project feasibility report - welcome to...
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PRE FEASIBILITY REPORT
for
PROPOSED EXPANSION OF SPECIALTY CHEMICALS,
PESTICIDE, FLUORO CHEMICALS & CAPTIVE POWER
PLANT IN EXISTING UNIT
of
M/s. SRF LIMITED Plot No. D-2/1, Village: Suva, GIDC Phase II, Dahej,
Taluka: Vagra, District: Bharuch (Gujarat)
NABL Accredited Testing Laboratory
ISO 9001:2008 Certified Company
Aqua-Air Environmental Engineers P. Ltd.
403, Centre Point, Nr. Kadiwala School, Ring
Road, Surat - 395002
Prepared By:
NABL Accredited Testing Laboratory
ISO 9001:2008 Certified Company
Aqua-Air Environmental Engineers P. Ltd.
403, Centre Point, Nr. Kadiwala School, Ring
Road, Surat - 395002
NABL Accredited Testing Laboratory
ISO 9001:2008 Certified Company
Aqua-Air Environmental Engineers P. Ltd.
403, Centre Point, Nr. Kadiwala School, Ring
Road, Surat - 395002
Prepared By:
1
CONTENTS
Sr. No. Description Page No.
1. Executive Summary 2
2. Introduction of the Project/Background information 44
3. Project Description 47
4. Site Analysis 52
5. Planning Brief 59
6. Proposed Infrastructure 62
7. Rehabilitation and resettlement (R & R) Plan 63
8. Project Schedule & Cost Estimates 64
9. Analysis of Proposal (Final Recommendations) 65
2
1.0 EXECUTIVE SUMMARY
1.1 Company Profile
M/s. SRF Ltd. has proposed for expansion of Specialty Chemicals, Fluoro Chemicals,
Pesticide & Captive Power Plant manufacturing at Plot No. D-2/1, Village: Suva, GIDC, Dahej,
Tehsil: Vagra, District: Bharuch (Gujarat).
1.2 Project Details
1.2.1 Products along with Production Capacity
Sr.
No.
Name of Product Existing
Capacity
(MT/Annum)
Additional
Capacity
(MT/Annum)
Proposed
Capacity
(MT/Annum)
1 Trifluoro Acetic Acid 0 2000 2000
2 Parabromofluorobenzene 0 500 500
3 Specialty Product
i Tetrafluorobenzyl Alcohol
ii Ethyldifluoroacetate
iii Ethyltrifluroacetate
iv Ethyltrifluoroacetoacetate
v Amino crotonate
vi Trifluoroacetic anhydride
vii Pentafluorobenzoic Acid
viii Pyrazole Acid
ix Chlorotrichloro Methyl - Cyclopentene
x 2-methyl-4-(1,1,1,2,3,3,3-heptafluoro-2-
propyl aniline
xi Fluoromethyl ester
xii Diphenylphenol
xiii Tetrafluoropropene - 1234yf
xiv Isobutyl Acetophenone
xv 2-Bromo-5-fluorobenzotrifluoride
xvi 2,2-Difluroethylamine
xvii 2,3-Dichloro-5-trifluoromethyl-pyridine
xviii N[1-{6-Chloro-3-pyridinyl)methyl)-2(1H)-
pyridinylidene]-2,2,2, trifluoroacetamide
xix (1-(3-Chloropyridine-2-yl)-3-((5-
(trifluoromethyl)-2H-tetrazol-2-yl)methyl)-
1H pyrozol-5-carboxylic acid)
xx (N-(4-fluorophenyl)-2-hydroxy-N-isopropyl-
acetamide
10000 15100 25100
4 1,1,2,2-Tetrafluoroethyl Methyl Ether 0 4000 4000
3
Sr.
No.
