Case study on Indira Paryavaran Bhavan, Jor Bhag, New Delhi.
THIS IS A PROJECT OF MINISTRY OF ENVIRONMENT AND FORESTS FOR CONSTRUCTION OF NEW OFFICE BUILDING AT NEW DELHI.
THE BASIC DESIGN CONCEPT OF THE PROJECT IS TO MAKE THE NET ZERO ENERGY GREEN BUILDING.
3. THIS IS A PROJECT OF MINISTRY OF ENVIRONMENT
AND FORESTS FOR CONSTRUCTION OF NEW OFFICE
BUILDING AT NEW DELHI.
THE BASIC DESIGN CONCEPT OF THE PROJECT IS TO
MAKE THE NET ZERO ENERGY GREEN BUILDING.
PLOT AREA:9565sq m
MAXIMUM GROUND COVERAGE:30%
F.A.R: 200
HEIGHT:35m
Built-up area : 3,1400 m2
(18726 m2 – superstructure & 12675 m2 • -
Basement)
Year of completion : 2013
ARCHITECTURAL DESIGN: CPWD (MR. R.K.KOSHAL)
LANDSCAPE DESIGN: CPWD (MR. SODHI)
CONCEPT : BASIC DESIGN CONCEPT OF THE
PROJECT IS TO MAKE A NET ZERO ENERGY GREEN
BUILDING.
INTRODUCTION
4. SITE
SITE PLAN BUILDING ALLIGNMENT
- PRESERVATION OF THE LOCAL ECOLOGY,
- TREE CUTTING APPROVALS FOR 46, BUT ONLY 19 CUT
- 11 TREES TRANSPLANTED
- EXCAVATED SOIL REUTILIZED AT OTHER CONSTRUCTION
SITES AND THE ZOO
-WIDER FRONT SETBACK (22M) TO PROTECT FRONT TREE
LINE
-PRESERVE THE INTEGRITY OF THE GREEN STREET
9. ZERO ENERGY
ENERGY CONSUMPTION ON SITE
ANNUAL ENERGY PRODUCTION &
CONSUMPTION (MWH)
IPB REDUCES ENERGY REQUIREMENT BY 70% OVERALL
N-S ORIENTATION – LIMITING WWR – INSULATION ON
WALL & ROOF– EXTENSIVE GREENERY TO REDUCE HEAT
LOAD
MAXIMIZING DAY LIGHTING TO REDUCE LIGHTING LOADS
EXTREMELY LOW LIGHTING POWER DENSITY – 5W/SQM
PLANNING TO MINIMIZE AC LOADS (KEEPING OPEN
ATRIUM FOR CROSS VENTILATION, NON CONDITIONED
LOBBIES)
EFFICIENT HVAC WITH SCREW CHILLERS, VFD’S, CHILLED
BEAMS
GROUND BASED HEAT EXCHANGE FOR CONDENSER
WATER REMOTE COMPUTING - THIN CLIENT SERVERS
ENERGY EFFICIENT APPLIANCES (5 STAR BEE)
SPV’S FOR THE REMAINING LOAD
12. MATERIALS USAGE OF MATERIALS WITH LOW EMBODIED ENERGY
STONE AVAILABLE IN NEARBY AREA FOR FLOORING
TERRAZZO FLOORING WITH LOCALLY AVAILABLE STONE
MATERIALS.
FLY ASH BRICK.
AAC BLOCKS.
JUTE BAMBOO COMPOSITE FOR DOOR FRAMES &
SHUTTERS.
UPVC WINDOWS WITH HERMETICALLY SEALED DOUBLE
USING LOW HEAT TRANSMITTANCE INDEX GLASS.
USE OF HIGH REFLECTANCE TERRACE TILES FOR LOW
HEAT INGRESS.
AVOIDED ALUMINUM AS IT HAS HIGH EMBEDDED
ENERGY
SANDSTONE JALIS.
STONE AND FERROCEMENT JALI
BAMBOO JUTE COMPOSITE DOORS AND FRAMES &
FLOORING
HIGH EFFICIENCY GLASS, HIGH VLT, LOW SHGC & LOW U-
VALUE,
OPTIMIZED BY SHADING
LIGHT SHELVES FOR BRINGING IN DIFFUSED SUNLIGHT
USE OF MATERIAL AVAILABLE HAVING RECYCLED
CONTENT
13. COOL ROOF
A cool roof is one that has been designed to reflect
more sunlight and absorb less heat than a standard
roof.
Cool roofs can be made of a highly reflective type of
paint, a sheet covering, or highly reflective tiles or
shingles.
Nearly any type of building can benefit from a cool
roof, but consider the climate and other factors before
deciding to install one.
