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SUSTAINABLE RESIDENTIAL BUILDINGS
A PRESENTATION BY
JAIPUR
KOTA
BHIWADI
NEEMRANA
DELHI
SHIMLA
BENGALURU
MYSORE
TIRUPATI
HYDERABAD
The practice is largely involved in the design of residential buildings of various
scales, catering to different segments of the society and across the country.
are committed to incorporate concepts of sustainable design in all projects. Drawing from our
experiences in the real estate industry and understanding the concerns of the developers we believe
that the incorporation of solar passive design features plays the most important role .
The Developer Major share holders in development of residential properties
Builds for
•Profit
•Recognition
•Pride
His Concerns
•Non –End user .
•Viability and feasibility against land costs and joint ventures
•Non- availability of lands ideally suited to sustainable designs
•Limited returns on building green over and above the standard construction.
•Active systems out of his purview and control.
•Availability of green building materials
Targets for sustainable design :
•Urban integration and impact assessment on surroundings.
•Site planning and orientation studies.
•Solar passive architectural design and Envelope.
•Prudent selection of building materials.
•Efficient Lighting Design with incorporation of renewable energy for part of the lighting loads.
•Selection of energy- efficient pumps, motors and other equipment.
•Water- efficient Plumbing design with water recycling and use of water- efficient fixtures and fittings.
•Adoption of green construction practices.
•Adoption of construction techniques with minimal water usage. Use of recycled water in construction.
•Use of recycled materials for secondary uses and minimize use of energy intensive materials
•Waste Management during construction and after completion.
•Green Landscape design
•Incorporation of local arts and craftsmanship.
•Pre-certified LEED Platinum building
•A prestigious property occupying pride of place in city at the Statue Circle , Jaipur
•High-end , fully air-conditioned 150 Residential Apartments .
•State of the Art Club and Spa
Architects Studios Architecture, New York + m a architects , Jaipur.
Developer Om Metals Consortium Pvt. Ltd.
Consultants
TROP, Thailand
An Effort in this direction is The Pallacia
SALIENT FEATURES
It was the aspiration of the developers to build a landmark project , achieving the highest standards in
design , construction and sustainability . To set a benchmark for quality building in this sector.
m a architects was commissioned to conceptualize and design the project bringing in an international
architectural practice to add value and a global approach to the design.
Landscape
Structure
MEP Services
Contractor
LEED Facilitator
VijayTech Consultants, Jaipur
AECOM Global, Noida
Shapoorji Pallonji & Co, Ltd.
Kamal Cogent Energy Pvt. Ltd.
URBAN INTEGRATION AND IMPACT
ASSESSMENT ON BUILDINGS
•Urban skyline and Character
•Traffic Studies
IMPACT ON URBAN DESIGN
•Site Accessibility to existing Infrastructure
•Site Surroundings
•Climate analysis
SITE
Statue Circle
IMPACT ON URBAN DESIGN
The building will dramatically impact the urban skyline of the circle and this criteria has been
adjudged the top priority in the design.
Pallacia
SITE Guidelines:
•Urban
skyline and
Character
•Traffic
Studies
PRIMARY
ROAD
SECONDARY
ROAD B M Birla
Auditorium
B
C
Front on north on the 120’ wide Prithviraj Road with little adverse impact on the traffic flow on the
road.
Pallacia TRAFFIC HIGH DENSITY TRAFFIC LOW DENSITY
Guidelines:
•Urban
skyline and
Character
•Traffic
Studies
IMPACT ON URBAN DESIGN
Pallacia
Guidelines:
•Site
Accessibility
to existing
Infrastructure
•Site
Surroundings
•Climate
analysis
SITE
Pallacia is well sited in the heart of city with easy accessibility to public transport systems, schools and hospitals, markets and recreational facilities.
