Luxury Township Design Proposal Goa by Tejasvi Gupta

2 LUXURY

nd Academic Problem

The task was to design a luxury township on a site in the state of Goa, India. The site is around 85 acre in area with steep and gentle contours and is located near to the costal line. Some portion of the site even includes the costal line. The luxury township contains villas, apartments, commertial comMADHAV INSTITUTE OF TECHNOLOGY AND SCIENCE, GWALIOR | IV-YEAR VIII-SEM plex, club house and all the luxury amenities.

TOWNSHIP PROJECT

DESIGN VIII | TEJASVI GUPTA

CONTENTS

LUXURY PENTHOUSE CUM FLATS THE PLAY OF LEVELS

08 VILLA DESIGN THE ARRANGEMENT AND DESIGN

03 CASE STUDIES & INFERENCES

THE STYLE ELEVATIONS & SECTIONS

04 SITE ANALYSIS

09 CLUB HOUSE DESIGN

05 DESIGN DETERMINANT

ACCESS POINTS

EARTHQUAKE/STORM SAFETY

SOLAR ENERGY USE

02 THE RESEARCH

06 SITE PLANNING

THE ARRANGEMENT

ELEVATIONS & SECTION

01 THE PROJECT

FINAL DESIGN

07 APARTMENT DESIGN

THE FORM THE DESIGN

10 SERVICES COOLING SYSTEM OVERVIEW RAIN WATER MANAGEMENT OVERVIEW BIO-DOMES OVERVIEW

CIRCULATION ZONES OVERVIEW

11 VIEWS

DESIGN VIII | TEJASVI GUPTA

TALEIGAO, GOA

The Project Project Type: Township Location: Taleigao, Goa Distance from sea shore: 0Km

THE SITE

Futuristic Luxury Township Brief Futuristic (smart technologies), self sustainable, premium and exclusive apartments (3, 4, 5 bhk in a high-rise), villas, penthouses and row houses with beautiful landscapes to be the new address of the rich who seek a sumptuous lifestyle.

SURROUNDINGS

The amenities in the apartment has to enhance the locational experience and make the apartment a part of natural surroundings. To develop an almost zero commute, mixed-use residential neighborhood concept that is resilient to pandemic impacts and is built for a population that lives, works, and plays in the same place. It also is self reliant and sustainable in terms of agriculture (organic farming). Designed to provide maximum privacy and tranquility within the compact site, the buildings have been oriented and placed to achieve maximum natural light and ventilation within the residences. Strategic placing of the common amenities and recreational facilities. Landscaped gardens, walkways and sports field provide this transient community with a sense of belonging. Providing all services (medical, shopping complexes, schools, leisure areas, clubs, swimming pools, gyms, etc.) DESIGN VIII | TEJASVI GUPTA

The Reseach Goan Architecture Location & History

Factors affecting the architecture of goa

• Goa is Located on the west coast of India in the region known as the Konkan • Goa is a former Portuguese colony, the Portuguese overseas territory of Portuguese India existed for about 450 years until it was annexed by India in 1961

• To protect from fierce monsoons • The Goan master builders executed these ideas using local building materials, making the Goan house a mixture and adaptation of design elements and influences from all over the world.

• Renowned for its beaches, places of worship and world heritage architecture • Being in the Tropical zone the climate is warm and humid: Temperatures from 20 c – 35 c, There are sudden downpours and tropical thunder storms.

Portuguese Houses • The Catholic houses built or refurbish between the middle of the 18th and the 20th centuries were more outward looking and ornamental, with balcoas (covered porches) and verandas facing the street. • The traditional pre-Portuguese homes were inward-looking with small windows; this reflected the secluded role of women. • The houses opened into courtyards, and rarely opened onto streets.

Hindu Houses

• Have little colonial influence, Building Materials : Laterite stones, Baked clay tiles

• Mostly are symmetricaL, Rectangular in plan,Single storey, Internal courtyard with rooms around it • A step or two lead into quiet entrances, with small windows opening out on to the street & Central entrance has a verandah

Christian Houses

• Materials :Baked Clay tiles, Laterite Local bricks & Mangalore tiles. • Porch (balcao), Tall European style columns around • Goans who embraced Christianity sought new identities, and their houses were one facet of cultural expression. •

Windows and Mother of Pearl • Large ornamental windows

with stucco mouldings and in many homes • Readily available mother-of-

Colour Cornices

• Dramatic and startling colour initially achieved with vegetable and natural dyes • Colour was decorative and used solid, moulded appearance. purely to create a sensation

DESIGN VIII | TEJASVI GUPTA

Case Studies & Inferences 1 | Sun Valley Township, Gwalior: Live Case Study

SUN VALLEY TOWNSHIP (LIVE CASE STUDY)

SPACES

3 BHK Drawing/dining Bedroom-1

Bedroom-2 Bedroom-3

Balcony area

AREAS

71.34 sqm 5.8mX2.31m 3mX3.96m

3.96mX3.53m 3mX3m

12.44sqm

TATA PREMANTI HOUSING ,GURGAON(DESKTOP)

AREAS 5.4x4.8 3.9x4.5 master bed room

3.9x4.0 3.9x4.5

116.68sqm

Carpet Area: 171.303 7.9x4.5 (drawing+dinning)

Bedroom - 2 Bedroom - 3 Bedroom - 4 Balcony area Toilet-1 Toilet-2 Toilet-3 Toilet4 Servant Room Servant Toilet Foyer Utility Yard Kitchen Vertillas(Large)

BASEMENT FLOOR AREAS

2.4mX3.53m 111.01sqm(4BHK+3TOILET+3BALCONY) 2.4mX2.22m 3.35mx5.05m 2.4mX3.35m 3.35mX3m 3.65mx4.75m(dressing room1.5mx1.6m)with dressing room 3.35mx3.65m 3mx3.35m 13.47sqm 0.9mx2.4m 1.5mx2.3m 2.4mx1.8m

2.4mX3.53m No accomodation

(a) Every habitable room in any building shall be in every part at least 2.80 meters in height from the floor to the finished underside of roof slab or ceiling, provided that in case of sloped roof the height at any point shall not be less than 2.10 meters. (b) Wherever the height of a room in any building is more than 5.00 m, the FAR of such a room shall be calculated at twice its area.

14-16 sq.m 9-18 sq. m

19 sq.m. 12 sq.m. 16 sq.m. 10 sq.m. 16.5 sq.m. 2.7 sq.m. 3.15 sq.m. 3.9 sq.m. 6.2 sq.m.

