{a[hvil} - Gujarat Pollution Control Board
{a[hvil} - Gujarat Pollution Control Board {a[hvil} - Gujarat Pollution Control Board
s&(ct pi(SS {a[hvil} m[ss< S&BlÈm) pi[l)a[ATs< (lm)T[D AYL : sv[< n> - 81-87, 90-96, 98-102, 113,119,120, 123- 127, gim : B[>sl), til&ki : vigri, (jÃli : B$c, {g&jrit} a¿yiskti< : D)Ti[x ki[pi[
- Page 2 and 3: an&k|m(Nki k|mi>k (vPy pini n>br !
- Page 4 and 5: aikZ(t n>br aikZ(tn) yid) aikZ(t pi
- Page 6 and 7: • m&²y uRpidk pi[l)a[ATr f)lim[
- Page 8 and 9: 6.0 jm)n (vAtirn&> (vGTn k&l jm)n (
- Page 10 and 11: 9.0 uRpidn p\(k\\yi piTS - S&BlÈm)
- Page 12 and 13: 10.0 pyiDi[ hil pyiDi[ni[ a¿yis 1
- Page 14 and 15: s&(ct p\i[j[kTY) hvin) g&Nv_iimi> G
- Page 16 and 17: ki[OTk: 9 piN) ckisN)ni> AYL an[ m&
- Page 18 and 19: asri[ni[ a¿yis an[ (ny>#iN {upSmn}
- Page 20 and 21: • Ô[ frj dr(myin PPE ni[ smyi>tr
- Page 22 and 23: y&zD\ ai[el an[ D)AkiD[D kºT[nrs r
- Page 24 and 25: (vAtrN miT[n) jm)nn) t]yir) miT[ ¼
- Page 26 and 27: EIA EXECUTIVE SUMMARY FOR Partially
- Page 28 and 29: List of Table Table no. Content Pag
- Page 30 and 31: 3.0 NEED OF PROJECT Due to increase
- Page 32 and 33: Total build up area for power plant
- Page 34 and 35: Figure 1: Flow diagram for manufact
- Page 36 and 37: monitoring location with average co
- Page 38 and 39: Mitigation measures Adequate stack
- Page 40 and 41: Impact study with mitigation measur
- Page 42 and 43: 9 Marshy Vegetation 1265.42 4.03 10
- Page 44 and 45: The details regarding fund allocati
s&(ct pi(SS<br />
{a[<strong>hvil</strong>}<br />
m[ss< S&BlÈm) pi[l)a[ATs< (lm)T[D<br />
AYL : sv[< n> - 81-87, 90-96, 98-102, 113,119,120, 123-<br />
127, gim : B[>sl), til&ki : vigri,<br />
(jÃli : B$c, {g&jrit}<br />
a¿yiskti< :<br />
D)Ti[x ki[pi[
an&k|m(Nki<br />
k|mi>k (vPy pini n>br<br />
! p\i[j[kT p\pi[nºT !<br />
Z uRpidkn) mi(ht): !<br />
# p\i[j[kTn) j$(ryit Z<br />
$ p\i[j[kTn) (k>mt: Z<br />
5 sieT n) lix(Nkti Z<br />
& jm)n (vAtirn&> (vGTn $<br />
* s&(ct ¼liºT miT[ kici miln) j$(ryit $<br />
( bL_iNni[ vpriS 5<br />
) uRpidn p\(k\\yi &<br />
!_ pyiDi[ (<br />
!_P! hvin&> pyi pyi pyi pyi
ki[OTkn) yid) {T[bln) mi(ht)}<br />
T[bl n>br (vPy pini n>br<br />
1 uRpidn xmtin) mi(ht) !<br />
2 sieTn) (v(SÖ lix(Nkti #<br />
3 crN p\miN[ kici milni[ vpriS $<br />
4 crN p\miN[ bL_iNni[ vpriS 5<br />
5 bL_iNni[ vpriS 5<br />
6 hvi p|d*Pki[ miT[ sr[ri>S v[9y&> (<br />
7 AT[kn) mi(ht) )<br />
8 GLC vwvin[ kirN[ p\d&Pki[n) siºÙti !_<br />
) piN) ckisN)ni> AYL an[ m&²y mipd>Di[ !Z<br />
!_ a¿yis (vAtirmi> avijn) mi#ii !5<br />
!! a¿yis (vAtirmi> jm)n vpriS/ p\kir !&<br />
!Z Gn kcrin) mi(ht) !*<br />
!# ji[Km) kcrin) mi(ht) !*<br />
!$ vAt) gNtr)ni aiFirB&t miLKik)y siri>S !)<br />
S&B lÈm) pi[l)a[ATr (lm)T[D, vh)vT) siri>S b
aikZ(t<br />
n>br<br />
aikZ(tn) yid)<br />
aikZ(t pini n>br<br />
! uRpidn p\(k\yi – pi[l)a[ATr ¼liºT miT[ r[Ki(c#i &<br />
Z pivr ¼liºT miT[ r[Ki(c#i *<br />
# vi[Tr b[l[ºs Diyig\im !#<br />
S&B lÈm) pi[l)a[ATr (lm)T[D, vh)vT) siri>S c
1.0 p\i[j[kT p\pi[nºT:<br />
• S&BlÈm) pi[l)a[ATr l). a[ S&BlÈm) gZpn) k>pn) C[,j[ dmN, didri ngr hv[l)ni><br />
k[ºd^ Si(st p\d[S dmN an[ s)lvisi aiwi(rt kiyo agrvil,<br />
â) ajyk&mir agrvil {m[n[J>g Diyr[Tkr}, â) mni[j agrvil an[â) (vkis<br />
agrvil[ kr[l C[.<br />
2.0 uRpidkn) mi(ht):<br />
S&BlÈm) gZp[ s&(ct pi[l)a[ATr yin< uRpidn y&(nTn) Ayipnin) p\Ativni sv[< n>. 81-<br />
87, 90-96, 98-102, 113, 119, 120, 123-127, gim: B[>sil), til&ki: vigri, J9li[:<br />
B$c, g&jrit Kit[ kr[l C[.<br />
an&.<br />
n>br<br />
ki[OTk:1 uRpidn xmtin) mi(ht)<br />
p\i[DkTs crN-1<br />
uRpidn<br />
xmti<br />
1. p).ai[.viy/ a[f.D).viy/<br />
D).T).viy<br />
{ piT p).ai[.viyn&> uRpidn ph[li> crNmi> bniv[l eºTrm)D)y[D p\i[DkT<br />
c)¼smi>Y) YS[.<br />
32.04<br />
m[givi[T<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 1
• m&²y uRpidk pi[l)a[ATr f)lim[ºT yin< hS[ jyi> ph[li> crNmi> eºTrm)D)y[D p\i[DkT<br />
c)¼sn&> uRpidn YS[ an[ b)ji> an[ #i)ji> crNmi>, m&²y uRpidk tr)k[ pi[l)a[ATr<br />
f)lim[ºT yin< hS[.<br />
• p\i[j[kT p\pi[nºT oiri Ayipvimi> aivti> g[s aiwi(rt k[(¼T)v pivr ¼liºT j[mn) k&l<br />
xmti> 32.04 m[givi[T C[ t[mi>Y) y&(nTni> pivrn) j$(ryit mL) rh[S[.<br />
3.0 p\i[j[kTn) j$(ryit<br />
• piT kirN[,ai gZp[ s&(ct p).ai[.viy<br />
uRpidn y&(nTn) Ayipnin) p\Ativni dh[j, g&jrit Kit[ kr[l C[.<br />
• kp>n)mi> pi[l)a[ATr c)¼sn) vwt) jt) mi>gn[ ¹yinmi> le, k>pn)a[ p\)mies)smi> j<br />
pi[l)a[ATr c)¼s uRpidnn) p\Ativni m*k[l C[.<br />
4.0 p\i[j[kTn) (k>mt:<br />
• s&(ct p).yi[.viy an[ pivr p\i[j[kT miT[ k&l k[p)Tl ri[kiN a>diJt $. 1328 kri[D<br />
C[.<br />
5.0 sieT n) lix(Nkti :<br />
s&(ct ¼liºT p[T^i[(lym, k[(mkl an[ p[T^i[k[(mkl ri[kiN (vAtir, dh[jmi> aivr) l[vimi><br />