Name of Product Existing
Capacity
(MT/Annum)
Additional
Capacity
(MT/Annum)
Proposed
Capacity
(MT/Annum)
5 Hexafluoropropylene 0 1000 1000
6 Ethyl Difluoroacetoacetate 0 1000 1000
7 Difluoromethanesulphonlychloride 0 1000 1000
8 Triflic Acid 0 1000 1000
9 Trifluoromethanesulfonic Anhydride 0 1000 1000
10 Trimethylsilyltrifluoromethanesulfonate 0 520 520
11 3-Trifluoromethylacetophenone 0 1000 1000
12 2,6-Dichloro-4-(trifluoromethyl) aniline 0 1000 1000
13 Cyanapyrazole 0 2000 2000
14 Trifluoromethylbenzamide 0 2000 2000
15 Trifluoroacetyl chloride 0 1000 1000
16 Sulphur Tetrafluoride 0 500 500
17 2- Trifluoromethylbenzoylchloride 0 1000 1000
18 TrifluoroMethyl-2-EthoxyVinyl Ketone 0 1000 1000
19 2-(2-Methoxy-ethoxymethyl)-6-
trifluoromethyl-nicotinic acid ethyl ester
0 2000 2000
20 Mefenamic Acid 0 1000 1000
21 Hexafluoropropylene oxide 0 500 500
22 Pentaflurophenol 0 500 500
23 Monomethylhydrazine 0 4000 4000
24 [3-(4,5-dihydro-1,2-oxazol-3-yl)-4-mesyl-o-
tolyl](5-hydroxy-1-methylpyrazol-4-
yl)methanone (Topramezone)
0 500 500
25 Tri Fluoro acetone 0 500 500
26 Methyl tri fluoro acetate 0 500 500
27 Chlorodifluoroacetic Anhydride 0 100 100
28 Bromopentafluorobenzene 0 500 500
29 4-Chlorobenzotrichloride 0 600 600
30 4-Chlorobenzotrifluoride 0 600 600
31 Methyl HydroxyPyrazole 0 100 100
32 6-Fluoro methyl indole 0 100 100
33 Difluoroethoxy ethanol 0 200 200
34 5-Bromo-2-2-difluoro-1-3-benzodioxole 0 1000 1000
35 Difluorobenzodioxole methyl ester 0 20 20
36 2-Fluoro-5-nitrobenzoic acid 0 30 30
37 5-Chloro-3-(difluoromethyl)-1-methyl-1H-
pyrazole-4-carboxaldehyde
0 500 500
38 3-Difluoromethyl-5-fluoro-1-methyl-1H-
pyrazole-4-carboxaldehyde
0 500 500
39 2,5-Dichloro-4-(1,1,2,3,3,3-
hexafluoropropoxy)benzenamine
0 500 500
40 2,4,5-Trifluorophenyl acetic acid 0 50 50
41 3-Aminobenzotrifluoride 0 1000 1000
4
Sr.
No.
Name of Product Existing
Capacity
(MT/Annum)
Additional
Capacity
(MT/Annum)
Proposed
Capacity
(MT/Annum)
42 2,4-Dichloro-3,5-dinitrobenzotrifluoride 0 1000 1000
43 3-phenoxy benzaldehyde 0 4000 4000
44 3-phenoxy toluene 0 200 200
45 Methyl-2- Fluoroacrylate 0 700 700
46 Lithium tetrakis (pentafluorophenyl) borate 0 100 100
47 2-fluoro-5-bromobenzonitrile 0 50 50
48 Ethyl-Trifluoropyruvate 0 200 200
49 Isoflurane 0 250 250
50 Desflurane 0 100 100
51 Sevoflurane 0 200 200
52 Trichloroacetyl chloride 0 2000 2000
53 Chlorinated Compound
i Trichloroethylene
ii Perchloroethylene
iii Methylene dichloride
iv Chloroform
v Carbon tetrachloride
80000 10000 90000
Caustic Chlorine Plant
Chlorine 56725 72000
Caustic lye 47.5 % 147485 187200
Hydrochloric Acid (30-33%) 17018 21600
54
Hydrogen
60000
1588 2016
55 Anhydrous Hydrofluoric acid 15000 25000 40000
56 Chlorotrifluoroethane (HCFC 133a) 0 500 500
57 HFC Refrigerant
i 1,1,1,2 Tetrafluroethane (HFC 134a)
ii Pentafluoroethane (HFC 125)
iii Difluoromethane (HFC - 32 )
iv 1,1 difluoroethane (HFC - 152a)
v Refrigerant blend of Difluoromethane (HFC-
32) + Pentafluoroethane (HFC-125) (R410a)
vi Refrigerant blend of Pentafluoroethane
(HFC-125) + 1,1,1-Trifluoroethane (R143a) +
1,1,1,2 Tetrafluroethane (HFC 134a)
(R404a)
vii Refrigerant blend of Difluoromethane (HFC-
32) + Pentafluoroethane (HFC-125) +
1,1,1,2 Tetrafluroethane (HFC 134a)
(R407c)
viii Blend of 1,1-Difluoroethane (HFC-152a) +
1,1,1,2 Tetrafluroethane (HFC-134a)
10000 52000 62000
58 Butane (R600a) 0 1000 1000
59 Propane (R290) 0 1000 1000
5
Sr.