3.3x3.5 3.3x3.6 3.5x3.6

3.3x3.3 2.1x2.1 3.6x3.6 1.5x3.0 1.8x2.7 2.1x2.4 2.4x1.8 2.7x1.0 3.6x2.7 3.3x3.5 Carpet Area: 161.9 3.3x2.7 3.3x3.6

3.3x3.6 3.3x3.6 3.3x2.7 20.45 2.4x2.7 1.5x2.7 2.1x2.1 2.1x2.5 2.4x1.0 3.6x5.7 2.4x1.8 3.0x3.3 Carpet Area: 479 Balconies: 17.4

10.5-10.8sqm 4.6-4.41sqm 13.3sqm 2.8-12.9sq 3.45-4.5sqm 1.5-4.86sqm 1.5-4.86sqm 4.32sqm 2.7sqm 9.72sqm 8.4-11.5sqm 5.2sqm 16-8.91sqm 8.04sqm 10-11.8sqm

16-11.8sqm 12-11.8sqm 9.9-8.9sqm 13.4-20sqm 2.25-6.48sqm 3.45sqm 4.32-4sqm 4.4sqm 5.2sqm 2.4sqm 20.5sqm 4.32sqm 8.4-9.9sqm

Garage 1 Garge 2

6.7x2.4 10.9x9.1

Gym Entertainment room Verandah Courtyard/water feature

3.6x4.2 3.9x8.8 2.7x2.4

15.12sqm 34.32sqm 6.48sqm

GROUND FLOOR AREAS

Outdoor Infinity pool Deck Powder room Entry foyer Passage/Ramp Rear garden Living/Dinning

Carpet Area: 479 Balconies: 17.4

9.72sqm

0.9x0.5

.45sqm

Vertillas(Large)

FIRST FLOOR AREAS

Carpet Area: 479 Balconies: 17.4

Bedroom 4

3.3x4.2

13.86sqm

Bath 4

1.5x2.7

4.05sqm

Bedroom 3

3.9x4.2

16.38sqm

Bath 3

3.6x1.5

5.4sqm

Elevated Courtyard

2.7x4.2

11.34sqm

Family Lounge

5.1x4.2

21.42sqm

7.0x2.4 1.5x0.5 3.3x1.5 2.7x2.7 1.8x0.3 5.4x7.3

16.8sqm 0.75sqm 4.95sqm 7.29sqm 0.54sqm 39.42sqm

9.7x7.0

67.9sqm

Carpet Area: 479 Balconies: 17.4

Vertillas(Large)

SECOND FLOOR AREAS

M.Bedroom M.Toilet Dresser Study lounge Pooja Bedroom 2 Bath 2

LIFT

Lift 1 - 8 to 12 person,Lift 2 -5to6 person(Two high speed elevators with high speed backup in each building)

NO.OF LIFTS IN EACH FLOOR

1 TO 2

STAIR WIDTH

1.2m(NO.- 2 in each tower)

TERRACE FLOOR AREAS

Carpet Area: 479 Balconies: 17.4

20.16sqm 8.1sqm 13.5sqm 2.16sqm 1.8sqm 15.12sqm 5.4sqm

Open terrace Utility room Servant Room Servant Toilet DUPLEX HOUSING

Under construction

9.1x6.7 3.0x4.2 2.1x2.4 2.1x1.8 295.7 Sq.Mt

60.97sqm 12.6sqm 5.04sqm 3.78sqm 295.7sqm

EWS HOUSING

Under construction

1377 Sq. Mt

1377sqm

CIRCULATION CORRIDOR WIDTH

1.5m

Vertillas(Large)

LANDSCAPE FEATURES ON THE SITE

SERVICES WATER SUPPLY AREA ELECTRICITY ROOM Main Entrance Security room Mondrian Park Children’s Play Area Tennis Court/ Basketball Court Open land CLUB HOUSE Reception Double - hieghted lobby Gymnasium Banquet Hall Cafeteria Kitty Party hall Billiards,snooker,table-tennis Separate kids play zone Sauna rooms Board room & Card room Guest Rooms 1 bhk flat

All the floors shall be accessible for 24 hours by the lifts. The lifts 2 Lifts (for 4 flats per floor) provided in the buildings shall not be considered as a means of escape in case of emergency. In a dual line arrangement (lifts opposite to each other) the lobby may be between 1.5 times to 2.5 times the depth of one car. For in-line (single line) arrangements the lobby may be typically half of the above recommendations.

Min 1.2m width

HEALTHCARE:Dispensary

EDUCATION

BUILDING HIEGHT TOTAL NO. OF FLATS NO.OF FLATS/FLOOR COMMERCIAL NO. OF SHOPS

1.3mx1.3m(not hidden) TOTAL-13 TOWERS[ (TOWER A-C-14 FLOORS),(TOWER D-M-10FLOORS)] 750 4 TO 6 3-4 (CURRENTLY FUNCTIONAL)

Height of Building Size of ventilation shaft (sq m) Minimum size of shaft (m) Upto 10.0 1.2 0.9 Upto 12.0 2.8 1.2 Upto 18.0 4.0 1.5 Upto 24.0 5.4 TOTAL-7 TOWERS(TOWER 1-4 is 38 floors), TOWER6-7 is 20 floors)

1496.93 Sq. Mt

70-80% open land

10mx4m(approx)(9,00,000 litres of water capacity is required, space of 3 pumps) 5mx4m(approx)

BASEMENT

1000 car parking

30-40sqm(fire resistant for 4 hrs)

Residential Plot-Plotted Housing 2 Equivalent Car Space (ECS) in plots of size 250-300 sqm and 1ECS for every 100 sqm. built up area, in plots exceeding 300 sqm. Residential Plot - Group Housing 2.0 ECS/100 sqm built up area Cluster Court Housing 2.0 ECS/100 sqm built up area Guest House / Lodging & Boarding House 2 ECS per 100 sqm. of built up area Maximum height 15 m. 3-5%

PARKING POLICE POST

1870.1 Sq. Mt 80% 2467sqm

0.9% of total site area

0.5% of total site area

Service floors shall not be counted in FAR. Service area on habitable floors may be considered free from FAR

279 Sq. Mt 30.7 Sq. Mt 2976.41 Sq. Mt 438.5 Sq. Mt

2-Apr

Shops: (a) The minimum carpet area of a shop shall be 6.00 m2 and the least dimension of 2.00 mts. (b) Shops having carpet area between 6.00 m2 and 9.99 m2 shall not be permitted with any mezzanine. The minimum frontage/width shall be 2.00 mts. (c) Shops having area of 10.00 m2 and above the minimum width shall be 2.50 mts. (d) All shops shall have full opening on its front for the purpose of ventilation. (e) Shops having depth of more than 7.50 meters shall be provided additional ventilation from other side, as required for a habitable room 150[unless mechanically ventilated]. 1. Basement, if constructed, is to be used for parking, services 30-50%of total site area and for essential household storage and for providing facilities without counting in FAR. 2. The quantum of basement may vary between 33 % to 50% of the plot area. The ramp to basement and parking floors shall not be less than 7.2m wide for two way traffic and 4 m wide for one way traffic, provided with Gradient of 1:10 for cars and 1:15 for heavy vehicles. At curved portions of the ramp or for circular ramps the slope should not be more than 1:12.