SCHOOL
INSTITUTE
MALL
CENTRAL
PARK
DENTAL
CARE
ATM
SCHOOL HOTEL
SECRETARIAT
SITE
B
C
SITE
Pallacia
Guidelines:
•Site
Accessibility
to existing
Infrastructure
•Site
Surroundings
•Climate
analysis
•Sited on a very busy road and important traffic junction
in the heart of the city hence noise and pollution an
important consideration on the North and NW Façades
•Most important views of the site , namely those of the
Statue Circle and the Central Park towards the East.
•The views of Nahargarh hills towards the North.
•The location of the site at the historic circle surrounded
by low-rise institutional and public buildings
commanded an architectural response addressing the
site context in this regard.
B
P R I T H V I R A J R O A D
SITE
A
D
Statue Circle
B M Birla
Auditorium
Nahargarh hills
Central park
B
A
D
C
GREENS
STATUE
CIRCLE
LOW RISE PUBLIC
BUILDINGS
RESIDENTIAL
PLOTS
GOVERNMENT
INSTITUTION
CENTRAL PARK
Plot no A2 on 100 ‘wide Prithviraj Road , C-Scheme, Jaipur,
Area - 19157 SQ MTS.
Setbacks - 15.43,10,10,10 M
C
Surrounded west and south by residential plots and on east by a
government institutional building. Pallacia is well sited in the heart of city with
easy accessibility to public transport systems, schools and hospitals, markets and recreational facilities.
SUMMER SUN
Pallacia
E
W
NW WIND
WINTER SUN SE WIND
Guidelines:
•Site
Accessibility
to existing
Infrastructure
•Site
Surroundings
•Climate
analysis
SITE
N
S
W
E
A SOLAR PASSIVE ARCHITECTURAL
DESIGN - CONCEPT
GUIDELINES
•Site master planning as per climatic analysis
•Orientation along East-West Axis
•Microclimate – Use of vegetation and water elements •Day lit spaces
•Natural Ventilation
SOUTH TOWER
(SIMPLEX APARTMENTS)
WEST TOWER
(SIMPLEX APARTMENTS)
NORTH
TOWER
(SIMPLEX APARTMENTS)
VENTILATION
THROUGH
UNITS
CONCIERGE
LOBBY
SUNKEN COURT
COURTYARD
&
LIGHTWELL
LIGHTWELLS
LIGHTWELLS
NW WIND
RAMP IN
RAMP OUT
DROP OFF
EAST TOWER
(SIMPLEX, DUPLEX &
TRIPLEX APARTMENTS)
LIGHTWELLS
LIGHTWELLS
VENTILATION
THROUGH
UNITS
VENTILATION
THROUGH
UNITS
LIGHTWELLS
LIGHTWELL
LIGHTWELLS
LIGHTWELLS
SKYLIGHTS
LEVEL 2 PLAN
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
- Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
ENTRY
VENTILATION
THROUGH
UNITS
WATER BODY
WA
TER
BO
DY
LAWN
COURTYARD
&
LIGHTWELL
COURTYARD
&
LIGHTWELL
COURTYARD
&
LIGHTWELL
SUNKEN
COURT
STEPPED
COURT
STEPPED
COURT
STEPPED
COURT
COURTYARD
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
CLUB
SUNKEN COURT
CONCIERGE
LOBBY
SKYLIGHTS
LIGHTWELL
LIGHTWELL
LIGHTWELL
LIGHTWELL
LIGHTWELL
LIGHTWELL SUNKEN
COURT
STEPPED
COURT
STEPPED
COURT
BASEMENT 1 PLAN
STEPPED
COURT
Pallacia
COURTYARD CLUB & SPA
A tall opening with water cascade at entrance at the North cools winds as they enter the courtyard
and thereby providing effective cross- ventilation.
SECTION THROUGH THE CENTRAL COURTYARD
NW WIND
COURTYARD CLUB
Pallacia
LIGHTWELL
SUNKEN COURT COURTYARD
NW WIND
Sunken court will always receive daylight from light well . Ventilation in the units is aided by the light
well.