No.
Name of Product Existing
Capacity
(MT/Annum)
Additional
Capacity
(MT/Annum)
Proposed
Capacity
(MT/Annum)
60 Blend of 1-Chloro-1,1-difluoroethane
(R142b) + Chlorodifluoromethane (R22)
0 500 500
61 Blend of 1,1,1,2 Tetrafluroethane (R134a) +
Di Methyl Ether (DME)
0 500 500
62 R&D Products
i Organo Heterocyclic Compounds
ii Aryl/Alkyl/Alicyclic Compounds
iii Elemental Fluorine/Bromine/Iodine and
their Products/Derivatives
iv Alkali Metal/Boron/Phosphorous/Sulphur
based Product/ Derivatives
0 2000 2000
63 Hydrofluoric acid (20-70%) 0 34641 34641
64 Anhydrous Hydrochloric Acid 0 1500 1500
Total 175000 412177 587177
Note: Product No. 24: [3-(4,5-dihydro-1,2-oxazol-3-yl)-4-mesyl-o-tolyl](5-hydroxy-1-methylpyrazol-4-
yl)methanone (Topramezone) is a Pesticide.
Sr.
No.
Name of Product Existing
Capacity
Additional
Capacity
Proposed
Capacity
65 Captive Power Plant 25 MW 50 MW 75 MW
List of Existing and Proposed By-products
Sr.
No.
Name of By-Product Existing
Capacity
(MT/Annum)
Additional
Capacity
(MT/Annum)
Proposed
Capacity
(MT/Annum)
1 Succinimide (C4H5NO2) 0 31 31
2 Mix of Ethane + n-Butane + Isobutane
(R600a) + Propane (R290)
0 7327 7327
3 Calcium Chloride 0 176 176
6
1.3 Raw Material Requirement
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Trifluoro Acetic Acid
Trichloroacetyl chloride 1.8860 Liquid Imported /Indigenous Barrels
Hydrofluoric acid Anhydride 0.7320 Gas Indigenous Tank
Sulphuric acid (98%) 1.6200 Liquid Indigenous Tank
Process Water 12.5000 Liquid GIDC Tank
1
Nitrogen 0.1500 Gas Self-Generation Tank
Parabromofluorobenzene
Fluorobenzene 0.6050 Liquid Imported /Indigenous Barrels
Bromine 1.0500 Liquid Indigenous Tank
Ferric Chloride 0.0120 Solid Indigenous Barrels
Process Water 1.0000 Liquid GIDC Tank
2
Nitrogen 1.0000 Gas Self-Generation Tank
3 Specialty Product
Tetrafluorobenzyl Alcohol
PentafluoroBenzonitrile 1.8100 Liquid Imported /Indigenous Barrels
Potassium Phosphate 0.1300 Solid Indigenous Barrels
Potassium Hydroxide 0.0020 Solid Indigenous Barrels
Sodium Bi sulphite 0.0120 Solid Indigenous Barrels
Sodium Borohydride 0.2650 Powder Indigenous Barrels
Sodium Carbonate 0.0450 Powder Indigenous Barrels
Sulphuric Acid 98% 5.4000 Liquid Indigenous Tank
Zinc 0.8200 Solid Imported /Indigenous Barrels
Acetic Acid 0.0100 Liquid Indigenous Tank
Monoglyme 0.3800 Liquid Imported /Indigenous Barrels
Activated Carbon 0.0020 Solid Indigenous Barrels
Alumina Balls 0.0040 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0020 Solid Imported /Indigenous Barrels
Methanol 1.5000 Liquid Indigenous Tank
Methylene Chloride 1.4500 Liquid Indigenous Tank
Process Water 17.5000 Liquid GIDC Tank
i
Nitrogen 1.4000 Gas Self-Generation Tank
Ethyldifluoroacetate
1,1,2,2-Tetrafluoroethyl Methyl
Ether
1.2730 Liquid Imported /Indigenous Tank
Ethanol 0.4300 Liquid Indigenous Tank
Hydrochloric acid Anhydride 0.0550 Gas Indigenous Cylinder
Therminol 55 0.0002 Liquid Imported /Indigenous Barrels
Cromia 0.0020 Solid Imported /Indigenous Barrels