aiv[l C[ k[ jyi> j$(ryitn) s&(vwi an[ kici miln) upl¾G) an[ bjir nJkmi><br />
aiv[li C[.vwir[mi> riÖ^)y wi[r)migpk< bh& sh[li[ C[.<br />
p\i[j[kTn) (v(SÖ lix(Nkti n)c[ m&jb C[.<br />
• s&(ct ¼liºT p[T^i[(lym, k[(mkl an[ p[T^i[k[(mkl ri[kiN (vAtir, dh[jmi> C[ t[Y)<br />
j$(ryitn) s&(vwi j[v) k[ rAti, D^[n[j, pivr an[ piN) upl¾w C[.<br />
• AYLvN
• siwni[, bi>wkim mil, pieps, k[m)klsni> p(rvhn miT[ ¼liºT sieTY) yi[³y [ rAti<br />
pr phi[>cvini[ mig< upl¾w C[.<br />
• fl& g[sn) s&yi[³yti/s>Bivni upl¾w C[.<br />
• p\i[j[kT sieT nJk ¼liºTn) j$(ryit m&jb piN)ni> A#ii[t upl¾w C[.<br />
• stt AvμC uRpidn p\(kyi oiri v)jL) an[ k&drt) s>p(t jiLv) riK)S&><br />
p\i[j[kT sv[< n>br<br />
gim<br />
til&ki<br />
J9li[<br />
rijy<br />
ki[OTk 2 : sieTn) (v(SÖ lix(Nkti<br />
sv[< n> : 81-87, 90-96, 98-102, 113, 119,<br />
120, 123-127<br />
B[>sil)<br />
vigri<br />
B$c<br />
g&jrit<br />
axi>S 21 o 43’ 17.3’’ utr<br />
r[Ki>S 72 o 45’ 32.5’’ p*v<<br />
nJkn&> gim B[>sil) – 0.52 (k.m).{a>diJt}<br />
nJkn&> Tiun/Sh[r dh[j – 20 k).m). {a>diJt}<br />
B$c – 25 k).m). {a>diJt}<br />
nJkn&> r[9v[ AT[Sn B$c – 25 k).m). {a>diJt}<br />
nJkmi> Fi[r)mig< a[n.a[c. – 8 ∼ 28 k).m). {a>diJt}<br />
B$c- dh[j rAti: 0.21 (k.m).{a>diJt}<br />
a[s.a[c. – 864 ∼ 20 k).m). {a>diJt}<br />
nJkni[ pi[T< dh[j ∼ 22 k).m). {a>diJt}<br />
n[Snl pik< /j‚gl/viE9D lief 10 k).m). (#ijyimi> ki[e n[Snl pik< an[<br />
s[ºμy&r)<br />
viEÃDlief s[ºμy&r) aiv[l nY).<br />
sm&on) si>kD) KiD)n&> a>tr 0.8 (k.m).<br />
a](thi(sk Emiμt 10 (k.m) (#ijyimi> ki[e a](thi(sk Emiμt<br />
nY).<br />
avkiS) a>tr l)w[l C[.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 3
6.0 jm)n (vAtirn&> (vGTn<br />
k&l jm)n (vAtirn&> (vGTn n)c[ m&jb C[.<br />
k&l bi>wkim (vAtir {ph[l&> crN}<br />
k&l bi>wkim (vAtir {b)j&> crN}<br />
k&l bi>wkim (vAtir {#i)j& crN}<br />
pivr ¼liºT k&l bi>wkim (vAtir<br />
K&9li[ (vAtir<br />
g\)n b[9T (vAtir<br />
E.T).p).<br />
piN) S&(¹okrN (vAtir<br />
li[(D>g/an li[(D>g<br />
s>g\hN Ti>k)<br />
kcri s>g\hN (vAtir<br />
k&l (vAtir Kr)d[l<br />
7.0 s&(ct ¼liºT miT[ kici miln) j$(ryit:<br />
: 1,32,520 ci[.m).<br />
: 26,828 ci[.m).<br />
: 43589 ci[.m).<br />
: 4655 ci[.m).<br />
: 37568 ci[.m).<br />
: 198200 ci[.m).<br />
: 900 ci[.m).<br />
: 480 ci[.m).<br />
: 25350 ci[.m).<br />
: 510 ci[.m).<br />
: 1000 ci[.m).<br />
: 471600 ci[.m).<br />
ki[OTk:3 crN p\miN[ kici milni[ vpriS<br />
kici mil kici milni[ vpriS {m[T^)k Tn/vP. 4
a[ºT)mn)<br />
T^ieai[ksieD<br />
83 0 83 166<br />
TieT[n)ym<br />
Dieai[ksieD<br />
830 0 830 1660<br />
Ap)n f)n)S ai[El 730 638 1368 2736<br />
mi[D)fier 41 0 41 82<br />
pi[l)mr c)¼s<br />
0 127750¥ 0 127750<br />
{ eºTrm)D)y[D<br />
p\i[DkT }<br />
¥b)ji crNmi> p).ai[.viyn&> uRpidn ph[li> crNmi> bniv[l eºTrm)D)y[D p\i[DkT<br />
c)¼smi>Y) YS[.<br />
8. 0 bL_iNni[ vpriS<br />
g[s aiwi(rt k[¼T)v pivr ¼liºT miT[ j$r) n[crl g[sni[ m&²y A#ii[t e(ºDyn ai[el<br />
ki[pi[ an[ sieT s&w) T^k an[ DÀpr oiri livvimi> aivS[. p\i[j[kT miT[<br />
upyi[g) bL_iNn) k&l mi#ii crN p\miN[ n)c[ m&jb C[.<br />
ki[OTk:5 bL_iNni[ vpriS<br />
bL_iN bL_iNni[ vpriS { MT/day }<br />
crN -1 crN -2 crN-3 k&l<br />
ki[lsi[ 100 -- 100 200<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 5
9.0 uRpidn p\(k\\yi<br />
piTS - S&BlÈm) pi[l)a[ATr l). p[j n>. 6
pivr ¼liºT<br />
g[s aiwi(rt k[¼T)v pivr ¼liºT AYipvin) p\Ativni C[. #iN crN miT[ k&l pivrn)<br />
j$(ryit 32.04 m[givi[T C[. dr[k crNn) j$(ryit p\miN[ pivr ¼liºT AYipvimi> aivS[.<br />
pivr uRpºn krvi k&l 12 a[ºJnn) AYipni krvimi> aivS[ j[ dr[kn) xmti> 2.67<br />
m[givi[T hS[.<br />
crN p\miN[ a[ºJnn) Ayipnin) mi(ht) n)c[ m&jb C[.<br />
crN a[ºJn pivr uRpºn<br />
crN -1 4 10.68 m[givi[T<br />
crN-2 2 5.34 m[givi[T<br />
crN-3 6 16.02 m[givi[T W<br />
k&l 12 32.04 m[givi[T<br />
pivr ¼liºT miT[ r[Ki(c#i n)c[ m&jb C[.<br />
(c#i Z: pivr ¼liºT miT[ r[Ki(c#i<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 7
10.0 pyiDi[<br />
hil pyiDi[ni[ a¿yis 1 (Ds[Àbr,2010 Y) 28 f[b\&air), 2011 dr(myin<br />
#iN m(hni miT[ krvimi> aiv[l.<br />
10.1 hvin&> pyi aiv[l 6 AYLi[ prY) hvin) g&Nv_iin) ckisN)<br />
krvimi> aiv[l. a¿yis smygiLi dr(myin pvnn) g(t u_ir- p*v< Y) d(xN-p(Vm<br />
(dSimi> trf ht). siETY) pvnn) (dSimi> a[k AYL an[ pvnn) (vr&¹ÙW (dSimi> b[<br />
AYL ps>d kr[l C[. bwi> AYLi[a[ dr[k p\d*Pki[n) sr[ri>S si>oti siY[ mi[n)>Tr)>g AYLn)<br />
mi(ht) n)c[ m&jb C[.<br />
a[km: miek\i[g\im/m) 3<br />
ki[OTk 6 : hvi p|d*Pki[ miT[ sr[ri>S v[9y&><br />
gim (dSi PM10 PM2.5 SOx NOx<br />
p\i[j[kT<br />
sieT<br />
--- 75 30 6.43 19.05<br />
aTil) p(Vm 54 25 5.32 15.33<br />
klidri d(xN- p(Vm 48 23 5.5 15.46<br />
Ki[L)yid d(xN- p(Vm 54 27 4.3 15.57<br />
Ki[jbl u_ir- p(Vm 54 27 4.81 12.85<br />