The minimum width of a corridor in a residential building shall be The minimum width of a 1.0 m for single loaded and 1.8 m for double loaded corridor in a residential building shall be 1.0 m for single loaded and 1.8 m for double loaded

Yoga/Meditation centre, Elder's Sitting area,Children's play area,Open Air Theatre,Half Basketball Area, Badminton Court, Palm Court,Fragrance Garden,Open Sit Out, Fire Tender Route, Pergola,Water Feature,Garden Pavilion/Gazebo,Pergola above basement ramp,Natural pond with floating fountain,Signange Wall

10 sqm 20 sqm 110 sqm 150sqm

SERVICE DUCT SIZE TOWERS DETAILS

4.8x4.2 3.0x2.7 3.0x4.5 1.8x2.7 1.8x1.0 3.6x4.2 3.6x1.5

14-35sqm 7.9sqm 16-11.8sqm 10-10.8sqm 14-12sqm

5.88sqm 16.08sqm 99.19sqm

Vertillas(Large)

3.6x2.7

Front Garden

HOUSE-KEEPING

1.8x2.1 1.5x2.1 1.8x1.8 3.3x4.8 4.5x2.7

3.35mX4.38m 2.4mX3.35m 3.65mX4.75m 3mX3.35m 3.96mx3.65m

Kitchen

13-25 sq. m. No habitable room shall have a carpet area of less than 10.00 square 12-18 meters sq. m.

Height(min)-2.1 m, Size(min)- The area of a bathroom shall not be less than 1.8 m2 with a minimum width of 1.2 m. The floor area of water-closet shall be 1.1 m2 with a minimum width of 0.9 m. If bath and water-closet are combined, its floor area shall not be less than 2.8 m2 with a minimum width of 1.2 m. 3-4 sq.m 3-3.5sq.m. 3 sq.m. 16 sq.m. Height(min)- 2.8 m, Size(min)-7.0m2, with a minimum width of2 m6-12 sq.m

Drawing Dining Bedroom-1 Bedroom - 2 Bedroom - 3

3.35mx 3.16m 2.3mX 2m 13.3sqm 2.4mX1.2m 1.5mX2.3m 1.5mX1m

INFERENCES

Balconies: 23.983

1.5m X 1.7m 1.5mX2.4m

Bedroom - 4 Servant room Balcony area Toilet-1 Toilet-2 Toilet-3 Toilet4 Utility Yard Servant Toilet Foyer Kitchen 4 BHK (SMALL) Foyer Drawing Dining Bedroom-1

STANDARDS

FINAL AREAS

Balcony at roof slab level of 1.2 m. width and area not exceeding 3.5 sq m. per bedroom but not exceeding 3 in number per flat. 12-24 sq. m.

Toilet-1 Toilet-2 Store Foyer Kitchen 3 BHK Drawing/dining Bedroom-1 Bedroom-2 Bedroom-3 Balcony area Toilet-1 Toilet-2 Toilet-3 Kitchen 4 BHK(LARGE)

2.7mx2.3m 59.64sqm(3BED+2TOILET+4BALCONY) 5.7mX3.35m 3mX3.96m 3.96mX3.53m 3.53mX3m 16.5sqm 2.1mX1.3m 1.5mX2.1m 1.5mX2.6m 2.7mx2.3m

140.038

Standards(Model Building Bye-Law, 2016, TCPO)

2 | TATA Primanti Housing, Gurgaon: Desktop Case Study

For fully sprinkled building, the travel distance may be increased For fully sprinkled building, by 50% of the values specified below . Type 1 &2-30.0 Type 3 the travel distance may be & 4-22.5 increased by 50% of the values specified below . Type 1 &2-30.0 Type 3 & 4-22.5

FIRE SAFETY:Maximum Travel Distance Construction PETROL PUMP

Plot Size a) Only filling stations 30 m. x 17 m. and small size 18 m. x 15 m. (for two and three wheelers) b) Filling-cum-service station minimum size 36 m. x 30 m. and maximum 45 m. x 33 m. d) Longer side of the plot should be the frontage.

75sqm 25sqm 20sqm 5 in number

a) Only filling stations 30 m. x 17 m. and small size 18 m. x 15 m. (for two and three wheelers) b) Fillingcum-service station minimum size 36 m. x 30 m. and maximum 45 m. x 33 1.85sqm per person

(MAX) FAR1.50 , Ground Coverage 30% , Height26 mt. Nursery School Maximum height 8 m. In hills 6 m. Note: Basement below the ground floor and to the maximum extent of ground coverage, and if constructed shall be counted in FAR. Primary School Proposed Nursery School Plot946.3 Sq. Mt Maximum height 15 m. Higher Secondary School Primary School 2060.3 Sq. Mt Maximum height 15 m.

DESIGN VIII | TEJASVI GUPTA

(MAX) FAR1.50 , Ground Coverage 30% , Height26 mt. Nursery School: 0.3% of total site area,Primary School: 0.75% of total site area

Swimming Pool & separate kids pool SITE AREA 33.4 acres Residential development

BUILD UP AREA

68 Acres 36 Acres

“Shallow Minimum Depth”: Every swimming pool shall have a minimum depth in the shallow area of the main swimming area of not less then 0.9 mt. (3 feet), but not more than 1.07mt. (3'-6”) from the overflow level to the floor “Capacity of Pools in Relation to Bathers”: The maximum number of persons in bathing attire within the pool enclosures of the bathing area shall not exceed one person per 20 sq ft. (1.86 sq m.) of pool i.e. the area of the water surface.

10.02acres

Site, Context & Built Environment Analysis

Site Analysis

Goa University Bus Stop

Goa University Science Block E

Climate & Site Geometry Analysis

Goa University Library

Block F, Department Of Commerce And Management

Goa University

Odxel Water Tank

Summer Sun Bondava lake

Tropical Monsoon Climate Winter Sun

Bondava lake

Hotel Amar

SITE

Drainage Drainage

Sea View

Sea View Landscape Town, Castlerock And Cabo

Sea View

Bank

Sea

Wind from W-SW

Shopping Center

Our Lady of Lourdes Chapel

Average temperatures and precipitation

Wind rose Diagram

Humidy Comfort Levels

Casa Eventor Luxury by the Bay

Precipitation amounts Goa University Guest House Bay 15

View from Anantam

DESIGN VIII | TEJASVI GUPTA

Anantam

Bay 15

Goa University Girls Hostel

Vegetation Analysis

Water Level Analysis

SITE

When the water level is 1Meter above High Tide Line

When the water level is 10Meter above High Tide Line

SITE

Densely Vegetated Area Sea

Soil Most of Goa’s soil cover is made up of laterites rich in ferric- aluminium oxides and reddish in colour. Further