SECTION THROUGH LIGHTWELL
Pallacia
North Elevation
South Elevation
STONE WALL CLADDING
SCREENS
WATER FEATURE
STEPPED TERRACE
STEPPED TERRACE
STONE WALL CLADDING
FACADE ELEVATIONS
Pallacia
East Elevation
West Elevation
RECESSED WINDOWS
STEPPED TERRACES
SCREENS
FACADE ELEVATIONS
SCREENS
SHADING DEVICES
SHADOW ANALYSIS
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
- Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
N
S
W
E
Pallacia
LAWN CENTRAL
COURTYARD
STEPPED COURT LIGHT WELL
WATER FEATURE AT
ENTRANCE
LIGHT WELL LIGHT WELL
SUNKEN COURT
STEPPED COURT STEPPED COURT
THE COURTYARD – A MICROCLIMATE
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
-Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
SKYLIGHTS ON POOL SIDE
EMBEDDED
SKYLIGHTS
PROVIDES DRY
LIGHT TO POOL
AREA
POOL
SKYLIGHTS
SECTION
KEY PLAN
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
- Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
LIGHTWELLS
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
LIGHTWELLS
All units have a cross ventilation through the
rooms through the central light wells.
STEPPED COURT
LIGHTWELLS
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation LIGHTWELLS VIEW FROM
UNIT
LIGHTWELLS SCREEN
CONSTRUCTION
The portal at the front facade ( North) with the water feature facilitates the entry of the pre dominant NW wind into the
courtyard , while cutting out the noise of the road .
WATER FEATURES
EAST TOWER UNIT
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
VENTILATION
THROUGH UNIT
All units have a cross ventilation through the rooms through the central light wells
COURT
TERRACE
COURTYARD AND
LIGHTWELL
TERRACE VIEW
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
TERRACE VIEW LOOKING
NORTH EAST TOWARDS
STATUE CIRCLE
TERRACE VIEW TOWARDS UNIT
WEST TOWER UNIT
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
VENTILATION
THROUGH UNIT
COURT
TERRACE
SOUTH TOWER UNIT
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
– Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
VENTILATION
THROUGH UNIT
COURT
NORTH TOWER UNIT
Pallacia
Guidelines:
•Site master
planning as
per climatic
analysis
•Orientation
along East-
West Axis
•Microclimate
- Use of
vegetation
and water
elements
•Day lit
spaces
•Natural
Ventilation
VENTILATION
THROUGH UNIT
COURT
TERRACE
ALL UNITS HAVE AN EFFECTIVE CROSS VENTILATION
A SOLAR PASSIVE ARCHITECTURAL
DESIGN - THE ENVELOPE
GUIDELINES
• Walls -Thermal Mass AND INSULATION
• Roof - Insulation And Shading
• Fenestration 1. Window To Wall Ratio
2. Type Of Glazing Units
•Shading Devices And Screens
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE
Pallacia
WALLS-THERMAL MASS & INSULATION
Facades on
North and
South have an
additional dry
wall cladding
of local stone
panels
TYPICAL SECTION
THROUGH WINDOW
WITHOUT BALCONY
AIR CAVITY IN AAC
BLOCK WALL
OVERHANG ABOVE
BUILDING FENESTRATIONS
SECTIONAL PLAN
(NORTH SIDE)
RECESSED WINDOW
DOUBLE WALL OF AAC BLOCK
WITH 375 MM AIR CAVITY
METAL SCREEN
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE
Pallacia
WALLS-THERMAL MASS & INSULATION
MATERIAL THICKNESS DENSITY (KN/m3) U-VALUE
(BTU/hr/ft2/°F )
COST(Rs/m3) OTHER BENEFITS
AAC 200 6.5-8.5 0.1043 3000 Reduced Structural cost,
Construction time, Sound
proof, Non Toxic, Thermal
Insulation, High Strength,
Energy Efficient.