aml[Åvr u_ir- p(Vm 52 26 4.5 15.15<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 8
asr a¿yis :<br />
sieT pr bi>wkim milni> p(rvhn ni> kirN[ vitivrNmi> SPM siY[ SOxn&> p\miN vwS[.<br />
bi>wkim dr(myin hvi pyi A#ii[t g[s a[ºJn an[ Y(m<br />
crN-1<br />
crN-2<br />
crN-3<br />
ki[OTk 7 : AT[kn) mi(ht)<br />
mipd>D g[s a[ºJn Y(mcie 30.5 m) 50 m)<br />
AT[kn) Diyim)Tr 0.8 m) 1.2 m)<br />
fl&g[s v[li[s)T) 10 m)/ s[kºD 15 m)/ s[kºD<br />
fl& g[sn&> tipmin 150 s[° 120 s[°<br />
AT[kni[ p\d*PN li[D<br />
PM10<br />
NOx<br />
Sox<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 9<br />
12<br />
4<br />
2<br />
6<br />
0.176 gi|m/s[kºD<br />
0.532 gi|m/s[kºD<br />
--<br />
2<br />
1<br />
--<br />
1<br />
1.285gi|m/s[kºD<br />
1.935gi|m/s[kºD<br />
1.620gi|m/s[kºD<br />
hvi p\d*PN (ny>#iN siwni[ yi[³y AT[k U>cie v[T (f9m s[p[r[Tr<br />
m9T) siykli[n DAT<br />
s[p[r[Tr
s&(ct p\i[j[kTY) hvin) g&Nv_iimi> GNi smy miT[ PM10, SOx an[ NOX n) siºÙti> vFS[,<br />
ai pr)Nim m&²y AT[kni> {c)mn)ni>} aiFir[ lES&>. uprn) mi(ht)ni[ upyi[g mi[D[l)>g<br />
miT[ eºp&T D[Ti tr)k[ YS[.<br />
hil b[zliEn D[Ti pr p\d&Pki[n) siºÙtin[ s&prEÀpi[z kr) hvi p\d&Pki[n) mi#ii mip)<br />
Sk)S&>.<br />
Pollutant Incremental<br />
Concentration<br />
μg/m 3<br />
ki[OTk: 8 GLC vwvin[ kirN[ p\d&Pki[n) siºÙti<br />
Baseline<br />
Concentr<br />
ation<br />
3 *<br />
μg/m<br />
Resultant<br />
Concentration<br />
μg/m 3<br />
Distance<br />
w.r.t.<br />
centre<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 10<br />
km<br />
Direction w.r.t.<br />
centre<br />
PM10 2.309 75 77.309 1.118 d(xN- p(Vm<br />
Sox 1.223 6.43 7.653 1.802 d(xN- p(Vm<br />
NOx 6.608 19.05 25.658 1.118 d(xN- p(Vm<br />
GLC: g»iuD l[vl siºWti<br />
* g&r&Rtm a[vr[j siºWti<br />
(ny>#iN pgli> :<br />
p\d&Pki[ni> yi[³y (nkil miT[ p&rt) u>ciEn) AT[kn) AYipni kr)S&>. F&Lni> rjkNi[n[ uDti><br />
aTkivvi smyi>tr[ piN)ni[ C>Tkiv krvimi> aivS[. fy&&JT)v a[m)Sn {hvimi> uDti<br />
rjkNi[} aTkivvi a>drni> rAti ki[ºk|)Tni> bnivvimi> aivS[.hvi p\d*PN (ny>#iN pgli><br />
tr)k[ Y(m.
10.2 piN)n&> pyi hilni> piN)ni> pyi b[ezlien p(r(AY(t ni> a¿yis miT[ p\i[j[kT sieTn)<br />
aispisni> gimi[mi>Y) 6 AYLi[ prY) spiT) prni piN) an[ 4 AYLi[ prY) B&gB< piN)ni><br />
nm*ni> a[kqi> kr[l C[.<br />
ckisN)ni> AYL prni> m&²y mipd>Di[ n)c[ m&jb C[.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 11
ki[OTk: 9 piN) ckisN)ni> AYL an[ m&²y mipd>Di[<br />
gim A#ii[t pH TDS kli[rieD ai[el an[<br />
klidri B*Atr)y piN) 7.48 4650 3460 b).D).a[l.<br />
ki[L)yid B*Atr)y piN) 7.77 1621 614 b).D).a[l.<br />
Ki[jbl B*Atr)y piN) 7.73 2778 1229 b).D).a[l.<br />
aml[Åvr B*Atr)y piN) 8.44 569 85 b).D).a[l.<br />
p\i[j[kT sieT srf[s piN) 7.82 110 25.5 b).D).a[l.<br />
aTil) srf[s piN) 8.9 160 16.1 b).D).a[l.<br />
klidri srf[s piN) 7.4 1820 822 b).D).a[l.<br />
ki[L)yid srf[s piN) 6.89 250 85.1 b).D).a[l.<br />
Ki[jbl srf[s piN) 7.39 280 94.5 b).D).a[l.<br />
aml[Åvr srf[s piN) 7.47 90 13.2 b).D).a[l.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 12<br />
g\)s
vi[Tr b[l[ºs Diyig\immi> piN)ni> vpriS an[p\d&(Pt piN)n) u_p(tn) mi(ht) n)c[ m&jb<br />
aip[l C[.<br />
(c#i Z:vi[Tr b[l[ºs Diyig\im<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 13
asri[ni[ a¿yis an[ (ny>#iN {upSmn} pgli> :<br />
bi>wkim an[ ai[pr[Sn crN miT[n&> piN) srdir sri[vr nmY) l[vimi><br />
aivS[. s&(ct p\i[j[kT miT[ B*Atr)y piN) l[vimi> aivS[ n(h.<br />
s&(ct p\i[j[kTmi> si[fTnr an[ D).a[m. ¼liºT, k&l)>g Tivr an[ bi[elrmi>Y) ¾li[ Diun,<br />
p\i[s[s g>dipiN), Ak\br r)j[kT an[ a[m.e.J. an[ p).T).a[.ni> k[(mkl r)a[kSn<br />
dr(myin uRpºn Yt&> g>d&piN)mi>Y) r)j[kT m&²y uRpºn Yti> g>dipiN) C[.<br />
si[fTnr an[ D).a[m. ¼liºTmi>Y) uRpºn Yti> g>dipiN)mi> uμc T).D).a[s.n&> Atr hS[ k[<br />
j[mi> piN) um[r) tTAY krvimi> aivS[ an[ s)ATmmi> p&n: upyi[g mi> l[viS[ k[ jyi> k&l)>g<br />
Tivr an[ bi[elrn&> ¾li[ Diunn&> AYLi>tr air.ai[. ¼liºTmi> Yiy C[.<br />
p\i[s[smi>Y) uRpºn Yti> g>dipiN)ni> S&(¹okrN miT[ b[ ef9y&ºT T^)Tm[ºT ¼liºT j[mn)<br />
xmti> 250 m) 3 /(dvs C[ an[ pC) t[mi>Y) Yi[D&> g\)n b[9Tni> (vkis miT[,F&Lni> rjkNi[n[<br />
uDti> aTkivvi smyi>tr[ piN)ni[ C>Tkiv krvi miT[ an[ Yi[D&> air.ai[. mi> S&¹o krvi<br />
miT[ an[ bik) rh[l piN)n[ s)ATmmi> p&n: upyi[gmi> l[S[.<br />
air.ai[. r)j[kTni[ upyi[g Akb\rmi> tiji> piN) tr)k[ an[ Akb\rmi>Y) r)j[kTni[ (nkil<br />
biOp)Bvn p\(kyi oiri YS[.<br />
10.3 avijn&> pyi (vAtirmi> avijn) mi#ii j&di j&di p\kirn) (k|yiai[n[ aiFir[ vFGT Yiy C[.<br />
avij pyi gimni[ a¿yis<br />
krvimi> aiv[l C[.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 14
asri[ni[ a¿yis :<br />
ki[Otk: 10 a¿yis (vAtirmi> avijn) mi#ii<br />
k\mi>k s[Àp)>g AT[Sn (vAtirni[<br />