Expected Water Level in 2050

Expected Water Level in 2100

inland and along the riverbanks, the soil is mostly alluvial and loamy. The soil is rich in minerals and humus, thus conducive to agriculture

SITE

Local Building Material • The building materials used in Goa have remained virtually unchanged over the years: Red laterite found 50-70 m below the ground level is the most favored material for the house building ; it could be cut and dressed with ease and becomes hardened on weathering thus improving with age. These stones are used in the construction of the walls, pathways, and even pillars. The other materials used for construction includes wood, iron and in limited amount, marble. The Goans had developed considerable skills in working wrought iron. • Goa’s forests offered its house builders bamboo, coconut palm and hardwoods that gave rise to technically unique roof system. Basically simple thatched roofs made from palm fronds and bamboo frames gave way to the roofs covered with hand crafted country tiles. But due to the fierce monsoons of Goa palm frond thatching was found to be flimsy and unable to withstand the harsh weather. A hardwood framework covered by country tiles was a perfect alternative to palm fronds to withstand these conditions. Clay is excavated from the banks of the rivers and mixed with water to form viscous dough. This dough was then split into two halves which are then used as an individual tile to cover the roof. • Finally for the plasters of the walls crystalline limestone is used which is rich in Magnesium (an important mineral used in the manufacturing of cement). Which is first grinded and then mixed in right proportions with water and sand and then plastered on the walls to the final finish. DESIGN VIII | TEJASVI GUPTA

Rain Flood Analysis

Earthquake Analysis

If the rainfall intensity of the south-

This region lies in the seismic zone

west monsoon increases, there is a

lll . In this zone there is moderate

moderate risk of flash floods in this

damage risk, corresponding to in-

region of southern Konkan coast

tensity VII of MM scale.

because of the orographic rainfall caused by the western ghats. 7

View of the beach

View of the sea from a nearby building

DESIGN VIII | TEJASVI GUPTA

Determining the Zones

Design Determinants

The site is divided in five major zones according to the sea views the particular portion was getting and considering the other important factors, they are alloted to different uses.

The Main Design Determinant is the SEA View Z No ONE isy 1 Are . a

ZO Hin NE Viedere3. Fe w Z d S w/ on ea e

d Sea View ZONE 2.Goo Zone

4 Vie . Bes tS wZ ea on e

No Zo Deve ne lo p

Determining the Available Sea Views 1

Site 20O 15

Section Through Zone 4.

Arabian Sea

Site 8O 4O

Arabian Sea

Section Through Zone 3.

Site 15O 10O 3O

Arabian Sea

Section Through Zone 2. Site 8O 5O

Section Through Zone 1.

Arabian Sea

Service Zone As this area have main roads on two sides, this could be very noisy for residences. As this is kind of a secluded zone and have a good connectivity with the main roads, this area fits best for the services. The Services proposed here are District Cooling Plant, Water Treatment Plant, Biogas Plant, Cowshed and Poultry Farm. DESIGN VIII | TEJASVI GUPTA

Residential Zone As this area gets a beautiful sea view and most of the portion is away from the noisy area, this is alloted for the residences.

Commercial & Medical & Educational Zone

V.I.P. Residential Zone

As this area is connected to both the residential portions and have a good connectivity with the main road, this is alloted to the commertial complex, school and dispensary.

As this area have a clear sea view and is very secluded from the rest of the site, it is alloted to the residences of the V.I.P.’s with the beautiful views and good security.

No Development Zone As no permanent construction could be done here organic farms and orchards are places here. And as this area gets beautiful 180° sea view and is too large to accomodate only farms so some recreational temporary structutures are also alloted to this area.

Arabian-Vista Town

redbubble.com

Final Design

DESIGN VIII | TEJASVI GUPTA

•

Main Entrance from 15m wide Dr E Borges Road

2 •

Service Entrance from 8m wide road

3 •

Access Points

Entrance from 4m wide road near Casa Eventor Luxury by the Bay

Site Planning DESIGN VIII | TEJASVI GUPTA

Scale-1:4000

Lift

m m

0.15 0.3 Riser: Tread:

UP Lift

Tread: 0.15 Riser:

m m

0.3

Lift

Tread: 0.15 Riser:

0.3

0.15 0.3 Riser: Tread:

m m

0.15 0.3 Riser: Tread:

Lift

m 0.15 m Riser: 0.3 Tread:

Lift

0.3 0.15 m Lift

Riser: Tread:

0.15 0.3 m m

Tread: Riser:

0.15 0.3 m m

Lift

0.15 Riser: 0.3 Tread:

m m

m 0.15 m Riser: 0.3 Tread:

Riser: Tread:

Lift

Tread: 0.15 Riser: 0.3

Lift

Riser: Tread:

0.15 0.3 m m

Lift UP

Lift

m 0.15 m Riser: 0.3 Tread:

0.3 0.15 m

Tread: Riser:

0.3

Lift

Tread: Riser:

Tread: 0.15 Riser:

0.3 0.15 m m

Lift UP

Lift m

0.15 Riser: 0.3 Tread:

m 0.15 m Riser: 0.3 Tread:

Tread: 0.15 Riser: 0.3

Riser: Tread:

Lift

0.15 0.3 m m

0.3 0.15 m m

Tread: Riser:

UP UP

0.15 0.3 m m

Riser: Tread:

Lift

Riser: Tread:

0.15 0.3 m m

Riser: Tread:

0.15 0.3 m m

Riser: Tread:

Lift

Riser: Tread:

0.15 0.3 m m

Lift UP

Lift

Riser: Tread:

m 0.15 m 0.3 Riser: Tread:

0.15 0.3 m m

Riser: Tread: 0.15

Lift

0.3 m m

Lift

Riser: 0.15 m Tread: 0.3 m

Lift

Tread: 0.3 m Riser: 0.15 m

0.3 0.15 m m

Tread: Riser:

0.3 0.15 m m

Lift

Tread: Riser:

Riser: 0.15 m Tread: 0.3 m

Tread: 0.3 m Riser: 0.15 m

Lift

47 UP

0.3 0.15

Tread: Riser:

Riser: Tread:

0.15 0.3 m m

Riser: Tread:

m m

Lift

0.15 0.3 Riser: Tread:

0.15 0.3 m m

0.3

Lift

Tread: 0.15 Riser:

0.15 0.3 m m

Riser: 0.15 m Tread: 0.3 m

Riser: Tread:

Riser: 0.15 m Tread: 0.3 m

Lift UP Lift

m m

0.15 Riser: 0.3 Tread:

0.3 0.15 m m

Tread: Riser:

49 49

46 50

51 49

UP Lift

0.3 0.15 m m

Tread: Riser:

Lift

Riser: Tread:

0.15 0.3 m m

UP Lift

0.3 0.15 m m

Tread: Riser:

Riser: Tread:

0.15 0.3 m m

49 UP

Lift

Riser: Tread:

0.15 0.3 m m

50 UP Lift 0.3 0.15 m m

Tread: Riser:

Riser: Tread:

0.15 0.3 m m

Lift

Riser: Tread:

0.15 0.3 m m

Riser: Tread:

0.15 0.3 m m

49 48

44 47 46 45

42 41

40 39 38 37

34 33 32 31 30 29 28 27 26 25 24 17

22 21 20 19

14 13 12

11 10

9 8

7 6

Grading Plan DESIGN VIII | TEJASVI GUPTA

ENTRY NO. 1

ENTRY NO. 2

The main entrance divides the road network or circulation into 5 roads. 1. This is 8 m wide road taking to the apartments and the service area from the main entrance. 1.1. These 4 m wide roads branching out, are leading to apartment buildings. 2. This 4 m wide road is a separate way for the public or visitors visiting the party garden or the club House. 3. This 8 m wide road leads to the V.I.P. residential portion of the site.

