Indira Paryavaran Bhawan - Ministry Of Environment

Report
1
G+7 Storeyed+3Basements
Plinth area:32,000 sq.m
Solar PV System
930KWp Capacity
PROJECT TEAM
User organisation
Execution Agency
Architectural and
Structural Planning
Consultants
Green Building
MEP Services
Interior Design
Construction agencies
1.Main Composite Contract
2. Solar Power
3.Automated Parking
MoEF
CPWD
CPWD
M/s DPAP
M/s Spectral Services
M/s Kothari
M/s Swadeshi Civil Infra structure
M/s Swadeshi Civil Infra structure
M/s Simplex Projects
INDIRA PARYAVARAN BHAWAN
 Area
details
Plot area
 Plinth Area

 Project

Completion Cost
9565 sqm
31400 sqm
Rs 195 Cr
(Tentative)
4
BUILDING UTILITY DETAILS
Basements
1. Fully automated Robotic parking for 330 cars
2. All bulk MEP Services i/c
a)AC plant room 500 TR
b) Electrical Substation and Transformers
c)Fire fighting pump house
d) Sewage treatment plant (30KL/day)
e) DG set 500KVA and UPS
BUILDING UTILITY DETAILS
Superstructure
1. Office space for 600 employees i/c 3 Ministers
2. Auditorium 125 seating capacity
3. Committee rooms and conference rooms(7 Nos)
4. Roof garden ,Gymnasium and Yoga room for
recreation
5. Cafeteria, Kitchen and executive dining hall
Additional Scope beyond conventional
• Roof Top Solar Power plant
• Fully Automated Robotic
Car Parking
930 KW Capacity
6000 sqm
330 cars
7
UNIQUE FEATURES
•FIRST
“NET – ZERO ENERGY”
Multistoreyed Building
with 100% ON-SITE Power Generation
•FIRST
in GOVERNMENT SECTOR
targeted for both ratings
of Green
building
5STAR GRIHA
LEED India PLATINUM
LARGEST Roof top
Solar Power system
8
in any multistoreyed Building
(930KWp)
ACHIEVEMENTS
a)40% Savings in ENERGY
b)ZERO Electricity Billing
a)55% Savings in Water
b)Zero Net Disharge
Overall Environmental
Protection
9
GREEN
BUILDING
COMPOSITE CONTRACT
Services Included (All inclusive)
1.Main structure and finishing works
2.Central Air Conditioning
3.Sub station
4.Lifts
5.Fire Fighting & Fire Alarm
6.IBMS
7.DG Sets
8.UPS
9.CCTV system
10.Internal EI
CHRONOLOGY OF EVENTS



Start of the Project
 Completion of the Project
 Completion Certificate by NDMC
 Total Construction time