p\kir<br />
(dvs<br />
dr(myin<br />
dB (Leq)<br />
ri(#i<br />
dr(myin dB<br />
(Leq)<br />
1 sieT – N1 ai]wi[(gk 56.5 dB(A) 45.6 dB(A)<br />
2 aTil) – N2 rh[Ni>k 61.7 dB(A) 41.3 dB(A)<br />
3 klidri – N3 rh[Ni>k 55 dB(A) 47.8 dB(A)<br />
4 Ki[L)yid – N4 rh[Ni>k 52.7 dB(A) 44.2 dB(A)<br />
5 Ki[jbl – N5 rh[Ni>k 52.4 dB(A) 44.2 dB(A)<br />
6 aml[Åvr – N6 rh[Ni>k 53.9 dB(A) 47.6 dB(A)<br />
bi>Fkim dr(myin sieT pr AYi(pt m)k[n)kl siFni[Y) avij uRpºn YS[ an[ bi>Fkim<br />
an[ vihni[n) avr-jvrn) kirN[ avijn) mi#ii vFS[.<br />
ai[pr[Sn {bi>Fkim tbkki} drÀyin ¼liºT sieT pr m)k[n)kl siFni[ j[vi k[ g[s<br />
a[ºJn an[ ki[Àp\[Srni> l)F[ avij uRpºn YS[.<br />
(ny>#iN pgli>:<br />
• avij uRpºn krti> siFni[ siylºsr siY[ b>F (vAtirmi> riKvimi> aivS[.<br />
• uμc_im avij Frivti (vAtirmi> kim krti> kimdiri[n[ frJyit Eyr mf`s/ Eyr<br />
¼ligni[ upyi[g krvi[ pDS[.<br />
• s).p).s).b). ni> mig GTiDi[ YS[.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 15
• Ô[ frj dr(myin PPE ni[ smyi>tr[ p\[kT)s {T[v} dr(myin upyi[g krvimi> n Yiy<br />
ti[,viEb\[Snn) asrY) Yt) hi(nY) sivc[t rh[vi kimdiri[n[ til)m aipvimi> aivS[.<br />
• smyi>tr[ aQvi(Dy[ a[kvir ¼liºTmi> p\v[S an[ bhir jvini> drviÔ an[ avij<br />
uRpºn krti siFni[ pis[ avijn) mi#iin) ckisN) krvimi> aivS[.<br />
10.4 jm)nn&> pyi (vAtirmi>Y) jm)n vpriS miT[<br />
a¿yis krvimi> aiv[l j[n) mi(ht) n)c[ dSi jm)n vpriS/ p\kir<br />
k|mi>k p\kir (vAtir {ci[.m).} (vAtirmi> Tkivir) {%}<br />
1. K[t)liyk 20262.42 64.53<br />
2. Ak\b 1698.74 5.41<br />
3. K&9l) vnAp(t 2311.04 7.36<br />
4. b>w vnAp(t 543.22 1.73<br />
5. rh[qiN 389.36 1.24<br />
6. ai]Fi[(gk (vAtir 59.66 0.19<br />
7. piN) Big 175.84 0.56<br />
8. nd) 3598.44 11.46<br />
9. kLNviL) vnAp(t 1265.42 4.03<br />
10. kidv 427.04 1.36<br />
11. m)Qi> pÍi[ 135.02 0.43<br />
12. ujjD jm)n 392.5 1.25<br />
13. m)Qi> w*pdin 141.3 0.45<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 16
10.5 Gn kcri uRp(Rt<br />
ki[lsini> upyi[gni> l)w[ uRpºn m&²y Gn kcri-fliy a[S C[. uRpºn Yti> Gn kcrin)<br />
mi(ht) n)c[ m&jb C[.<br />
ki[OTk 12: Gn kcrin) mi(ht)<br />
Gn kcri[ ph[l&> crN b)j&> crN #i)j&> crN k&l kcri[<br />
Birt)y<br />
ki[lsimi>Y)<br />
fliy a[S<br />
aiyit)<br />
ki[lsimi>Y)<br />
fliy a[S<br />
30 Tn/(dvs -- 30 Tn/(dvs 60 Tn/(dvs<br />
10 Tn/(dvs -- 10 Tn/(dvs 20 Tn/(dvs<br />
Gn kcri[ nJkni> e>T uRpidn y&(nT aYvi (sm[ºT uRpidn y&(nTn[ v[cvimi> aivS[.<br />
10.6 ji[Km) kcri[<br />
ki[OTk 13: ji[Km) kcrin) mi(ht)<br />
ji[Km) kcri[ ph[l&> crN b)j&> crN #i)j&> crN k&l kcri[<br />
y&zD\ ai[el 3 k).l)Tr/vP< 2 k).l)Tr/vP< 5 k).l)Tr/vP< 10<br />
D)AkiD[D<br />
kºT[nrs<br />
k).l)Tr/vP<<br />
3 n>/vP< -- 2 n>/vP< 5 n>/vP<<br />
e.p).T). Alz\ 50 Tn/vP< -- 50 Tn/vP< 100 Tn/vP<<br />
D).a[m. r[z)n -- -- 0.50 Tn/vP< 0.50 Tn/vP<<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 17
y&zD\ ai[el an[ D)AkiD[D kºT[nrs rJATr r)siyklrn[ v[cvimi> aivS[ an[ e.p).T).<br />
Alz an[ D).a[m. r[z)nni[ s>g\hN aiesi[l[T[D (vAtirmi> b>w kºT[nrmi> krS[ an[ pC)<br />
s[ky&r l[ºD f)l sieT pr mi[klvvimi> aivS[.<br />
11.0 hr)tpÍini[ (vkis {g\)nb[ÃT D[vli[pm[ºT} :<br />
vitivrN)y hvimi> f[liti p\d&Pki[n[ GTiDvi, avijn) mi#ii GTiDvi an[ p\(k|yimi>Y)<br />
uRpºn Yti> g>di piN)ni> g\hN miT[, ¼liºTn) frt[ an[ ¼liºTni> rAtin) aispis<br />
g\)nb[ÃTni[ (vkis krvimi> aivS[. p\i[j[kT siET an[ aispis aiv[li (vAtirni> vZxi[n[<br />
kipvimi> aivS[ n(h.<br />
s&(ct pi\[j[kT miT[ k&l g\)nb[ÃT n)c[ m&jb C[<br />
k&l g\)nb[ÃT - 19820059m) 2<br />
g\)nb[ÃT (vkis p\i[g\imni> Big $p[ ri[pvimi> aivti> vZxi[n) yid):<br />
a[ziD)rcti e(ºDki {l)mDi[}, ki[D)di}, D)li[n)x r[g)ai {g&lmhi[r},<br />
li[si[n)ai en[m)d)}, mi>g)f[ri e(ºDki {aim}, (vg[r[.<br />
12.0 simi(jk-ai(Y(x¼t vAt)gNtr)-2001} {CD}.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 18
a¿yis (vAtirmi> aikPS<br />
k&l vAt) 25571<br />
k&l p&r&Pn) vAt) 13302<br />
k&l m(hlin) vAt) 12269<br />
k&l k&T&>bi[n) {mkini[n)} s>²yi 5222<br />
BN[li li[ki[n) vAt) 15517<br />
aBN li[ki[n) vAt) 10054<br />
(vAtirni simi(jk-ai(Y pi>c vP< miT[ fiLv[l f>Dn) mi(ht) n)c[<br />
m&jb C[.<br />
vP< fiLv[l f>D<br />
2011 $. 3 liK<br />
2012 $. 3 liK<br />
2013 $. 3 liK<br />
2014 $. 3 liK<br />
2015<br />
k&l<br />
$. 3 liK<br />
$. 15 liK<br />
13.0 AvμC uRpidn mi(ht) {kl)nr p\i[DkSn D)T[Ãs} :<br />
kici mil an[ fliy a[Sni> h[ºDl)>g sieD pr fy&z)T)v a[m)Snn&> (ny>#iN<br />
krS[.<br />
4407 m) 3 /(dvs piN) n) jr*(ryit miY) 742.4 m) 3 /(dvs piN) p&n:upyi[g YS[.<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 19
(vAtrN miT[n) jm)nn) t]yir) miT[ ¼liºT (p\mies)smi> vipr) n Skiy t[v) vAt&><br />
an[ kcrini[ upyi[g jm)n b&rin miT[ YS[.<br />
p).ai[.viyni> uRpidnmi> eºTrm)D)y[D p\i[DkT pi[l)mr c)¼sni[ upyi[g krvimi><br />
