Case Study Suzlon One Earth Pune

Campus for world’s largest integrated

Campus for world’s largest integrated

wind

wind

turbine

turbine

manufactur

manufactur

ers.

ers.

a. Oc

a. Oc

e Compl

e Compl

ex

ex

b.

b.

Corporate

Corporate

learning center

learning center

Plot area – 45,3!

Plot area – 45,3!

s"m

s"m

#uilt

#uilt

up

up

area$

area$

%&,'(5

%&,'(5

s"m

s"m

Capacit)

Capacit)

– 3&&& emplo)ees

– 3&&& emplo)ees

*ntroduction

*ntroduction

$+ulon

$+ulon

2

2

- n/ironmental 0esign +olutions

3

3

- n/ironmental 0esign +olutions

- n/ironmental 0esign +olutions

4

*ntegrated Process is a must for

*ntegrated Process is a must for

optimum design

optimum design

5

5

- n/ironmental 0esign +olutions

+ta2eolders of te proect

- n/ironmental 0esign +olutions 6



Client

– +ulon nerg) 1td.



Principal Architect

– Cristoper Carles

#enninger rcitects



Developers

– 6ascon ngineer



Landscape Architects

– 7a/i and 6arsa

8a/andi



Interior Architects

– 9ao rcitecture and

+pace :atrix



Electrical consultants

– Power ngineers

HVAC consultants

– 7efr)sint



Plumin! Consultant

– 7aul 0adpale

Li!htin! consultants

– :inistr) of 1igts



Communication and E"perience

– lepant

•

Carbon ;eutral <troug on site = o> site

energ)?

 –

@ero ;et nerg) for 1igting

<troug On$+ite generation?

 – P6 s)stems integrated in design  – :icro Aind <to be e/aluated?

 – #iomass <Bitcen waste = +9P output =

landscape Aaste?

•

Positi/e 1ife C)cle cost of all in/estments

nerg) +)stems <xcept renewable to a/e a pa)bac2  5 )ears

Proect Performance 9argets $

nerg)

•

n/elope Performance

 –

:inimal Deat 8ain <4&E better tan

+D7 &.F !&&% and C#C en/elope

standards?

 –

F&&E saded 8laing during summer

<pril$

October?

 –

;atural 6entilation Potential in

transition spaces

 –

0a)ligting <G&E 0a)lit spaces?

#uilding Performance

 9argets

Fig. 1 - Annual Radiation Chart – 

Source Climate Responsive Architecture 2004

Fig. 2 - Solar Radiation Chart for urgaon! summers – 

Source Climate Responsive Architecture

Optimum Orientation and

:assing

Controlled +olar ccess

+ading wit :ass articulation

- n/ironmental 0esign +olutions & & !F :arc !H&& pm !F Iune !H&& pm !F 0ec !H&& pm !F +ep !H&& pm

Fig. "# – $indo% %ith vertical shades to cut off earl& (ertical Fins Fig. "a – )arge gla*ed areas on 'orth face to allo%

•

*lluminance 1e/els

 –

s per ;#C 35& 1ux a/erage

1igting 1oad <&.' AKsft for

oces?

 –

+uspended direct indirect ligt

Mttings

 –

0es2 and furniture mounted

tas2 ligt

#uilding Performance

 9argets



Optimie building design to

reduce te

con/entional energ) demand



Optimie te energ) performance

of te

building witin speciMed comfort

limits

- n/ironmental 0esign +olutions

nerg) end

use

&

5

n/elope

&6

 D*8D P7LO7:;C 81@*;8$

  9e exposed glass is 4mm Clear nnealed = &.%(mm P6# =

(mm B9 455 = F!mm ir gap = (mm Clear Deat$+trengtened.

 J /alue$ &.3! #tuKr.ft!.NL +olar Lactor$ &.!( wic is less tan

&.3 prescribed b) C#C for moderate climate ones. 9us, no additional sading is necessar) for tese.

0a) ligting

& '

:ore tan %5E of 7egularl) occupied spaces are da) lit wit a 0L of G!.5E

cient 1igting 0esign

- n/ironmental 0esign +olutions &(

 0immable ballasts in conunction wit da)ligt sensors are used

trougout te Open Oce space.

 8eneral 1igting at 35& 1ux.

  9e rtiMcial 1igts $ dimmed up  dimmed down from &E to

F&&E depending on te ade"uac) of a/ailable da)ligt to meet te 35&lux re"uirement.

  9e 9as2 1igts a/e an *ntelligent #uilt$in Occupanc) sensor in

conunction wit a Continuous dimmer.

 1igting of indi/idual oces is controlled b) combined

da)ligt and occupanc) sensors.

 & E of te 1uminaries in te Oce space are wit dimmable

ballasts  are eiter

connected to Occulux sensors, da)ligt sensors or Occuswitc sensors.

  9e installed ligting of oce spaces as been designed at

&.' AKs". ft., &.%5AK+".ft. for cores, &.!3AK s". ft. for basement par2ing. O/erall 1.P.0. b) wole building area

nerg) cient D6C

+)stem

- n/ironmental 0esign +olutions &)

 +Q+9: L1R*#*19Q OL 67*#1 7L7*87;9 6O1J: +Q+9:$

 9e indoor unitSs cooling operation can be controlled to maintain desired temperature in an) location in te premises according to end userSs needs and preferences.