FLYASH 200 17.7 0.148 2100-2400 High compressive strength, Less
water absorption, Durable,
Reduces plaster cost
SOLID
CONCRETE
200 18 0.210 3200
Reduces Construction time,
Maintenance cost, Insitu casting
possible, reduces plaster cost
CLAY BRICK 230 19.0 0.355 2200-2600 -
If we use AAC blocks in place of Red bricks of same thickness then reinforcement consumption in
building shall reduce from 10 to 21 percent approximately. Consumption of reinforcement in building
due to used AAC blocks depends on following parameters :
i. Volume of walls in building i.e. Type of the Building
ii. Thickness of walls used
iii. Column to column spacing in plan (i.e. spans of frame) and cantilevers
iv. No. of stories
v. Earthquake zone and wind zone
vi. Type of building i.e. commercial or hotel or residential or school or factories
STRUCTURAL PARAMETERS
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE WALLS-THERMAL MASS & INSULATION
U-Value: 0.45
U-Value: 2.8
100mm AAC Wall with
cavity
115 Brick Wall
Pallacia
The roof of the South and West towers to have a pergola structure supporting the solar hot water
systems and solar PV’s . These roofs also treated with an overdeck XPF insulation and finished
with a high albedo material.
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE ROOF-INSULATION & SHADING
Judicious use of Terrace space by
using Solar Panels above Pergolas
Private terraces with green
planters,Plunge pools,canopies &
screens
EAST WING VIEW
WEST WING VIEW
XPF Insulation
Sliding
Screen
Horizontal
Louvers
Pallacia
Apart from the morning sun, there is effective self-shading due to the stepped form .
The windows on the East are sheltered with a wide overhang and planters fronting the East.
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE
FENESTRATIONS
The windows in the west façade are deeply
recessed ( 12’0”) in double heighted terraces
with moving screens to cut out the West glare
EAST FAÇADE SECTION
WEST FAÇADE SECTION
Pallacia
A S
OLA
R P
ASSIV
E A
RC
HIT
EC
TUR
AL
DESIG
N –
TH
E E
NV
ELO
PE
SHADING/SCREENING SYSTEM
MATERIAL U-VALUE(BTU/hr/ft2/°F ) COST(Rs/Sq.ft)
LAMINATED DGU 1.9 650
CLEAR DGU 2.8 200
CLEAR SGU 0.1 22
WALL SECTION
(WEST SIDE)
PERFORATED
SCREEN
RECESSED
WINDOW
DOUBLE WALL OF
AAC BLOCKS WITH
375 MM CAVITY
INBETWEEN
ACTIVE SYSTEMS-AIR CONDITIONING UNIT
Pallacia
Combination of VRV & HRV systems
ensures fresh air changes with
minimum heat losses.
SELECTION OF BUILDING MATERIALS
GUIDELINES
•Selection of materials locally available
•Low Energy embodied materials
•Efficient Structural Design •Conservation of natural resources
•Recycled content in building materials
•Usage of recycled materials or construction waste in
secondary uses
Green Building Material
AIR
EARTH WATER
A Building Industry that depends on diminishing resources will ultimately become more costly as
resources will continue to be depleted, and pose an negative Environmental Impact.