aivS[.<br />
jyi> Sky hS[ Ryi> si[lr a[ºJ. k[ºT)>gmi> si[lir k&>krni><br />
upyi[gY) Ki[rik bnivvimi> aivS[, k[ºT)>g, pik) si[lir<br />
a[nJ. k>pn) g[AT hiusmi><br />
si[lir h)Tr f)T krvimi> aivS[.<br />
s&(ct p\i[j[kTni> S$aitmi> k&l)>g Tivrmi> piN)n) j$(ryit 3908 k).l)Tr/(dvs<br />
hS[ pr>t& C[9li> s#imi> piN)n) j$(ryit piN)ni> p&n:upyi[gY) ai[C) YS[. mi#i<br />
tiji> piN)n) j$r pDS[. t[Y) piN)n&> s>rxN YS[.<br />
si>otini> ck\n) srKimN) k&l)>g Tivrni> p&n:p(rB\mNni> Gn Atr Y) m*L tiji><br />
piN)ni> Gn Atr s&w) Yiy C[. p(rB|(mt piN)n) Gn si>oti tiji> piN) krti> C<br />
gN) hi[y C[, ai r)t[ C ck| hS[.<br />
h)T li[s aTkivvi h)T r)kvr) s)Atmn) Ayipni krS[ an[ t[ni[ upyi[g v)jL)<br />
uRp(t miT[ YS[.<br />
14.0 pyiciln p¹o(t :<br />
s&(ct siET miT[ j$r) eºfi|AT^kcr siY[ pyiciln j&Yn) rcni {p(rpkv}<br />
krvimi> aivS[ j[ pi[\j[kT miT[ pyiciln s)ATmn[ mjb*t an[ kiyS - S&BlÈm) pi[l)a[ATr l). p[j n>. 20
2. AT[k a[m)Sn<br />
3. p\d&(PtpiN)n) g&Nv_ii<br />
4. avijn&> Atr<br />
5. Ô[Km) kcri[<br />
vh)vT) siri>S - S&BlÈm) pi[l)a[ATr l). p[j n>. 21
EIA<br />
EXECUTIVE SUMMARY<br />
FOR<br />
Partially Oriented Yarn/ Fully Drawn Yarn/<br />
Texurizing Yarn & Gas Based Power Plant<br />
PROJECT PROPONENT<br />
SUBHALAKSHAMI POLYESTERS LIMITED<br />
Located at<br />
Survey no. 81-87, 90-96, 98-102, 113, 119,120, 123-127,<br />
Village: Bhensali, Taluka: Vagra, District: Bharuch, State: <strong>Gujarat</strong><br />
Prepared by:<br />
Environmental Engineers & Consultants
Index<br />
Sr. no Content Page no.<br />
1.0 Project Proponent 1<br />
2.0 Product profile 1<br />
3.0 Need of Project 2<br />
4.0 Cost of Project 2<br />
5.0 Salient features of site 2<br />
6.0 Land Area break up 3<br />
7.0 Raw material details 4<br />
8.0 Fuel consumption 5<br />
9.0 Manufacturing process 5<br />
10.0 Environment parameters 7<br />
10.1 Air environment 7<br />
10.2 Water environment 10<br />
10.3 Noise environment 12<br />
10.4 Land environment 13<br />
10.5 Solid waste Generation 14<br />
10.6 Hazardous waste details 14<br />
11.0 Green belt development 15<br />
12.0 Socio economic environment 15<br />
13.0 Cleaner Production details 16<br />
14.0 Environment management System 17<br />
15.0 Environment monitoring plan post EC 17<br />
Executive summary for Subhalakshami Polyesters Limited a
List of Table<br />
Table no. Content Page no<br />
1 Product Profile 1<br />
2 Site salient features 3<br />
3 Raw material consumption 4<br />
4 Fuel consumption details 5<br />
5 Fuel consumption details 5<br />
6 Average values for air pollutants 8<br />
7 Details of stack 8<br />
8 Resultant concentration due to incremental GLC 9<br />
9 Water monitoring location and major parameters 10<br />
10 Noise level in study area 12<br />
11 Land use/ cover categories in study area 13<br />
12 Solid waste details 14<br />
13 Hazardous waste details 14<br />
14 Summary of demographic structure 15<br />
List of figures<br />
Figure no. Figure Page no.<br />
1 Flow diagram of manufacturing process – Polyester plant 6<br />
2 Flow diagram of power plant 7<br />
3 Water balance diagram 11<br />
Executive summary for Subhalakshami Polyesters Limited b
SR.<br />
NO<br />
1.0 PROJECT PROPONENT<br />
M/s Shubhalakshmi Polyesters Ltd, is a company under the, Shubhalakshmi group, a<br />
leading industrial group with its operations primarily based at Daman & Silvassa in<br />
the Union Territories Of Daman, Dadra Nagar & Haveli.<br />
The Shubhalakshmi group is promoted by Shri Ramuraman Agarwal (chairman), Shri<br />
Bankeshchandra Agarwal, Shri Ajay Kumar Agarwal (managing director), Shri Manoj<br />
Agarwal and Shri Vikas Agarwal.<br />
2.0 PRODUCT PROFILE<br />
The Shubhalakshami group proposes to install polyester yarn producing unit at<br />
Survey no. 81-87, 90-96, 98-102, 113, 119,120, 123-127, Village: Bhensali, Taluka:<br />
Vagra, District: Bharuch, State: <strong>Gujarat</strong>.<br />
NAME OF PRODUCT I PHASE<br />
1 POY/FDY/DTY(Partially<br />
Oriented yarn/Fully drawn<br />
Yarn/Texturising yarn)<br />
2 Intermediate<br />
Products(Polyester chips)<br />
3 Gas Engine based captive<br />
power plant<br />
Table 1: Product profile<br />
Addition<br />
146000<br />
MT/annum<br />
*127750<br />
MT/annum<br />
10.68 MWH<br />
II PHASE<br />
Addition<br />
127750<br />
MT/annum<br />
III PHASE<br />
Addition<br />
273500<br />
MT/annum<br />
TOTAL<br />
Executive summary for Shubhalakshami Polysester Limited 1<br />
PRODUCTION<br />
CAPACITY<br />
547250<br />
MT/annum<br />
-- -- 127750<br />
5.34<br />
MWH<br />
MT/annum<br />
16.02 MWH 32.04 MWH<br />
*In the second phase POY will manufacture from intermediate Product chip<br />