ENTRY NO. 3

3.1. This 4 m wide branch takes to the V.I.P. apartments & Villas. 3.2. This 6 m wide branch takes to all the facilities i.e. educational, medical & shopping. 3.3. This 6 m wide branch takes to the golf course and club House. 3.4. This 8 m wide branch takes to all the villa’s (type 1) on the site and finally reach the 2nd entrance and is also connected to the road 1. 3.5. This 6 m wide road takes to the farms & the wedding garden & the tree houses. 4. This 4 m wide road is a separate road for public (teachers, students) to reach the school. 5. This 4 m wide road is the service road connecting the school and the dispensary and the shopping complex. There are for pedestrians only, but in case of emergency fire brigade/ ambulance can use these networks.

Circulation DESIGN VIII | TEJASVI GUPTA

Scale-1:4000

Bio gas plant :

• • •

Will use the organic waste and cow dunk as a fuel to produce Biogas Will cut the LPG cylinder cost Placed in the corner to prevent the smell to reach the residences

Cowshed & Poultry Farm:

• • •

Will give the residents fresh and pure dairy products and eggs The cow dung will be used as a natural fertilizer in the farms and as a fuel for biogas plant Placed in the corner to prevent the smell to reach the residences

District Cooling Plant:

• • •

Economical at large scale and eco-friendly air cooling system It is a centralized plant where warm water from the buildings will be cooled and will re-circulate in the building blocks to cool the air This can also provide cooling to the dwellings in the vicinity and will generate economy for the township

Water Filtration Plant:

• •

After the waste water is already filtered through the biological process, this will further clean it to make it fit for reusing All the rain water from the gutters will reach here to filter and reuse

ENTRY NO. 2

This is the service zone and helps in making the township self sustainable with a separate entrance on the site for better circulaton.

ZONE : 1 DESIGN VIII | TEJASVI GUPTA

Apartments:

•

The apartments are placed on the site in a zig-zag pattern to maximize the no. of apartments with the sea view.

Green spaces 1:

• •

These are the green spaces in front of the entrances of the apartments with the visitor’s parking/temporary parking As this area is too big to just leave it as a green zone, so inspired from a sustainable city in Dubai, Biodomes are placed here in the middle with the trees as a buffer to clean the air. These Biodomes will make possible to grow vegetables and herbs in a controlled environment, and will provide the residences fresh and clean vegetables daily

3 BHK 3 BHK 4 BHK 4 BHK

Villas:

•

These villas are designed in a vertical straight strip pattern to give them all the direct sea view.

Green spaces 2:

•

These green areas between the villas and the apartments will have recreational and playing area will increase the interaction between people and will also improve their well beings For a visual balance the curvilinear shapes are used in the landscaping, in contrast to the straight lines and triangular shape of the road pattern and the buildings. The trees used around the gardens are big foliage trees to get shading on the pathway, with these trees dwarf palm trees are planted to get asthetic look. Detention ponds are created according to the gradient on each green area for discharging rain water.

• • •

This area contains 3bhk & 4bhk apartments and villas (type1) with the green areas and play areas.

ZONE : 2 DESIGN VIII | TEJASVI GUPTA

Entrance:

•

This is designed in a radial pattern to give beautiful balanced views at the main entrance and also to split the road network.

Club House & Party Garden:

•

Near the entrance club House is located giving the beautiful views to the users entering the site. A separate entrance for the outsiders is given to maintain the privacy and security.

Golf Course:

•

This is a golf course near the club house.

Educational Facility:

•

A school is proposed near the entrance with a separate entrance for the kids and faculty members who don’t belong to the township.

Dispensary:

•

This is a medical facility for the well being of the users.

Super Market/Mini Mall:

•

This is a complex having the grocery shops, general stores, gift shops etc.

ENTRY NO. 1

This zone has commercial, educational and medical services and marks the main entrance of the township.

ZONE : 3 DESIGN VIII | TEJASVI GUPTA

ENTRY GATE

Apartments:

•

There are 5.5 & 6.5 bhk duplex apartments.

Villa:

•

These (Type 2 Villas) are designed in the same pattern as Type 1 Villas ,a vertical straight strip pattern to give them all the direct sea view.

Green Areas:

•

Gardens are designed in the same way as the gardens in Zone 2.

This area having direct and beautiful sea views and is quite separated from the rest of the site having V.I.P. apartments and villas.

ZONE : 4 DESIGN VIII | TEJASVI GUPTA

Organic Farms and Orchard :

•

Party Garden & Restaurant:

Tree Houses:

As this area have a lot of bushes and twigs and dry leaves which are of no economical use and are a threat for the bush fires which can cause serious problems. Recently an article said that there were forest fires during lockdown in Goa. So, this area is provided with the organic farms and orchards which will give fresh vegetables and fruits to the use and also generate economy. The farms are located on the upper levels and orchards on the lower levels to prevent hindering of sea views from the villas. These farms and orchards are having fire lines surrounding them.

•

A small (250-300 capacity) wedding/party garden with the beautiful sea views, which can be extended is the future is developed. This has a separate entrance on the site.

•

Tiny temporary tree houses are developed in this area for rental accommodation. These can further extend in the future. These will act as a unique feature and will help in economy generation for the township. So the maintenance fee, which the residences have to pay, will be reduced.

•

This area gets the most beautiful sea views on the site but it is a ‘No Development Zone’ as per the costal regulations of the state, so no permanent construction is allowed in this area.

ZONE : 5 DESIGN VIII | TEJASVI GUPTA

Apartment Design

DESIGN VIII | TEJASVI GUPTA

The Arrangement The apartments are arranged in a zig-zag pattern to give them all beautiful sea views. The zig-zag pattern is non-uniform because of the difference in the sizes of the apartments ( 3 & 4 BHK’s ) and also because of the irregular site shape.

DESIGN VIII | TEJASVI GUPTA

Structure Overview As the triangular shape will have a stress concentration at a point it is not safe during an earthquake. So, the set of two buildings are set approximately 3m apart from each other to give individual pair some flexibility during an earthquake.