Ferric Chloride 0.0045 Solid Indigenous Barrels
Activated Carbon 0.0020 Solid Indigenous Barrels
ii
Molecular Sieve 0.0020 Solid Imported /Indigenous Barrels
7
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Ceramic Balls 0.0001 Solid Indigenous Barrels
Process Water 1.0278 Liquid GIDC Tank
Nitrogen 1.0000 Gas Self-Generation Tank
Ethyltrifluroacetate
Trifluoroacetal fluoride (TFAF) 0.8700 Liquid Indigenous Barrels
Ethanol 0.3400 Liquid Indigenous Tank
Molecular sieve 0.0070 Solid Imported /Indigenous Barrels
Process Water 0.3100 Liquid GIDC Tank
iii
Nitrogen 0.3500 Gas Self-Generation Tank
Ethyltrifluoroacetoacetate
Ethyltrifluoroacetate 0.9100 Liquid Imported /Indigenous Tank
Ethyl Acetate 0.4320 Liquid Indigenous Tank
Hydrochloric Acid (HCl) 0.2700 Liquid Indigenous Tank
Sodium Ethoxide 0.4800 Powder Indigenous Barrels
Tri ethyl amine 0.0010 Liquid Indigenous Barrels
Molecular Sieve 0.0075 Solid Imported /Indigenous Barrels
Hyflow 0.0020 Solid Imported /Indigenous Barrels
Process Water 2.1410 Liquid GIDC Tank
iv
Nitrogen 0.5000 Gas Self-Generation Tank
Amino crotonate
Ethyltrifluoroacetoacetate 1.3300 Liquid Indigenous Tank
Ammonia (NH3) 0.2600 Gas Indigenous Cylinder
Cyclohexane 0.1600 Liquid Indigenous Barrels
Process Water 1.0000 Liquid GIDC Tank
v
Nitrogen 1.0000 Gas Self-Generation Tank
Trifluoroacetic anhydride
Trifluoro acetic acid 1.1300 Liquid Indigenous Barrels
Oleum 2.5000 Liquid Indigenous Tank
Process Water 1.0000 Liquid GIDC Tank
vi
Nitrogen 0.1000 Gas Self-Generation Tank
Pentafluorobenzoic Acid
Benzonitrile 0.8200 Liquid Indigenous Barrels
Chlorine 2.8600 Liquid/gas Indigenous Cylinder
Potassium Fluoride 1.9800 Solid Indigenous Barrels
Caustic lye 48% 1.7500 Liquid Indigenous Tank
Ferric Chloride based (Catalyst) 0.0200 Solid Indigenous Barrels
Potassium Hydroxide 0.0050 Solid Indigenous Barrels
Sulphuric Acid 98% 2.5000 Liquid Indigenous Tank
Molecular Sieve 0.0020 Solid Imported /Indigenous Barrels
Activated Carbon 0.0150 Solid Indigenous Barrels
Methanol 0.1200 Liquid Indigenous Tank
Toluene 0.4500 Liquid Indigenous Tank
vii
Process Water 5.8460 Liquid GIDC Tank
8
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Nitrogen 2.0500 Gas Self-Generation Tank
Pyrazole Acid - P-17a
Ethyldifluoroacetate 1.3185 Liquid Indigenous Tank
Acetic Anhydride 1.8000 Liquid Indigenous Tank
Anhydrous Ammonia 0.0620 Gas Indigenous Cylinder
Anhydrous HCl 0.4652 Gas Imported /Indigenous Cylinder
Caustic lye (48%) 1.9410 Liquid Indigenous Tank
HCl 30% 1.5290 Liquid Indigenous Tank
MMH (35%) 1.0220 Liquid Imported /Indigenous Tank
Sodium Ethoxide 0.7400 Powder Indigenous Barrels
Sodium Fluoride 0.0130 Solid Indigenous Barrels
Trimethylorthoformate 1.2000 Solid Indigenous Barrels
Potassium Carbonate 0.1150 Solid Indigenous Barrels
Hyflow 0.0270 Liquid Indigenous Barrels
Molecular Sieve 0.0020 powder Indigenous Barrels
Precipitated Silica 0.0220 Solid Imported /Indigenous Barrels
Mix Xylene 0.1200 Solid Imported /Indigenous Barrels
Ethyl Acetate 1.1770 Powder Imported /Indigenous Barrels