12

Foundation stone laying
19.11.2009
Sanction of PE(A/A& ES)
23.06.2010
Conceptual Approval by DUAC
06.01.2011
Total Planning time
< 1 Y 2M
28.01.2011
31.10.2013
31.12.2013
2Y 11M
Sl No
STATUTORY APPROVALS
Approval
Concept
stage
Completion
Stage
1
Forest (Tree cutting )
04.01.2011
----------
2
Environmental Impact 05.01.2011
Assessment
----------
3
Delhi Fire Services
21.12.2010
28.10.2013
4
AAI
24.05.2010
----------
5
Land Use Change
6
DUAC
06.01.2011
11.12.2013
7
ASI
19.04.2010
----------
8
NDMC
13.01.2011
31.01.2014
(expected)
Completion of Project : 31.10.2013
----------
Ready for Occupation: 31.12.2013
STATUTORY APPROVALS
Sl No Approval
Concept
stage
Completion
Stage
9
Electric Load
Sanction
Energisation of HT
panels
Substation by CEA
------------
Oct 2013
-----------
Nov2013
-----------
Oct 2013
12
Labour safety (Delhi
Govt)
-----------
Nov 2013
13
Electric Power
----------Supply
Water Supply &
----------Sewerage Connection
10
11
14
Completion of Project : 31.10.2013
31.12.2013
24.01.2014
Ready for Occupation: 31.12.2013
ARCHITECTURAL PLANNING AND LANDSCAPING
• Effective Ventilation by orientating the building E-W and by
optimum integration with nature by separating out different blocks
with connecting corridors and a huge central court yard.
E
W
N
ARCHITECTURAL PLANNING AND LANDSCAPING
•The Building Envelope has been designed
i) to receive 75% of natural daylight to reduce energy
consumption.
ii) Access Friendly to differently-abled persons.
•Out of total 79 trees
existing on the site ,
only 19 were cut, and
11 transplanted
ARCHITECTURAL PLANNING AND LANDSCAPING
•More than 50% area outside
the building is soft
with plantation and grassing.
•circulation roads and pathways
soft with grass paver blocks
to enable ground water recharge
E&M Services
REGULAR
1.Central Air Conditioning(HVAC)
2.Lifts
3.Fire Fighting & Fire Alarm
4.IBMS
5.DG Sets
6.UPS
7.CCTV system
8.Audio Visual System
9.Internal EI
SPECIAL
1.Fully Automated robotic Parking for 330 cars
ENERGY SCENARIO
(Average Annual)
Power Requirement (Base
Case)
22.0
lakh KWh
Power Requirement(Design
Case)
13.6
lakh KWh
Percentage savings
40% (approx)
14.3 lakh KWh
Targeted Solar Power
Generation
Net Power generation
0.7
lakh KWh
(Surplus)
22
ENERGY EFFICIENCY
ECBC 2007
ACTUAL
Lighting Power 11.8 W/sqm
Density (LPD)
5 W/sqm
HVAC load
20 sqm/Tr
40 sqm/Tr
Total
100W/sqm
40 W/sqm
23
OPTIMIZED BUILDING
ENVELOPE
1)PROPER ORIENTATION
2)INSULATED WALLS AND
ROOF
3)GLASS TRANMITTING
LIGHT BUT NOT HEAT
OPTIMIZED DAY
LIGHTING
1)ENERGY EFFICIENT
LED LIGHTS
2)SENSORS
CENTRAL PUBLIC WORKS DEPARTMENT
OPTIMIZED ENERGY
SYSTEMS I/C HVAC
1)CHILLED BEAM SYSTEM
OF AIR CONDITIONING
WITH <50%
CONVENTIONAL
ENERGY CONSUMPTION
2)GEOTHERMAL HEAT
EXCHANGE SYSTEM
3)REGENRATIVE LIFTS
4)ENERGY EFFICIENT
EQUIPMENT
CENTRAL PUBLIC WORKS DEPARTMENT
CHILLED BEAM WORK AT SITE
In the IPB project Chilled Beams are being installed in
second floor to sixth floor.
 Chilled Beam Water in Temperature is 16° C and
water out temperature is 20° C.
 Room temperature maintained is 26 ±1 ° C.
 Chilled Beams with Drain pan are used to drain out
water droplets due to condensation during monsoon.
 160 TR of air conditioning load of the Building is met
through Chilled Beam system.

CHILLED BEAMS INDUCTION UNITS OVERVIEW
Primary air ventilation
from Dedicated Outdoor
Air Source
Chilled Water
Hot Water
Total room mixing
is achieved
through
Convection
currents
within the space
A CHILLED BEAM INSTALLED AT SITE
Chilled Water Return Pipe (½” dia.)
Chilled Beam
Chilled Water Supply Pipe (½” dia.)
28
Drain Pipe (¾” dia.)
Flexible Duct (6 Inch dia.)
Suppl
y Air
Induc
ed Air
A GEOTHERMAL HEAT EXCHANGE WORK AT SITE