Stress Concentration

This 3m distance will create a crossway/pathway. It will connect the the front garden and the back garden with a cozy bougainvillea tunnel.

DESIGN VIII | TEJASVI GUPTA

Basement

Basement is given for parking as well as to give the whole structure more stability during an earthquake or a heavy storm. The structure of the basement will have heavy columns and beams and the structure above will have comparitively light columns and beams which use the roof/ceiling of the basement as a foundation. Also charging stations are given in the basement to encourage and motivate the users to use electric vehicles.

Exit Ramp

Entry Ramp

FLATS: FLEXIBLE STRUCTURE

Way to the reception

Entry from road

Reception

Parking

BASEMENT: FIXED

Parking Charging Point

The Structure

Reception

Charging Point

Parking Charging Point

Charging Point

Way to the reception

Parking

Parking Charging Point

Charging Point

Services Charging Point

Way to Garden

Basement Layout Plan

DESIGN VIII | TEJASVI GUPTA

Columns & Beams

The arrangement of columns is in a grid.

Slab 0.15m thick

Upper Floor Beams 0.7m width & 0.35m depth

Columns (0.7x0.7 m) & Walls

Lower Floor Beams

0.7m width & 0.35m depth

Columns & Walls

DESIGN VIII | TEJASVI GUPTA

Luxury Penthouse Cum Flats The luxury flats are designed in a penthouse style unlike typical flats, giving individual unit only a little less than 360° view. Each of the dwelling will have sea view, township landscape view as well as the village view. Also this pattern will increase the natural cross ventilation in each unit.