manufacture in 1st phase.<br />
The major product will be Polyester Filament Yarn whereas Polyester Chips will be<br />
produced as intermediate product in the first phase only whereas in the second and<br />
third phase, polyester filament yarn will be produced as major product and sold<br />
directly in the market.<br />
In order to meet the power requirement of the unit the project proponents have also<br />
proposed to install captive gas based power plant phase wise a total capacity of<br />
32.04 MW.
3.0 NEED OF PROJECT<br />
Due to increase in market demand of Partially Oriented Yarn, the group proposed to<br />
install the POY plant at Dahej, <strong>Gujarat</strong>.<br />
In order to meet the demand of polyester chip in house, company has proposed to<br />
manufacture the same within the premises.<br />
4.0 COST OF PROJECT<br />
Total capital investment for the proposed POY and power plant project is<br />
approximately Rs. 1328 Crores.<br />
5.0 SALIENT FEATURES OF SITE<br />
The location of the proposed unit is decided based on availability of the basic<br />
infrastructure and easily accessible raw material and near market as well as it fall<br />
under PCPIR (Petroleum, Chemical and Petrochemical Investment Region) Dahej<br />
Area. Moreover there is easily assessable connectivity to the national highways.<br />
The salient features of the project are as mentioned below:<br />
• The proposed project is within PCPIR (Petroleum, Chemical and Petrochemical<br />
Investment Region); Dahej area hence basic infrastructure like road,<br />
drainage, electricity and water is readily available.<br />
• Suitability of the land from topographical and geological considerations.<br />
• Location away from forests, national park/sanctuaries, other places of<br />
defence, religious, cultural and ecologically sensitive elements.<br />
• Existing road connectivity to the plant site is adequate for movement of<br />
equipment, construction materials, pipes, etc.<br />
• Availability of fuel gas linkage.<br />
• Availability of source of water adequate to meet the plant requirements near<br />
the project site.<br />
• The project is optimized in terms of resource and energy conservation<br />
through continuous Cleaner Production initiatives.<br />
Executive summary for Shubhalakshami Polysester Limited 2
Project survey no.<br />
Village<br />
Taluka<br />
District<br />
State<br />
Table 2: Site Salient Features<br />
Survey no. 81-87, 90-96, 98-102, 113,<br />
119,120,123-127<br />
Bhensali,<br />
Vagra,<br />
Dist: Bharuch<br />
<strong>Gujarat</strong><br />
Latitude 21 o 43’ 17.3’’ N<br />
Longitude 72 o 45’ 32.5’’ E<br />
Nearest Village Bhensali: approx 0.52 Km<br />
Nearest town/ city Dahej: approx 20 Km<br />
Bharuch: approx 25 Km<br />
Nearest railway station Bharuch: approx 25 Km<br />
Highway NH 8 : approx 28 Km<br />
Bharuch-Dahej Rd: approx 0.21 Km<br />
SH 64: approx 20 Km<br />
Nearest port Dahej: approx 22 Km<br />
National Park/ wildlife sanctuary/ forest None within the 10 km radius<br />
Distance to Creek 0.8 Km<br />
Heritage Site None within 10 Km Radius<br />
** Aerial distance is considered<br />
6.0 LAND AREA BREAK UP<br />
The total area break up is as mentioned below:<br />
Total build up area (1 st phase) : 1,32,520 sq m<br />
Total build up area (2 nd phase) : 26,828 sq m<br />
Total build up area (3 rd phase) : 43589 sq m<br />
Executive summary for Shubhalakshami Polysester Limited 3
Total build up area for power plant : 4655 sq m<br />
Common plot area/ open area : 37568 sq m<br />
Green belt area : 198200 sq m<br />
ETP : 900 sq m<br />
Water treatment area : 480 sq m<br />
Loading/ unloading : 25350 sq m<br />
Storage tank : 510 sq m<br />
Waste storage area : 1000 sq m<br />
Total area acquired : 471600 sq m<br />
7.0 RAW MATERIAL DETAILS<br />
The phase wise consumption of raw material is given in the table below:<br />
Table 3: Raw material consumption<br />
RAW MATERIALS CONSUMPTION, MT/ANNUM<br />
First phase<br />
Addition<br />
Second<br />
phase<br />
Addition<br />
Third phase<br />
Addition<br />
Executive summary for Shubhalakshami Polysester Limited 4<br />
Total<br />
PTA (Purified Terpthalic acid) 234878 0 234878 469756<br />
MEG (Mono Ethylene Glycol) 91433 0 91433 182866<br />
Antimony Trioxide 83 0 83 166<br />
Titanium dioxide 830 0 830 1660<br />
Spin Finish oil 730 638 1368 2736<br />
Modifier 41 0 41 82<br />
Polyester chips (Intermediate<br />
Products)*<br />
0 127750* 0 127750<br />
*In the second phase POY will be manufactured from intermediate Product chip<br />
manufacture in 1 st phase.