Terrazzo flooring is composed of composite
material.
It contains any variety of mixture of aggregate
chips like stone or marble and either epoxy
resin or concrete.
It can be used both indoors and outdoors and
can be poured as concrete or laid in tiles.
TERRAZZO FLOORING
14. FLYASH BRICK
FLY ASH CAN BE A COST-EFFECTIVE SUBSTITUTE
FOR PORTLAND CEMENT IN MANY MARKETS.
FLY ASH IS ALSO RECOGNIZED AS AN
ENVIRONMENTALLY FRIENDLY MATERIAL BECAUSE
IT IS A BYPRODUCT AND HAS LOW EMBODIED
ENERGY, THE MEASURE OF HOW MUCH ENERGY IS
CONSUMED IN PRODUCING AND SHIPPING A
BUILDING MATERIAL.
BY CONTRAST, PORTLAND CEMENT HAS A VERY
HIGH EMBODIED ENERGY BECAUSE ITS
PRODUCTION REQUIRES A GREAT DEAL OF HEAT.
FLY ASH REQUIRES LESS WATER THAN PORTLAND
CEMENT.
UTILIZATION OF FLY-ASH IN BUILDING STRUCTURE- READY MIX CONCRETE WITH PPC HAVING MORE THAN 30% FLY ASH CONTENT.
REDUCE VOLUME, WEIGHT, AND CONSTRUCTION TIME BY ADOPTING EFFICIENT TECHNOLOGIES (SUCH AS PRE-CAST SYSTEMS)
ON SITE RENEWABLE ENERGY SYSTEM WITH SOLAR PHOTOVOLTAIC CELLS TO MEET TOTAL ENERGY DEMAND.
15. JAALIS (SANDSTONE)
A PERFORATED STONE OR LATTICED
SCREEN
THE JALI HELPS IN LOWERING THE
TEMPERATURE BY COMPRESSING THE AIR
THROUGH THE HOLES.
WHEN THE AIR PASSES THROUGH THESE
OPENINGS, ITS VELOCITY INCREASES
GIVING PROFOUND DIFFUSION.
Natural stone Jalli and connecting corridors
16. SPACE FRAME
AN ENTRANCE ATRIUM OF FOUR
STOREYS HEIGHT HAS BEEN MADE IN THE
MIDDLE OF THE NORTH BLOCK AND IN
THE ENTRANCE TO THE SOUTH BLOCK.
THE BUILDING HAS LARGE SPAN TRUSSES
AT TERRACE AND SPACE FRAMES IN THE
CENTRAL COURTYARD TO SUPPORT
SOLAR PANELS.
17. REGENERATIVE LIFTS FULLY AUTOMATED CAR PARKING IN BASEMENTS
BUILDING ORIENTATION IN E-W DIRECTION
BLOCKS CONNECTED WITH CORRIDORS AND CENTRAL COURTYARD
BUILDING ENVELOPE DESIGNED TO ENSURE DAYLIGHT IN 75% OCCUPIED AREAS
PLANTATION AND GRASSING IN MORE THAN 50% AREA
GRASS PAVERS IN CIRCULATION AREAS
TERRACE GARDEN
ENERGY EFFICIENT AIR CONDITIONING SYSTEM AND LIGHTING
CONVERSION OF BRAKING ENERGY INTO ELECTRICITY IN LIFTS
CHILLERS AND AHUS WITH VFDS, HEAT RECOVERY WHEELS AND THERMOSTAT CONTROLS FOR HVAC
LED LIGHTS, OCCUPANCY AND LUX LEVEL SENSORS
930 KWP ROOFTOP SOLAR POWER PLANT
LOW DISCHARGE WATER FIXTURES
LANDSCAPING WITH NO HARD PAVING ELIMINATING HEAT ISLAND EFFECT
FLY ASH-BASED PRODUCTS IN CONSTRUCTION
SEWAGE TREATMENT PLANT OF 30 KLD CAPACITY.
FEATURES:
i. CHILLED BEAM SYSTEM OF HVAC
ii. GEOTHERMAL HEAT EXCHANGE
ECO-FRIENDLY SYSTEM
18. ACHIEVEMENTS:
• 40% SAVINGS IN ENERGY
• ZERO ELECTRICITY BILLING
• 55% SAVINGS IN WATER
• ZERO NET DISHARGE
• LARGEST ROOF TOP SOLAR POWER SYSTEM IN ANY
MULTISTOREYED BUILDING (930KWP)
• FIRST IN GOVERNMENT SECTOR TARGETED FOR BOTH
RATINGS OF GREEN BUILDING (5STAR GRIHA LEED India
PLATINUM)