There are 180 vertical bores at the Depth of 80 meter all along the
Building Premises. Minimum 3 meter distance is maintained between
any two bores.
Each bore is lowered with HDPE pipe U-loop (32mm outer Dia.) and
grouted with Bentonite Slurry.
Each U-Loop is connected to MS Header Pipe(100mm Dia.)which
finally joins the Condenser Water Line in Plant Room.
Condenser hot water is sent at 100°F (37.8° C) & back at 900 F (32.2°
C).
One U-Loop has 0.9 TR Heat Rejection capacity, so all together 160
TR of Heat rejection is obtained without using a cooling tower.
GEO THERMAL HEAT EXCHANGE
VERTICAL CLOSED LOOPS
NET ZERO ENERGY
A MAJOR CHALLENGE
Renewable Energy to be Generated
: 14 lakh KWh
Per Year
Area required for locating Solar panels : 6000 m2
Area available over terraces
: 2200 m2
Creation of this additional space(6000 minus 2200 m2)
in a multistoreyed building with restricted plot & roof areas
where no structure including surface parking is provided around
the building, was a big Constraint
,32
ACTUAL SOLAR POWER
GENERATION
(as on 25.01.2014)
•Power Evacuation to grid
started on 19.11.2013
•Power generation achieved
3000 KWh(per day)
•Total generation so far
2.0 lakh KWh
33
Highest efficiency (20%) Solar PV panels
Grid Interactive System
SOLAR PV SYSTEM
TOTAL AREA
TOTAL AREA OF PANELS
ANNUAL ENERGY Generation
930KWp CAPACITY
6000 M2
4650 M2
14.3 lakh units
34
36
37
UTILISATION OF FLY ASH
Cement used is PPC
(Portland Pozzolona
Cement)(29% Fly Ash)
Flyash (Reuse) :
In all RCC, PCC, Plaster,
Masonry Work.
FALG Bricks and AAC
blocks used instead of
clay bricks.
AAC BLOCKS
INDIRA PARYAVARAN BHAWAN,NEW D
FALG BRICKS
FLYASH LIME GYPSUM BRICKS
FLYASH
40%
LOW ENERGY MATERIALS
REGIONALLY AVAILABLE
Use of material available within a radius of 800 km
.
Dholpur stone, Kota stone, North Indian Granites, AAC Blocks, FaLG
bricks etc.
Granite
(Lakha Red)
Dholpur Stone
LOW ENERGY MATERIALS
RECYCLED / RECYCLABLE
Use of material available having Recycled content
FaLG Bricks, Terrazo Tiles, Vitrified Tiles, Calcium Silicate Tiles, crazy
marble etc.
Calcium Silicate
Tiles
Terrazo Tiles
Crazy Marble
LOW ENERGY MATERIALS
RAPIDLY RENEWABLE
BAMBOO – JUTE COMPOSITE DOORS
Polymer
Thermosetti
ng Resin
(Phenol
Formal
Dehyde)
BAMBOO
MAT
Woven sheet
using
Bam0.boo
slivers 0.6 to
0.8mm thick
& 5mm wide
JUTE / COIR
MAT
Jute / Coir
Thread
woven into
coarse cloth
Satisfies all the quality parameters
that a normal flush door does
Use of Eco friendly Materials
• Fly Ash Brick
• Aerated Autoclaved Cement (AAC) Block
• Portland Puzzolona Cement
• Terrazzo tile flooring with salvaged stone pieces
• Grass Paver Blocks Pavements
• Local Stone with Marble Strips
• Calcium Silicate Tiles
• Bamboo Jute Composite for Frames & Doors
• Low Volatile Organic Compound Paints
45
55% Reduction in overall use of water

Low discharge water fixtures

Low demand plants in landscaping

Use of Geothermal Cooling

Recycling of waste water for ZERO
Discharge

Rain water harvesting

Recharge wells, supply to NDMC
Tankers
AUTOMATIC CAR PARKING SYSTEM
INTRODUCTION
All the three(3) basements will be used for
Automatic
Car Parking system.
Total Capacity : 330 nos. of cars.
The following type of system is adopted in this
project:1. Shuttle Dolly System( 2nd & 3rd Basement).
2. Puzzle Parking System(1st Basement).
SALIENT FEATURE
The followings are the stringent targets of the
project:1. Maximum waiting time : 180 sec(i.e. 3minutes)
2. Total evacuation time : 40 minutes.
(Emergency)
LIFT ENTRY LOBBY
LIFT WELL
SHUTTLE BAY
SHUTTLE BAY
55

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