8.0 FUEL CONSUMPTION<br />
Natural gas required for the gas based power plant will be mainly sourced from the<br />
Indian Oil Corporation Limited. Gas will be supplied to the site via pipelines.<br />
Table 4: Fuel consumption details<br />
FUEL FIRST PHASE SECOND PHASE THIRD PHASE TOTAL<br />
Executive summary for Shubhalakshami Polysester Limited 5<br />
CONSUMPTION<br />
Natural Gas 50000 SCM/day 44000 SCM/day 104000 SCM/day 198000 SCM/day<br />
The fuel utilized in TFH (Thermic Fluid Heater) will be imported coal/ Indian coal.<br />
Coal shall be obtained from open market and same shall be brought to site by truck<br />
or dumpers. The total quantity of fuel to be used for the project along with the phase<br />
wise break up is as given in the table below:<br />
Table 5: Fuel consumption details<br />
FUEL FIRST PHASE SECOND PHASE THIRD PHASE TOTAL<br />
CONSUMPTION<br />
Coal 100 MT/DAY --- 100 MT/DAY 200 MT/day<br />
9.0 MANUFACTURING PROCESS<br />
Partially Oriented Yarn/ Fully Drawn Yarn/ Texurizing yarn<br />
The detail manufacturing process as shown in the flow diagram below:
Figure 1: Flow diagram for manufacturing process – Polyester plant<br />
Power plant<br />
It is proposed to install natural gas base captive power plant. Total power<br />
requirement for all the three phase will be 32.04 MW. The power plant installation<br />
will be done phase wise as per the requirement in each phase.<br />
Total 12 nos. of engines will be installed with power generation capacity of 2.67 MW<br />
each. Phase wise installation of engines is as follows:<br />
Executive summary for Shubhalakshami Polysester Limited 6
Phase No. of engine Power Generation<br />
Phase 1 4 10.68 MW<br />
Phase 2 2 5.34 MW<br />
Phase 3 6 16.02 MW<br />
Total 12 32.04 MW<br />
The process flow diagram for power plant is given in figure below<br />
Figure 2: Flow diagram for power plant<br />
10.0 ENVIRONMENTAL PARAMETERS<br />
Existing environmental parameters were studied for three months i.e 1 st December<br />
2010 to 28 February 2011.<br />
10.1 AIR ENVIRONMENT<br />
Baseline data:<br />
The existing air quality was measured at six locations within 10 Km radius of the<br />
project site. The prominent wind direction at the site was North East to South West<br />
during the study period. Two locations were selected in downwind direction where as<br />
one location was selected in the up wind direction from the site. The detail of the<br />
Executive summary for Shubhalakshami Polysester Limited 7
monitoring location with average concentration of each pollutant at these locations is<br />
given below:<br />
Table 6: Average values for air pollutants Unit µg/m 3<br />
Village Direction PM10 PM2.5 Sox NOx<br />
Project Site --- 75 30 6.43 19.05<br />
Atali West 54 25 5.32 15.33<br />
Kaladara South West 48 23 5.5 15.46<br />
Koliyad South West 54 27 4.3 15.57<br />
Khojbal North West 54 27 4.81 12.85<br />
Amleshwar North West 52 26 4.5 15.15<br />
Impact study<br />
There will be an increase in SPM level along with Sox (from vehicle exhausts) due to<br />
transportation of construction material at site. During the construction activity the<br />
major impact on the air environment will be due to increase in the fugitive<br />
emissions.<br />
During operation phase the major air pollution creating source will be the stack<br />
attached to the gas engine and thermic fluid heater. The details of the stacks are as<br />
given in the table below:<br />
Table 7: Details of Stack<br />
Stack attached to GAS ENGINES<br />
No. of stack<br />
1 st Phase<br />
2 nd Phase<br />
3 rd phase<br />
(12 nos.)<br />
12<br />
4 nos.<br />
2 nos.<br />
6 nos.<br />
THERMIC FLUID<br />
HEATER (2 nos.)<br />
Executive summary for Shubhalakshami Polysester Limited 8<br />
2<br />
1 no.<br />
--<br />
1 no.<br />
Stack height 30.5 m 50 m
Stack diameter 0.8 m 1.2 m<br />
Exit gas velocity 10 m/s 15 m/s<br />
Exit gas temperature 150 o C 120 o C<br />
Pollutant load at exit of<br />
stack<br />
PM<br />
SOx<br />
NOx<br />
0.176<br />
Nil<br />
0.532<br />
APC Adequate stack<br />
height<br />
1.285<br />
1.620<br />
1.935<br />
Wet film separator Multi<br />
cyclone dust separator<br />
Air quality modelling was done in order to evaluate PM10, Sox and NOx incremental<br />
short-term concentrations due to proposed project. These results are based on the<br />
considering the main stacks. The above data were used as input data for the<br />
modelling purpose.<br />
The incremental increase in the concentration of pollutants is given in the table<br />
below with superimposing the same on the existing baseline data.<br />
Pollutant Incremental<br />
Table 8: Resultant Concentrations Due To Incremental GLC<br />
Concentration.<br />
μg/m 3<br />
Baseline<br />
Concentration<br />
3 *<br />
μg/m<br />
Resultant<br />
Concentration<br />
μg/m 3<br />
Distance<br />
w.r.t. stack<br />
location<br />
PM 2.309 75 77.309 1.118 Km SW<br />
SOx 1.223 6.43 7.653 1.802 Km SW<br />
NOx 6.608 19.05 25.658 1.118 Km SW<br />
* GLC: Ground level concentration<br />
* Maximum average concentration<br />
Executive summary for Shubhalakshami Polysester Limited 9<br />
Direction<br />
w.r.t. stack<br />
location
Mitigation measures<br />
Adequate stack heights will be installed for proper dispersion of the pollutants.<br />
Regular water sprinkling will be done for suppression of dust particles. Internal roads<br />
will be concreted to prevent fugitive emission. Multicyclone with wet film separators<br />
will be provided with thermic fluid heater as air pollution control measures.<br />
10.2 WATER ENVIRONMENT<br />
Baseline data<br />
The existing water environment in the study area is rich with both ground and<br />
surface water. Total 4 nos. of sample of ground water and 6 nos. of surface water<br />
samples were collected to study the baseline water condition in and around the<br />
vicinity of the project site.<br />
Major parameters at the monitoring site is given in table below<br />
Table 9: Water monitoring location and major parameters<br />
Village Source pH TDS Chlorides Oil & Grease<br />
Kaladara Ground water 7.48 4650 3460 BDL<br />
Koliyad Ground water 7.77 1621 614 BDL<br />
Khojbal Ground water 7.73 2778 1229 BDL<br />
Amleshwar Ground water 8.44 569 85 BDL<br />
Project site Surface water 7.82 110 25.5 BDL<br />
Atali Surface water 8.9 160 16.1 BDL<br />
Kaladara Surface water 7.4 1820 822 BDL<br />
Koliyad Surface water 6.89 250 85.1 BDL<br />
Khojbal Surface water 7.39 280 94.5 BDL<br />
Amleshwar Surface water 7.47 90 13.2 BDL<br />
The detail water balance diagram showing the water consumption and waste water<br />
generation is as given in table below.<br />
Executive summary for Shubhalakshami Polysester Limited 10
Figure 3: Water Balance Diagram<br />
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Impact study with mitigation measures<br />
Water for both the construction and operation phase will be sourced from Sardar Sarovar<br />
Narmada Nigam Limited.<br />
The major waste water generated in the proposed project will be reject from softner and DM<br />
plant, blow down from cooling tower and boiler, process waste water, scrubber reject and<br />
water generated during the chemical reaction of MEG and PTA.<br />
The waste water generated from softner/ DM reject shall have high TDS level which shall be<br />
neutralized by dilution and recycle back in the system whereas the blow down from boiler<br />
and cooling tower shall be transferred to RO plant.<br />
The waste water generated in the process shall be treated in 2 nos. of effluent treatment<br />
plant with a capacity of 250 cum/day and later partly used in green belt development, dust<br />
suppression and partly treated in RO and recycle back to system.<br />
The RO reject shall be used in as scrubber water make up and the reject from scrubber shall<br />