 P7$COO1*;8 ;0 D9 7CO67Q 9 9.L..s$

  sensible eat excanger is used as pre$cooler to sin2 te

temperature of incoming

air <sa) 3'.4TC 0#9 approx.? to approx.!%.((TC.

 0*7C9$*;0*7C9 6PO79*6 COO1*;8

 F? +ensible cooling of approx F3&E of fres air in an ecient

eat excanger, using pre$cooled water.

 !? Lurter cooling of air, and simultaneous cooling of water in

indirect e/aporati/e cooling section of te unit. ir re"uired for cooling tower part tis section is drawn from te outlet of te same section. <9is is te excess 3&E "uantit) wic as been cooled in te Mrst and te second sections?. 9is air is termed commonl) as Usca/enge airV.

nerg) performance

 9e building as been e/aluated using 6isual 0O, a front$end to te 0O$ !.F engine as te simulation



Jtiliation of W) as in te building

structure



7educe /olume, weigt, and time of

construction b) adopting an ecient

tecnolog)



Jse low$energ) material in te

interiors

- n/ironmental 0esign +olutions

nerg)H embodied and

construction

2

&

Jtiliation of W) as in te building

structure

7educe /olume, weigt, and time of

construction b)

adopting an energ)$ecient tecnolog)

 0LA$ AD $EA 0AVI# I CCE-E 3'7 LO7 CO1J:; ;0 LOO9*;8 +6*;8 *; CO;C79 F&E RC1J0*;8 +97;0+ +6*;8 *; +91 5&E

Jse low$energ) material in te

interiors



7enewable energ) utiliation

7enewable$energ)$based ot

water s)stem

nerg)H

renewable

2

5

7enewable energ) utiliation

$IPV

0olarPanels

+9*:90 ;78Q P.

X!&,&&& BAD

7enewable energ)

utiliation

+9*:90 ;78Q <F' A*;0 :*11 = !43 +O17

P;1? P.

X!, 3&,&&& BAD

7enewable$energ)$based ot

water s)stem

2 (

F&&E of ot water re"uirement is met b) te +DA

s)stem installed on site



7educe landscape water

re"uirement



7educe building water use



cient water use during

construction

Aat

er

2

)

7educe landscape water

re"uirement

<C? n/ironmental ons P/t 1td. !&& 3*

 +election of species

 ll permanent planting is of nati/e +pecies

 :inimiation of ig maintenance lawn area

 Placements of trees along wit srubs

 Planting of srubs and ground co/er on all exposed soil

surfaces

 Jse of mulcing is done to aid plant growt, and retain soil

fertilit) and moisture

 +easonal maintenance plan

 *ntegrated Pest Control plan

 *nno/ati/e wa)s to control wastage of water

7educe building water use

Aater Closets

0J1 L1J+D LJ11 <( 1PL? and D1L

<3 1PL?



+ensor #ased urinals



J7*;1+ A*9D DQ97O;*C J7*;1

+;+O7+



cient Wow and plumbing Mxtures



P7++J7 70JC*;8 06*C



A97 CO;+76*;8 +DOA7

cient water use during

construction

Jse of 7ec)cled Aater for /arious

construction process



Aaste$water

treatment



Aater rec)cle and

reuse

ec,cle8 rechar!e8 and

reuse o9 +ater

3

4

Aaste$water treatment

35



A9P! – Aater 9reatment Plant for 7aw Aater

7O $ Aater 9reatment Plant using 7O

 9ecnolog) – :ax !&&1PD



A9PF $ Aater 9reatment Plant for 7ain Aater

Dar/esting

+)stem <7ec)cle and reuse?



+9P – +ewage 9reatment Plant <7ec)cle and

Aater rec)cle and reuse

3 6

Annual +ater reuse o9

5(:337



7eduction in waste during

construction



cient waste segregation



+torage and disposal of waste



7esource reco/er) from waste

Aaste

management

3

Aaste management

3 (



Jse of low 6OC </olatile organic

compounds?

paintsKadesi/esKsealants



:inimie oone$depleting

substances



nsure water "ualit)



cceptable outdoor and indoor

noise le/els



 9obacco and smo2e control

Dealt and well$being of

occupants

3

)



Carpooling



$carging points



n/ironmental education



*ntegrated pest management



O>site green power



@ero waste management polic)



Construction on renewable

4

*

Oter

energ)

 9ransportation nerg)

- n/ironmental 0esign +olutions 4&



Carpooling is encouraged b) pro/iding

5E of total /eicle par2ing capacit) on

site as dedicated par2ing for

carpooling.



lectrical carging points to ser/e %

/eicles <F(.E of 9otal 6eicle

Par2ing capacit)? at one time.

8reen education in te

campus

4 2

Construction on renewable

energ)

- n/ironmental 0esign +olutions

0ummar, o9

Power Consumption

+r. no Lrom 08 Lrom :+# 9otal

Consump tion ctual power generated from o>site wind mill F. 34F5F.4 (&&% 4!4'.4 %!&'F'& 43

Construction on renewable

energ)

O>site green power

+ulon is ma2ing an attempt to o>set te en/ironmental impact of energ) consumed b) te facilit), since te ;site #reen Po+er

+afet) K+anitation Lacilities Lor

Construction Aor2ers

Practices to 7educe ir

Pollution during construction

4 5 Co/er and nclosur e A+aren ess Pro!ra mmes  0>I # polic, on site ?ater