Process Water 14.8100 Liquid GIDC Tank
Nitrogen 1.1000 Liquid Self-Generation Tank
Pyrazole Acid - P-17b
Ethyldifluoroacetate 1.4300 Liquid Indigenous Tank
Acetic Anhydride 3.1500 Liquid Indigenous Tank
Acetone 2.0500 Liquid Indigenous Tank
Anhydrous Ammonia 0.0672 Gas Imported /Indigenous Cylinder
Anhydrous HCl 0.5041 Gas Indigenous Cylinder
Cautic lye (48%) 0.8800 Liquid Indigenous Tank
MMH (35%) 0.8600 Liquid Imported /Indigenous Tank
Sodium Ethoxide 0.9106 Powder Indigenous Barrels
Sodium Fluoride 0.0141 Solid Indigenous Barrels
Sulphuric Acid (98%) 0.5332 Liquid Indigenous Tank
Trimethylorthoformate 1.7300 powder Indigenous Barrels
Ethyl Acetate 2.1246 Liquid Indigenous Tank
Process Water 16.3000 Liquid GIDC Tank
Nitrogen 1.0000 Gas Self-Generation Tank
Pyrazole Acid - P-17
DMAN 0.9303 Liquid Indigenous Barrels
TFEMe 0.8000 Liquid Indigenous Barrels
NaOH (48%) 1.2630 Liquid Indigenous Tank
MMH soln (35%) 0.7897 Liquid Imported /Indigenous Barrels
Dry HCl 1.1000 Gas Imported /Indigenous Cylinder
HCl (on 100% basis) as 30% solution 0.7000 Liquid Indigenous Tank
viii
TEA 0.3800 Liquid Imported /Indigenous Barrels
9
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Toluene 1.0000 Liquid Indigenous Tank
Methanol 0.1000 Liquid Indigenous Tank
Process Water 13.3000 Liquid GIDC Tank
Nitrogen 0.3000 Gas Self-Generation Tank
Chlorotrichloro Methyl - Cyclopentene
Carbon tetrachloride 0.6990 Liquid Indigenous Tank
Caustic Flakes 0.0216 Crystals. Indigenous Barrels
Cuprous Chloride 0.0770 Crystals. Indigenous Barrels
Dicyclopentadiene (DCPD) 0.3808 Liquid Imported /Indigenous Barrels
K2CO3 0.0080 powder Indigenous Barrels
Monochlorobenzene (MCB) 0.0780 Liquid Imported /Indigenous Tank
Tetramethyl ethylene diamine 0.0200 Liquid Imported /Indigenous Barrels
Ceramic balls 0.0015 Solid Indigenous Barrels
Molecular Sieve 0.0061 Solid Imported /Indigenous Barrels
Methyl isobutyl Ketone (MIBK) 0.1290 Liquid Indigenous Barrels
Mix Xylene 0.3070 Liquid Indigenous Tank
Process Water 4.3960 Liquid GIDC Tank
ix
Nitrogen 0.3000 Gas Self-Generation Tank
2-methyl-4-(
1,1,1,2,3,3,3-heptafluoro-2-propyl) aniline
Hexafluoropropylene (HFP) 1.1860 Gas Indigenous Cylinder
Anhydrous HCl 0.2470 Gas Imported /Indigenous Cylinder
Bromine 1.2630 Liquid Indigenous Tank
Caustic Flakes 0.3600 Crystals. Indigenous Barrels
Caustic Lye (48%) 0.3300 Liquid Indigenous Tank
Dimethylformamide 0.8923 Liquid Indigenous Tank
HCl 30% 0.1910 Liquid Indigenous Tank
Ammonium hydroxide solution
(25%)
0.9210 Liquid Indigenous Barrels
K2CO3 0.0300 powder Indigenous Barrels
Potassium Fluoride (KF) 0.8730 Solid Indigenous Barrels
Sodium dithionite (Na2S2O4) 0.2680 Powder Indigenous Barrels
Tetrabutylammoniumhydrogensulfa
te
0.2090 Solid Imported /Indigenous Barrels
Methyl tert-butyl ether (MTBE) 0.5425 Liquid Indigenous Barrels
O-Toluedine 0.6600 Liquid Indigenous Barrels
Toluene 1.9854 Liquid Indigenous Tank
Process Water 17.6000 Liquid GIDC Tank
x
Nitrogen 2.0000 Gas Self-Generation Tank