View

Vie w

w Vie

Vi e

w Vie

Cross Ventilaion

View DESIGN VIII | TEJASVI GUPTA

3BHK Flats Scale: 1:100

12m

1.8m

3.3m

4.5m

2.7m

Terrace

Piano Cabin 2m Radius

Lawn 2.1x9.2 m

Bathroom 1.5x3.2 m

Living Room 3.7x4 m

Master Bedroom 4x4 m

4.5m

Bathroom 1.5x3.2 m

Master Bedroom 3.5x4 m

Living Room 3.7x4 m

B sh Wa

Foyer 5.5 m 1.3x2.5 m

n asi

21.5m

Bathtub Cabin 1.8x1.2 m

4.5 m

n asi

5.5 m

Piano Cabin 1.5m Radius

Lawn 2.1x9.2 m

4.5m

B sh Wa

Foyer 1.3x2.5 m

Bathtub Cabin 1.8x1.2 m

4.5 m

Terrace

21.5m Riser: 0.15 m, Tread: 0.25 m

Drawing Room 3.3x5.2 m

Entry

Dinning Area 3.3x5.2 m

Kitchen 3.0x5.5 m

Dow

Dinning Area 3.0x5.2 m

Kitchen 3.0x5.5 m

4.5 m

Bedroom 3.5x5.5 m

2.2m

Drawing Room 3.3x5.2 m

Entry

Bathroom 1.5x3.0 m

Bedroom 4.0x5.0 m

Bedroom 3.5x5.5 m

Bathroom 1.5x3.0 m

Bedroom 4.0x5.0 m

Balcony

2.2m

3BHK FLAT PLAN AT LEVEL 2 in a Unit

3BHK FLAT PLAN AT LEVEL 1 in a Unit

DESIGN VIII | TEJASVI GUPTA

4BHK Flats Scale: 1:150

14.4m

Terrace

5.5m

3.0m

3.5m

5.5m

3.0m

3.5m

8.0m

Master Bedroom 3.8x4.7 m

5m Bathtub Cabin 1.8x1.2 m

Lawn 2.1x12.5 m

Bathtub Cabin 1.8x1.2 m

Piano Cabin 2m Radius

Lawn 2.1x12.5 m

Piano Cabin 2m Radius

Bathroom 2.5x2.5 m

4.5m

Bathroom 2.5x2.5 m

Master Bedroom 3.5x4.7 m

Living Room 4x4.3 m

Master Bedroom 3.5x4.7 m

Living Room 4x4.3 m

4.5m

Duct 1.25x1.25m

Bathroom 2.5x2.1 m

Foyer 1.3x2.5 m

Entry

26.5m

Wash Basin

Drawing Room 3.7x5.3 m

Bedroom 4.0x4.7 m

Dinning Area 5.0x5.8 m

Bathroom 1.5x4.7 m

Kitchen 3.0x4.0 m

Foyer 1.3x2.5 m

26.5m

Entry

Wash Basin

Drawing Room 3.7x5.3 m

Bedroom 3.8x4.7 m

Bedroom 4.0x4.7 m

4.5m

Dinning Area 5.0x5.8 m

Bathroom 1.5x4.7 m

Kitchen 3.0x4.0 m

Bedroom 3.8x4.7 m

4.5m

Balcony

3BHK FLAT PLAN AT LEVEL 1 in a Unit

2.5m

Balcony

2.5m

3BHK FLAT PLAN AT LEVEL 2 in a Unit

DESIGN VIII | TEJASVI GUPTA

5.5 & 6.5 BHK Duplex Flats Scale: 1:200

17.5m

Terrace 9.0m

17.5m

Terrace

3.5m

6.3m

9.0m

3.5m

6.3m

Below

2.8m Wide Balcony

Below

Terrace 4.4x5.5 m

Terrace 4.4x5.5 m Below

5.5m

Master Bedroom 4.3x5.3 m

Lawn 1.6x15 m

5.5m

Lawn 2x12 m

Master Bedroom 4.3x5.3 m

Lawn 2x12 m

Bathtub Cabin 1.8x1.2 m

Piano Cabin 2m Radius 4.5m

4.0m

4.5m

4.0m

5.5m

Master Bedroom 4.0x5.5 m

Piano Cabin 2m Radius

4.5m

Duct 1.2x1.4m

Living Room 4.3x5.5 m

29.5m

5.5m

29.5m

Duct 1.2x1.4m

5.5m

Foyer 1.4x2.5 m 6.5m

Foyer 1.4x2.5 m

Below

Do wn

Ris m W Tre er:0.1 ide ad: 0.2 7m 5m

Dining 5.5x6.0 m

6.5m Wash Basin

Entry Bar 3.0x6.0 m

1.1

Do wn

Wash Basin

Entry

Ris m W Tre er:0.1 ide ad: 0.2 7m 5m

Drawing Room 4.2x6.3 m

Bathroom 3.0x3.2 m Master Bedroom 4.0x5.5 m

Duct 1.2x1.4m

Dow

Bathtub Cabin 1.8x1.2 m

Below

4.5m

29.5m

Bathroom 3.0x3.2 m

6.5m

1.1

Kitchen 3.5x6.3 m

Living Room 4.3x5.5 m

Walk-in-Wardrobe 4.4x3.0 m

Bathroom 3.0x3.2 m

Master Bedroom 4.3x5.3 m

Lawn 1.6x15 m

Bathroom 3.0x3.2 m Below

Master Bedroom 4.0x5.5 m

Bathtub Cabin 1.8x1.2 m

4.0m

Bathroom 4.4x3.0 m 1.5m Wide

Bathroom 3.0x3.2 m

1.5m Wide

Bathtub Cabin 1.8x1.2 m

1.5m Wide

5.5m

Lawn 2.0x21.5 m

Master Bedroom 4.0x5.5 m

29.5m

Bathroom 3.0x3.2 m

Riser:0.17m Tread: 0.25m Below

Drawing Room 4.2x6.0 m

Dining 5.0x6.0 m

Space for Bar 6.0x7.0 m

Kitchen 4.5x3.0 m

Up Riser:0.17m Tread: 0.25m

Serv. Room 3.0x3.0 m

Servant Entry

Riser:0.17m Tread: 0.25m

2.0x3.0 m

2.0x3.0 m 5.0m

Bedroom 4.3x4.8 m

Bathroom Bathroom 1.7x5.0 m 1.7x5.0 m

Balcony

2.2m

Lawn 1.6x4.2 m

Bedroom 4.5x5.0 m

Bathroom Bathroom 1.7x3.7 m 1.7x5.0 m

Below

5.0m

1m Wide Balcony

LEVEL 1

Balcony

2.2m

1.5m Wide

5.0m

1.4m Wide

Store 3.0x2.0 m

Servant Entry

LEVEL 2

2.0x3.0 m

Store 3.0x3.5 m

Serv. Room 4.5x5.0 m

Bedroom 4.3x4.8 m

Bathroom Wardrobe 1.7x5.0 m 1.7x3.7 m

Balcony

2.2m

Bathroom Bathroom 1.7x5.0 m 1.7x5.0 m

Lawn 1.6x4.2 m

LEVEL 3

5.5BHK DUPLEX FLAT PLANS

Bedroom 4.3x4.8 m

LEVEL 4

6.5BHK DUPLEX FLAT PLANS

DESIGN VIII | TEJASVI GUPTA

The Play of Levels As there was a height limit of 30m from the ground level and the apartments having high ceiling level feels more luxurious, so two flats are vertically stacked on top of each other, like a lap joint, making a unit, this unit is stacked to compose an apartment block. Both the flats in a unit are divided into two sections, having different ceiling heights, one having more ceiling height is alloted to the areas like living room, dinning room, master bedroom etc and the one having lower height is allotted to bedrooms and toilets.

Bedrooms, Kitchen and Toilets. Living Room, Dinning Room, Master Bedroom

Living Room, Dinning Room,

Bedrooms, Kitchen and

Master Bedroom

Toilets.

DESIGN VIII | TEJASVI GUPTA

This whole system efficiently used the available vertical height without compromising with the luxury for the users as well as with the no. of floors in the apartment blocks. This level difference has also made the flats more interesting for the customers.

3.25 M 4.00 M

3 BHK FLAT

DESIGN VIII | TEJASVI GUPTA

3.25 M

4.00 M

3.25 M

4 BHK FLAT

DESIGN VIII | TEJASVI GUPTA

5.50 M

6.50 M

5.50 M

6.50 M

5.5 & 6.5 BHK DUPLEX FLAT

DESIGN VIII | TEJASVI GUPTA

3 BHK Flats

Rear Elevation

Front Elevation Upper Flat Roof Level +7.25m

Upper Flat Roof Level +7.25m

Upper Flat False Ceiling Level +6.9m

Upper Flat Floor Level +4.0m Lower Flat False Ceiling Level +3.65m Upper Flat Floor Level +3.25m Lower Flat False Ceiling Level +2.90m

Lower Flat Floor Level +0.0m

Horizontal Section

DESIGN VIII | TEJASVI GUPTA

4 BHK Flats

Rear Elevation

Front Elevation Upper Flat Roof Level +7.25m

Upper Flat Roof Level +7.25m

Upper Flat False Ceiling Level +6.9m

Upper Flat Floor Level +4.0m

Lower Flat False Ceiling Level +3.65m Upper Flat Floor Level +3.25m Lower Flat False Ceiling Level +2.90m

Lower Flat Floor Level +0.0m

Horizontal Section

DESIGN VIII | TEJASVI GUPTA

5.5 & 6.5 BHK Duplex Flats

Rear Elevation

Front Elevation Upper Flat Mazzenine Roof Level +12.0m Upper Flat Mazzenine False Ceiling Level +11.65m

Upper Flat Mazzenine Roof Level +12.0m Upper Flat Mazzenine False Ceiling Level +11.65m

Upper Flat Floor Level +6.5m Lower Flat Mazzenine False Ceiling Level +6.15m Upper Flat Floor Level +5.5m Lower Flat False Ceiling Level +5.15m

Lower Flat Mazzenine Floor Level +3.25m Lower Flat FalseCeiling Level +2.9m

Lower Flat Floor Level +0.0m

Horizontal Section

DESIGN VIII | TEJASVI GUPTA

Solar Energy Use The most of the roof of the apartments is covered with the solar panels which will reduce the artificial energy consumption of the township and also provide the shading on the roof which will reduce the heat gain through roof. The apartments and other buildings are painted with reflective paint which will again reduce the heat gain.

DESIGN VIII | TEJASVI GUPTA

Villa Design

DESIGN VIII | TEJASVI GUPTA

The Arrangement & Design

VILLA

All the villas are designed in a strip and arranged in a linear pattern to maximize the no. of villas and to give them all the sea views. This also increased the cross ventilation in each dwelling.