SELECTION OF BUILDING MATERIALS
Guidelines:
•Selection of
materials locally
available
•Low Energy
embodied
materials
•Efficient
Structural Design
•Conservation of
natural resources
•Recycled
content in
building
materials
•Usage of
recycled
materials or
construction
waste in
secondary uses
Pallacia
SELECTION OF BUILDING MATERIALS
CONSTRUCTION MATERIALS MATERIAL BRAND/
COMPOSITION
RECYCLED
/CONTENT/BENEFITS
MANUFACTURING LOCATION
CEMENT ULTRATECH 30%-35% FLYASH
STEEL TATA
JINDAL
SAIL
50-60%
60%
21-30%
JAMSHEDPUR (1300 Kms from Site)
HISAR (300 Kms from Site)
BHILAI (1200 Kms from Site)
EXTERNAL PLASTER CEMENT 1:SAND 6 - -
CEMENT 1:LIME
1:SAND 6
Imparts Cooling effect,
Flexible, Anti fungal,
Lowers Carbon Footprint
-
INTERNAL PLASTER CEMENT 1:SAND 6
-
-
GYPSUM PLASTER Requires no curing, no
Putty Saves time,
-
FINISHING MATERIALS MATERIAL TYPE
FLOORING Rajasthan white Makrana Marble and MP grey stone . Kitchens and
toilets – Ceramic tiles and granite
Landscape paving in local beige and grey sandstones and granite
EXTERNAL PAINT Cement Plaster with Natural stone- based exterior paint
INTERNAL PAINT
Non- VOC paints
SCREEN Screens in metal and louvers in aluminum
APPROACHES IN OTHER PROJECTS
OUR EXPERIMENTS WITH DESIGNING GREEN
AIR
EARTH WATER
Apartment community for
250 households,
Abutting a 60’wide road.
Hence height of buildings
limited to ground+ 4 floors.
Good example of built
form around an open,
vegetated court which
acts as a heat sink.
Circulation lobbies open
to both sides effect good
cross- ventilation and day
lighting in all areas.
Cutouts to basements
help in infiltration of light
to lower basement.
PEARL,GREEN ACRES, Jaipur
Apartments themselves
designed around
compact, paved
courtyards which function
as exhausts for warm air.
Ample spaces for
community interaction.
Good connectivity to city
and amenities.
Extensive parking in 2
basements allowing for
relatively free setback
areas.
STP for water recycling,
reused for irrigation and
flushing.
Rain water harvesting
OR EXPERIMENTS WITH DESIGNING GREEN PEARL,GREEN ACRES, Jaipur
ARG PURAM, Kanota,Jaipur
TOWNSHIP
CLUB
COMMERCIAL
• Total of 564 units.
Salient Features:
•Affordable hsg at Kanota, 15 kms from jaipur with good road
and rail connectivity to jaipur and dausa.
•Housing provides for lower to middle income groups- 50 sq
yds to 125 sqyds
•North-South orientation of streets to eliminate south-facing
plots ( a vaastu consideration ). The resulting East and West
Facades of houses buffered with extensive tree plantation
along roads.
•Compact row-housing leading to resistance to heat gain.
•Optimal width of streets- 30’-w to lend self-shading ,with
trees to reduce heat island effect.
•Pervious roads of concrete pavers over sand bed.
Soling of rejected brick debris from neighbouring
brick kilns.
•Incorporation of site contours in final masterplan
with little site cutting and filling.
•Public green areas providing good cross- ventilation
and heat sinks.
•Landscape walls and features made of local stone.
•Effective use of stairwell to dissipate heat from the
units . also used to cool the homes with aid of water-
coolers.
• Site contains all the
basic amenities
including medical
facilities, Commercial
& Retail spaces,
Clubhouse with open
play areas.
STREET VIEW
• Open saucer drains on roads with localized
percolation pits to aid ground water recharge
instead of extensive construction of surface water
drain network.
• Overhead Water Tank-Water Supply by gravity.
CLUB
COMMERCIAL
EXISTING DRY
WELL
MIDDLE
INCOME
GROUP VILLAS
LOWER MIDDLE
INCOME
GROUP VILLAS
LOWER
INCOME
GROUP VILLAS
GROUP
HOUSINGS
GREEN
ARG PURAM, Kanota,Jaipur
• Glazing on east and skylights
to light up internal atrium on all
floors
• High parts on south and west of
building, thereby shading the
structure.
• Ventilated façade to insulate
the envelope & inbuilt DGU
units.
• Raised decks on roof, resulting
in thermal insulation at terrace
level
• Overhead water tank structure
in the south-west corner lend
shading to large part of the
roof. High shading structures
with pergolas at roof level.