Fluoromethyl ester
Chloro Malonic Ester 1.4570 Liquid Imported /Indigenous Barrels
xi
CaO 1.2600 Solid Indigenous Barrels
10
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Anhydrous Hydrogen fluoride 0.8990 Gas Indigenous Tank
NaOH (33%) 2.1782 Liquid Indigenous Tank
Triethylamine 0.2540 Liquid Indigenous Barrels
Toluene 0.2250 Liquid Indigenous Tank
Process Water 57.5224 Liquid GIDC Tank
Nitrogen 1.0000 Gas Self-Generation Tank
Diphenylphenol
Cyclohexanone 4.4170 Liquid Indigenous Tank
Heptane 0.5870 Liquid Indigenous Barrels
Isopropanol 0.4350 Liquid Indigenous Barrels
NaOH Solution (25%) 0.2040 Liquid Indigenous Tank
Paladium /alumina 0.0590 Solid Imported /Indigenous Barrels
Phosphoric Acid (85%) 0.0490 Liquid Indigenous Barrels
Potassium Carbonate 0.0460 powder Indigenous Barrels
Xylene 0.0590 Liquid Indigenous Tank
Process Water 6.0960 Liquid GIDC Tank
xii
Nitrogen 0.2000 Gas Self-Generation Tank
Tetrafluoropropene - 1234yf
Chlorodifluoromethane 1.9200 Liquid Imported /Indigenous Tank
Caustic lye 48% 0.2000 Liquid Indigenous Tank
Sulphuric Acid 98% 0.0070 Liquid Indigenous Tank
Methanol 0.3600 Liquid Indigenous Tank
xiii
Process Water 1.2910 Liquid GIDC Tank
Isobutyl Acetophenone
Isobutylbenzene 0.7600 Liquid Imported /Indigenous Tank
Acetic anhydride 0.5800 Solid Indigenous Tank
Hydrogen Fluoride 0.2600 Liquid Indigenous Tank
Process Water 0.6100 Liquid GIDC Tank
xiv
Nitrogen 0.1000 Liquid/gas Self-Generation Tank
2-Bromo-5-fluorobenzotrifluoride
3-(Trifluoromethyl)aniline (m-ABTF) 1.0600 Liquid Imported /Indigenous Tank
Acetyl Chloride 0.6200 Liquid Indigenous Tank
Sodium Hydroxide (48%) 2.6000 Liquid Indigenous Tank
Methylene Chloride 1.1000 Liquid Indigenous Tank
Bromine 0.8000 Liquid Indigenous Tank
Sodium hydrogen sulfite 1.0000 Solid Indigenous Barrels
Hydrochloric Acid 0.3600 Liquid Indigenous Tank
Anhydrous Hydrofluoric Acid 0.6000 Liquid Indigenous Tank
Sodium nitrite 0.5400 Solid Indigenous Barrels
Pyridine 0.0400 Liquid Indigenous Tank
Methanol 1.5000 Liquid Indigenous Tank
xv
Process Water 7.0000 Liquid GIDC Tank
xvi 2,2-Difluroethylamine
11
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
1,1,2-Trichloroethane (TCA) 2.3510 Liquid Indigenous Tank
Hydrogen Fluoride 1.0570 Liquid Indigenous Tank
Ammonia (25%) Solution in Water 2.3170 Liquid Indigenous Tank
Process Water 7.2950 Liquid GIDC Tank
Nitrogen 0.2000 Liquid/gas Self-Generation Tank
2,3-Dichloro-5-trifluoromethyl-pyridine
2,3-Dichloro-5-trichloromethyl
pyridine
2.0500 Liquid Imported /Indigenous Tank
Hydrogen Fluoride 0.5100 Liquid Indigenous Tank
Dichloromethane 0.2600 Liquid Indigenous Tank
Potassium Carbonate 2.3100 Solid Indigenous Barrels
Process Water 2.0800 Liquid GIDC Tank
Nitrogen 0.1000 Liquid/gas Self-Generation Tank
xvii
Oxygen 0.2500 Gas Indigenous Cylinder
N[1-{6-Chloro-3-pyridinyl)methyl)-2(1H)-pyridinylidene]-2,2,2, trifluoroacetamide
2-Aminopyridine 0.3500 Liquid Imported /Indigenous Tank
Trifluoroacetic Acid 0.4400 Liquid Indigenous Tank
