 +15150 +18150 +21150 +24150 +27150 +30150 +33150 +36150 +39150 +41050 Ground lvl. Parking lvl. 1st fl. lvl. 2nd fl. lvl. 3rd fl. lvl. 4th fl. lvl. 5th fl. lvl. 6th fl. lvl. 7th fl. lvl. 8th fl. lvl. 9th fl. lvl. 10th fl. lvl. 11th fl. lvl. 12 th fl. lvl. Roof lvl. Mumpty lvl. GROUND FLOOR PLAN - RESIDENTIAL TOWER TYPICAL FLOOR PLAN - RESIDENTIAL TOWER TYPICAL FLAT/ APARTMENT PLAN - RESIDENTIAL TOWER SKIN SECTION- RESIDENTIAL TOWER COMMERCIAL BLOCK FLOOR PLANS ISOMETRIC VIEW OF FLAT
There are two G+7 coliving blocks in the site each having 540 sq.m. ground coverage. Each Tower consists of four 1 BHK unit flat of 120 sqm.
Objective of the design is to create an integrity between grey hair and green age. So, the coliving block has space for interaction.
As the interaction is primary focus, coliving blocks are designed with open floor plan concept, such that the interaction can be possible through different floors.
Ground floor plan of the co-living block can accomodate 20 car parking.
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FIRST AND EVEN FLOOR PLAN - COLIVING BLOCK TYPICAL FLAT/ APARTMENT PLAN - COLIVING BLOCK SECTION - 1 SECTION - 2 GROUND FLOOR PLAN - COLIVING BLOCK ODD FLOOR PLAN - COLIVING BLOCK (EXCEPT FIRST FL.) ISOMETRIC VIEW OF FLAT
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DRAWING 07.
WORKING
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22 08. Miscellaneous
PORTFOLIO
Ideas never come fully formed. They only become more clear when you work on them
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Mark Zukerberg Tanbir Sarkar tanbirsarkar99@gmail.com +91 95315 79993 / +91 87688 86744