• Planning around a central
atrium with glazing on East
face ,providing daylight and
great views of the ridge from
lobbies of all guest floors,
eliminating corridor lighting.
• Energy simulation of building
has lowered design loads of air-
conditioning by 18 %
HOTEL PARK PLAZA, Faridabad
E
W
N S
Building envelope completely insulated with a
light –colored ventilated façade system.
•Gross floor area 1,00,000 ft2 including basement
•Conditioned Floor area 52,000 ft2
•Window wall ratio ~18%
GLAZING FOR RIDGE VIEW
N
1.Glazing selection to
minimize solar heat gains
and optimize day-light
INBUILT IGU UNITS 3.External wall insulation to reduce solar heat gains
VENTILATED FAÇADE INSULATION
2.Insulation of roof and roof
treatment to reduce solar heat
gains
RAISED ROOF DECK INSULATION
VENTILATED FAÇADE INSULATION
SKY LIT ATRIUMS
RAISED ROOF INSULATION
WALL INSULATION
m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
HOTEL PARK PLAZA, Faridabad
1.LOADS CONTRIBUTION
1.HVAC account for 61%
2.Glazing contributes 37%,
3.Wall contributes 10% and
4.Roof contributes 3%, to the HVAC load
2.THE FINAL SELECTION OF WALL AND GLAZING IS GIVEN
AS
3.SAVINGS
4.REDUCTION
28 kW in DG set.
3.SAVING
m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
HOTEL PARK PLAZA, Faridabad
48 m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
SITE PHOTOGRAPHS
HOTEL PARK PLAZA, Faridabad
INDUS SCHOOL, Jaipur
m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
Spatial, Social & Environment Control Center.
Courtyard functioned as a convective thermostat & gave protection from extremes of weather.
Acts as reservoirs of cool air & gives increased shaded
spaces.
COURTYARD ACT AS GATHERING PLACE
The courtyard moderated the extreme effects of the hot summers & freezing winters.
m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
DESIGN CONCEPTS
INDUS SCHOOL, Jaipur
Comfortable temperature is a relative
term
Max temp – 40-45° C
Relative Comfort Zone–23-28°C
Institution can be zone into 3 cuts Lecture halls/ Class rooms - 23°C
Labs/ Library - 25°C
Common areas/corridors - 28°C
A combination of air conditioning & air
cooling can be adopted to increase
energy efficiency.
Good quality air cooling by air washer & fresh air exhaust system can drastically decrease the temp up to 26°C when out side temp is 45°C
Using innovative air cooling methods increases oxygen content in air and improve
health of the inhabitants as compared to the air conditioned spaces which with
continuous use increases CO2 content for which ozonisers are being used.
Earth
Berm
s as
en
erg
y e
ffic
ien
t sy
stem
s
DESIGN CONCEPTS m I a I a r c h i t e c t s
jaipur . bangalore . hyderabad
INDUS SCHOOL, Jaipur
DESIGN DEVELOPMENT
BUILDING BLOCK
STAGE 1_ GRID (9BLOCKS) STAGE 3
BUILDING GEOMETRY STAGE 4_ENCLOSED WITHIN WALLS
STAGE 2_ CIRCULATION STAGE 5_LANDSCAPE& BERMS DESIGN CONCEPTS
INDUS SCHOOL, Jaipur
O.A.T Steps up to merge
with
The outer development .
Sand filtration beds
Sports complex merge
out With the
playground
Block walls treated in
different patterns
and material act as
a story board
Unpredictable geometric patterns
creates interesting gathering
spaces
Green belt
Root zone treatment for
water
Plantation and farming
INDUS SCHOOL, Jaipur
AKSHAT TRISHLA, Jaipur
Dynamic
Screens
Sangeeta Maithel
+91-9829096168
m I a I a r c h i t e c t s
jaipur . bangalore . Hyderabad
www.maarchitects.in
Thank You..