Thionyl Chloride 0.4800 Liquid Indigenous Tank
2-Chloro-5(chloromethyl) Pyridine
(CPMC)
0.5200 Liquid Indigenous Tank
Potassium Carbonate 0.3900 Solid Indigenous Barrels
Pyridine 0.2600 Liquid Indigenous Tank
Ethyl Acetate 0.5900 Liquid Indigenous Tank
Dimethyl sulfoxide 0.2000 Liquid Indigenous Tank
Methanol 0.3200 Liquid Indigenous Tank
xviii
Process Water 11.7000 Liquid GIDC Tank
(1-(3-Chloropyridine-2-yl)-3-((5-(trifluoromethyl)-2H-tetrazol-2-yl)methyl)-1H pyrozol-5-carboxylic
acid)
HYPE 0.9400 Liquid Imported /Indigenous Tank
Thionyl Chloride 0.5100 Liquid Indigenous Tank
Sodium bicarbonate (8%) 3.6700 Solid Indigenous Barrels
Potassium Iodide 0.0600 Solid Indigenous Barrels
5-(Trifluoromethyl)-2H-tetrazole
sodium salt (TFMT-Na)
0.5900 Liquid Indigenous Tank
Sodium Hydroxide (32%) 0.4300 Liquid Indigenous Tank
Hydrochloric Acid (20%) 0.6900 Liquid Indigenous Tank
Toluene 4.4400 Liquid Indigenous Tank
Acetone 0.1700 Liquid Indigenous Tank
Methanol 1.9400 Liquid Indigenous Tank
xix
Process Water 11.7800 Liquid GIDC Tank
(N-(4-fluorophenyl)-2-hydroxy-N-isopropyl-acetamide
4-Fluoro-nitrobenzene 0.9800 Liquid Indigenous Tank
xx
Chloroacetyl chloride 0.7700 Liquid Indigenous Tank
12
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Sodiumcarbonate 0.6900 Solid Indigenous Barrels
N-methyl-pyrollidone (NMP) 0.2900 Solid Imported /Indigenous Barrels
Acetone 0.4400 Liquid Indigenous Tank
Toluene 0.6900 Liquid Indigenous Tank
Process Water 2.8900 Liquid GIDC Tank
Hydrogen 0.0700 Gas Indigenous Cylinder
Nitrogen 0.1000 Liquid/gas Self-Generation Tank
1,1,2,2-Tetrafluoroethyl Methyl Ether
Chlorodifluoromethane (R 22) 1.9250 Liquefied
Gas
Imported /Indigenous Tank
H2SO4 (98%) 0.8500 Liquid Indigenous Tank
Caustic Lye (48%) 0.2610 Liquid Indigenous Tank
Dimethylformamide 0.0060 Liquid Indigenous Tank
Sodium Methoxide (30%) 0.0600 Liquid Indigenous Tank
Sodium Sulphite 0.0010 Solid Indigenous Barrels
Terpene 0.0150 Liquid Indigenous Barrels
Activated Alumina Balls 0.0010 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0010 Solid Imported /Indigenous Barrels
Silica Gel 0.0010 Crystal Indigenous Barrels
Methanol 0.3000 Liquid Indigenous Tank
Process Water 4.6350 Liquid GIDC Tank
4
Nitrogen 0.2650 Gas Self-Generation Tank
Hexafluoropropylene
Chlorodifluoromethane (R 22) 3.2350 Liquefied
Gas
Imported /Indigenous Tank
H2SO4 (98%) 0.9500 Liquid Indigenous Tank
Caustic Lye (48%) 0.3450 Liquid Indigenous Tank
Dimethylformamide 0.0060 Liquid Indigenous Tank
Sodium Sulphite 0.0010 Solid Indigenous Barrels
Terpene 0.0150 Liquid Indigenous Barrels
Activated Alumina Balls 0.0010 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0010 Solid Imported /Indigenous Barrels
Silica Gel 0.0010 Crystal Indigenous Barrels
Methanol 0.1200 Liquid Indigenous Tank
Process Water 6.4740 Liquid GIDC Tank
5
Nitrogen 1.0000 Gas Self-Generation Tank
Ethyl Difluoroacetoacetate
Ethyldifluoroacetate 1.0420 Liquid Indigenous Tank
Anhydrous Ammonia 0.0310 Gas Indigenous Cylinder