Cross Ventilaion

Sea Side View

DESIGN VIII | TEJASVI GUPTA

Villa Type 1 Scale: 1:200 19.3m

Balcony 4.2x3.0 m

19.3m

Wardrobe 3.0x2.5 m

Balcony 3.5x2.7m

Master Bedroom 6x5 m

Bathroom 3.5x4.5 m

Bedroom 4.0x4.4 m

Bathroom 3.0x4.2 m

Dinning Area

Kitchen 4.0x3.7 m

19.3m

Terrace

Tea Room 4.5x4.5m

Walk-inWardrobe 3.0x4.7m

50m

Pool

50m

4m Wide Corridor

Living Room 6x8 m

Game Room 6x8 m Mumty 1.5m Wide Corridor

4.0x4.7 m

Riser: 0.17m Tread: 0.3 m

Lift

Foyer 4.0x4.5 m

Bedroom 4.8x4.1 m

Store 2.0x1.7 m

Lift

Balcony

Bedroom 4.8x4.1 m

1.6 m Wide Corridor

2.5 m Wide Steps

Bathroom 2.4x2.0 m

Dressing 2.3x2.0 m

Riser: 0.15m Tread: 0.3 m

1.2 m Wide Steps

Entry

Bathroom 2.4x2.0 m

1 m Wide

Riser: 0.17m Tread: 0.3 m

Riser: 0.15m Tread: 0.3 m

Bathroom 2.4x2.0 m

Dressing 1.8x3.8 m

Drawing Room 6x4 m

Balcony

Serv. Room 3.8x4.1 m Bathroom 2.4x2.0 m

Dressing 2.3x2.0 m

Bathroom 2.4x2.0 m

Bedroom 4.1x6.0 m

Entry Riser: 0.15m Tread: 0.3 m

Ground Floor Plan

First Floor Plan DESIGN VIII | TEJASVI GUPTA

Terrace Plan 38

Roof Level +11.6m

+10.4m

Roof Level +9.1m

Terrace Level +8.3m

Ceiling Level +8.1m

Roof Level +5.2m

Roof Level +9.1m Terrace Level +8.3m Ceiling Level +8.1m

Roof Level +5.2m First Floor Level +4.7m

First Floor Level +4.7m +3.8m

+4.2m

Plinth Level +1.0m

Ground Level +0.0m

+3.8m

+4.2m

Plinth Level +1.0m

Ground Level +0.0m

Rear Elevation

Front Elevation

Roof Level +11.6m

+10.4m

Terrace Level +8.3m

Parapet Level +5.8m

First Floor Level +4.7m

+3.8m

Plinth Level +1.0m

Ground Level +0.0m

Plinth Level +1.0m

Vertical Section DESIGN VIII | TEJASVI GUPTA

Ground Level +0.0m

Villa Type 2 Scale: 1:150 14.0m

14.0m

Pool

Wardrobe 2.0x2.5 m

Balcony 3.5x2.7m

1 m Wide

Balcony 4.2x3.0 m

Bedroom 4.0x4.4 m

Bathroom 3.0x4.2 m

Bathroom 3.5x4.5 m

Terrace

Master Bedroom 6x5 m

Kitchen 4.0x3.7 m

Walk-inWardrobe 3.0x4.7m

Dinning Area

Tea Room 4.5x4.5m

45m

Terrace

45m

Pool 4m Wide Corridor

Living Room 6x8 m

Game Room 6x8 m Mumty 1.5m Wide Corridor Riser: 0.17m Tread: 0.3 m

Lift

Foyer 4.0x4.5 m

Bedroom 4.8x4.1 m

Riser: 0.17m Tread: 0.3 m

Store 2.0x1.7 m

Balcony

Bedroom 4.8x4.1 m

1.6 m Wide Corridor

Entry

Bathroom 2.4x2.0 m

Lift

1 m Wide

Riser: 0.17m Tread: 0.3 m

2.5 m Wide Steps

Bathroom 2.4x2.0 m

Riser: 0.15m Tread: 0.3 m

Drawing Room 6x4 m

Dressing 2.3x2.0 m

Serv. Room 3.8x4.1 m Bathroom 2.4x2.0 m

Dressing 1.8x3.8 m

Balcony

Bathroom 2.4x2.0 m

Dressing 2.3x2.0 m

Bathroom 2.4x2.0 m

Bedroom 4.1x6.0 m

Entry Riser: 0.15m Tread: 0.3 m

Ground Floor Plan

First Floor Plan DESIGN VIII | TEJASVI GUPTA

Terrace Plan 40

Roof Level +11.6m

+10.4m

Roof Level +9.1m

Terrace Level +8.3m

Terrace Level +8.3m Ceiling Level +8.1m

Ceiling Level +8.1m

Parapet Level +5.7m

First Floor Level +4.7m

+3.8m

+4.2m

Plinth Level +1.0m

Ground Level +0.0m

Plinth Level +1.0m

Ground Level +0.0m

Front Elevation

Rear Elevation

Roof Level +11.6m

+10.4m

Terrace Level +8.3m

Parapet Level +5.8m

First Floor Level +4.7m

+3.8m

Plinth Level +1.0m

Ground Level +0.0m

Vertical Section DESIGN VIII | TEJASVI GUPTA

Style Both of these villa’s are a mix of traditional and modern elements.

Roof

Courtyard

Railing

Boat

DESIGN VIII | TEJASVI GUPTA

Pool

Furniture

Fenestrations

Interior Views

DESIGN VIII | TEJASVI GUPTA

Club House Design The Form

Form Development

DESIGN VIII | TEJASVI GUPTA

The Design

REAR ENTRANCE VIEW

FRONT ENTRANCE VIEW

DESIGN VIII | TEJASVI GUPTA

Services District Cooling System A district cooling system is used in the whole township to provide cooling inside the buildings. According to EMSD Hong Kong this system is a very efficient cooling solution as it takes full advantage of the economy of the scale, diversity in cooling demand for different buildings and high standard of plant operation and maintenance. The total energy savings from DCS varies according to the length of the distribution pipes, heat rejection method etc. But typical saving of around 35% to 20% can be achieved when compared with the air cooled air conditioning system and individual water cooled air conditioning system. The system contains a centralised plant where water is cooled and then transferred to individual buildings using insulated underground pipelines and the building’s hot water transfers it’s heat to the cold water and becomes cold and recirculates in the buildings for air cooling. Currently in Copenhagen and other such cities this system is being used very successfully. GIFT city in Gujarat, India is also successfully using this system

Building

Cooling Plant

Heat Exchanger

Under

groun

District Cooling System

DESIGN VIII | TEJASVI GUPTA

Fresh Air

Coil Warm Air Cold Air

Cold Water Hot Water

DESIGN VIII | TEJASVI GUPTA

Rain Water/Storm Water Management Gutters run with the road to collect the rain water and take it to the Water Treatment Plant situated on the site.

Collection Point

ENTRY NO. 1

ENTRY NO. 2

Gutters running along the road.

Run Drain along the southern boundry wall

Sneaking In Grating Slope

Throns

Gutters

Mud Low Heighted boundary wall to get views from villa’s

DESIGN VIII | TEJASVI GUPTA

Detension Ponds Detention ponds are placed in every gardens to collect rainwater and recharge groundwater and also adding to the beaty of the gardens.

Detension Pond

DESIGN VIII | TEJASVI GUPTA

Bio-Domes Bio-Domes are a low tech solution, it is a dessert technology for growing vegetables and herbs and fruits. It has Fans exhausing air out of the dome and pad from where the fresh air will enter. This will create negative presssure zone inside them and will increase the ventilation rate. The pads have jute sacks attached, which is continuously watered to cool the air entering the dome. The material used in the covering allows enough light for the vegetation.

DESIGN VIII | TEJASVI GUPTA

Views View from Street

DESIGN VIII | TEJASVI GUPTA

View from Sea

DESIGN VIII | TEJASVI GUPTA

Thank You SUBMITTED TO Ar. Versha Sinha & Ar. Geetika Jha SUBMITTED BY Tejasvi Gupta

DESIGN VIII | TEJASVI GUPTA