be disposed by evaporation system.<br />
10.3 NOISE ENVIRONMENT<br />
Baseline data<br />
The noise level varies depending on the type of activities carried out in the surrounding<br />
area. The baseline noise environment was studied at the project site as well as the<br />
surrounding villages and the data are as tabulated below<br />
Sr.No. Sampling<br />
Table 10: Noise levels in study area<br />
Station - Code<br />
Type of<br />
area<br />
Day Times<br />
dB (Leq)<br />
Night Time<br />
dB (Leq)<br />
1 Project Site - N1 Industrial 56.5 dB(A) 45.6 dB(A)<br />
2 Atali - N2 Residential 61.7 dB(A) 41.3dB(A)<br />
3 Kaladara - N3 Residential 55 dB(A) 47.8 dB(A)<br />
4 Koliyad - N4 Residential 52.7 dB(A) 44.2 dB(A)<br />
5 Khojbal - N5 Residential 52.4 dB(A) 44.2dB(A)<br />
6 Amleshwar - N6 Residential 53.9 dB(A) 47.6 dB(A)<br />
Executive summary for Shubhalakshami Polysester Limited 12
Impact study<br />
During the construction phase the major noise generation will be from the mechanical<br />
equipment installed at site for the construction work and noise due to vehicular movement.<br />
During operation phase the major noise generation will be from the mechanical equipments<br />
at the plant site mainly gas engine and compressors.<br />
Mitigation measures<br />
Noise generating equipment shall be place in enclosed area equipped with silencers.<br />
The operators working in the high-noise areas shall be strictly instructed to use ear-<br />
muffs/ear-plugs.<br />
Green belt shall be developed to attenuate noise and the extent of green belt shall be as per<br />
CPCB guidelines.<br />
Training of personnel is recommended to create awareness about the damaging effects of<br />
vibrations; if PPEs are not used as regular practice while on duty.<br />
Regular noise monitoring on weekly basis will be carried out at the noise generating sources<br />
and the entry - exit gates of the plant.<br />
10.4 LAND ENVIRONMENT<br />
The land use of the study area surrounding 10 Km from the proposed project site is given in<br />
the table below:<br />
Table 11: Land use/cover Categories Area Statistics within study area<br />
Sr. No. Categories Area (sq km) Area (%)<br />
1 Agriculture 20262.42 64.53<br />
2 Scrub 1698.74 5.41<br />
3 Open Vegetation 2311.04 7.36<br />
4 Close Vegetation 543.22 1.73<br />
5 Habitation 389.36 1.24<br />
6 Industrial Area 59.66 0.19<br />
7 Water body 175.84 0.56<br />
8 River 3598.44 11.46<br />
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9 Marshy Vegetation 1265.42 4.03<br />
10 Mudflat 427.04 1.36<br />
11 Salt encrustation 135.02 0.43<br />
12 Barren Land 392.5 1.25<br />
10.5 SOLID WASTE GENERATION<br />
Salt pans 141.3 0.45<br />
Fly ash will be generated as major solid waste due to usage of coal. The quantity of solid<br />
waste generated is as given below:<br />
Table 12: Solid waste details<br />
Solid waste 1 st phase 2 nd phase 3 rd phase Total waste<br />
Ash from<br />
Indian coal<br />
Ash from<br />
Imported coal<br />
30 MT/day -- 30 MT/day 60 MT/day<br />
10 MT/day -- 10 MT/day 20 MT/day<br />
This solid waste will be sold to nearest brick manufacturing units/ cement manufacturers.<br />
10.6 HAZARDOUS WASTE DETAILS<br />
Hazardous waste<br />
generated<br />
Table 13: Hazardous waste details<br />
1 st phase 2 nd phase 3 rd phase Quantity<br />
Used oil 3 KL/annum 2 KL/annum 5 KL/annum 10 KL/annum<br />
Discarded containers 3 nos/ annum -- 2 nos/ annum 5 nos/ annum<br />
ETP sludge 50 MT/annum -- 50 MT/annum 100 MT/annum<br />
DM resins -- -- 0.5 MT/annum 0.5 MT/annum<br />
Used oil and discarded containers shall be sold to registered recycler whereas ETP sludge<br />
and used resin will be stored in closed container in isolated area and later send to secure<br />
land fill site.<br />
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11.0 GREEN BELT DEVELOPMENT<br />
In order to reduce the pollutant dispersion in the atmosphere, to resist the noise generated<br />
due to plant activity and to uptake the waste water generated to some extent, it is<br />
recommended to develop green belt around the periphery of the plant road side area. There<br />
won’t be any relocation of existing trees in the near vicinity of the project site.<br />
The total green belt area identified for the proposed project is as below;<br />
Total green belt area: 198200 sq m<br />
List of trees to be planted as part of green belt development program<br />
Azadirachta indica (Neem), Cordia dichotoma (Gunda), Delonix regia ( Gulmohur), Lawsonia<br />
inermis (Mendi), Mangifera indica ( Am) etc.<br />
12.0 SOCIO ECONOMIC ENVIRONMENT<br />
Baseline data<br />
Baseline information is collected to define the socio-economic profile of the study area.<br />
The data is generated using secondary sources viz census records and primary data<br />
collection through field survey as well as field observations.<br />
Villages located in 10 Km radius of the project site were taken into consideration for the<br />
detailed study of socio economic structure.<br />
The demographic details have been abstracted from Primary Census Abstract 2001 (CD).<br />
The salient features of the study area as follows:<br />
Table 14: Summary of Demographic structure<br />
Total no. of population 25571<br />
Total male population 13302<br />
Total female population 12269<br />
Total no. of house hold 5222<br />
Literate population 15517<br />
Illiterate population 10054<br />
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The details regarding fund allocation for next five years for the socio economic upliftment of<br />
the area is as given in the below:<br />
1 st year : 3 lakhs<br />
2 nd year : 3 lakhs<br />
3 rd year : 3 lakhs<br />
4 th year : 3 lakhs<br />
5 th year : 3 lakhs<br />
Total : 15 lakhs<br />
13.0 CLEANER PRODUCTION DETAILS<br />
The following initiatives shall be taken under cleaner production for the proposed project:<br />
<strong>Control</strong> of Fugitive Emissions at the raw material and fly ash handling side<br />
Out of total 4407m 3 /day water consumption, 742.4m3/day water will be recycle<br />
water.<br />
Complete utilization of fly ash for cement/ brick manufacturing units.<br />
Reuse of the non utilizable vitrified material and wastes for filling of low lying land in<br />
the plant premises for preparation of land for expansion<br />
Usage of intermediate product i.e polyester chips in production of partially oriented<br />
yarn (POY)<br />
Use of solar energy will be made wherever possible. Food preparation will be done in<br />
canteen using solar cookers. Electricity to light canteen, parking zone, office area will<br />
be generated vide solar energy. Solar heater will be installed at company guest<br />
house.<br />
For the proposed project initially 3908 KL/day of water shall be required in cooling<br />
tower but in the later stages the water requirement will decrease due to use of<br />
recycle water. Only make up water will be required. Hence there will be conservation<br />
of water.<br />
The term cycles of concentration (COC) compares the level of solids of the<br />
recirculating cooling tower to the level of solids of the original raw make up water.<br />
The circulating water will have 6 cycles.<br />
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Installation of heat recovery system to prevent the heat loss and reuse the same<br />
heat for generating electricity<br />
14.0 ENVIRONMENT MANAGEMENT SYSTEM<br />
A full fledge environment management cell shall be developed at the proposed site with the<br />
entire necessary infrastructure.<br />
15.0 ENVIRONMENT MONITORING PLAN POST EC<br />
The main attributes for which monitoring shall be carried out are as below:<br />
1. Ambient air Quality<br />
2. Stack Emission<br />
3. Wastewater Quality<br />
4. Noise Level<br />
5. Hazardous Waste<br />
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