Anhydrous HCl 0.3850 Gas Imported /Indigenous Cylinder
Ethyl Acetate 2.0000 Liquid Indigenous Tank
Sodium Ethoxide 0.6180 Powder Indigenous Barrels
6
Sodium Fluoride 0.0200 Solid Indigenous Barrels
13
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Hyflow 0.0100 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0020 Solid Imported /Indigenous Barrels
Process Water 2.3050 Liquid GIDC Tank
Nitrogen 1.0000 Gas Self-Generation Tank
Difluoromethanesulphonlychloride
Chlorodifluoromethane (R22) 1.0300 Liquefied
Gas
Imported /Indigenous Tank
Benzyl Chloride 0.5900 Liquid Indigenous Barrels
Chlorine 2.4600 Liquid/gas Indigenous Cylinder
Caustic Lye 48% 3.7300 Liquid Indigenous Tank
Dilute Hydrochloric Acid 10 - 30% 1.8800 Liquid Indigenous Tank
Methylene Chloride 0.2300 Liquid Indigenous Tank
Thiourea 0.8900 Crystalline Imported /Indigenous Barrels
Process Water 7.7500 Liquid GIDC Tank
7
Nitrogen 0.1000 Gas Self-Generation Tank
Triflic Acid
Methanesulfonyl chloride (MSCl) 1.1690 Liquid Imported /Indigenous Tank
Potassium Fluoride (KF) 0.6037 Solid Indigenous Barrels
Calcium Hydroxide 0.4088 Solid Indigenous Barrels
Hydrogen Peroxide (H2O2) 0.0500 Liquid Indigenous Barrels
Anhydrous Hydrogen Fluoride (AHF) 0.9079 Gas Indigenous Tank
Potassium Hydroxide 2.7298 Flakes Indigenous Barrels
Sulphuric Acid 3.2940 Liquid Indigenous Tank
Oleum 1.0890 Liquid Indigenous Tank
Acetone 0.6198 Liquid Indigenous Tank
Dichloromethane (DCM) 0.1289 Liquid Indigenous Barrels
Process Water 1.5047 Liquid GIDC Tank
8
Nitrogen 0.2429 Gas Self-Generation Tank
Trifluoromethanesulfonic Anhydride
Triflic Acid (P-21) 1.3289 Liquid Imported /Indigenous Barrels
48% KOH 0.8333 Flakes Indigenous Barrels
P2O5 1.3057 Crystalline Indigenous Barrels
Parabromofluoro Benzene (P-4) 0.5343 Liquid Indigenous Barrels
Celite 0.0322 Solid Imported /Indigenous Barrels
Potassium Fluoride (KF) 0.0200 Solid Indigenous Barrels
Process Water 2.1911 Liquid GIDC Tank
9
Nitrogen 0.1000 Gas Self-Generation Tank
Trimethylsilyltrifluoromethanesulfonate
Triflic Acid 0.7115 Liquid Imported /Indigenous Barrels
Trimethylsilyl chloride 0.5440 Liquid Imported /Indigenous Barrels
Process Water 1.5238 Liquid GIDC Tank
10
Nitrogen 0.1000 Gas Self-Generation Tank
11 3-Trifluoromethylacetophenone
14
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
3-Aminobenzotrifluoride (TFMA) 1.3300 Liquid Imported /Indigenous Barrels
Acetaldoxime 50% 1.3000 Liquid Imported /Indigenous Barrels
Acetic Acid 0.4900 Liquid Indigenous Tank
Caustic Lye 48% 2.2752 Liquid Indigenous Tank
CuSO4 Solution 10.7% 0.7700 Liquid Indigenous Barrels
Dilute Hydrochloric Acid 10 - 30% 1.8000 Liquid Indigenous Tank
H2SO4 98% 1.5600 Liquid Indigenous Tank
KHCO3 Solution 25% 0.1637 Crystalline Indigenous Barrels
Sodium Nitrite 0.6100 Solid Indigenous Barrels
Mix Xylene 0.4500 Liquid Indigenous Tank
Process Water 12.7160 Liquid GIDC Tank
Nitrogen 0.1000 Gas Self-Generation Tank
2,6-Dichloro-4-(trifluoromethyl)
aniline
P-Chloro toluene 1.3890 Liquid Indigenous Tank
Chlorine 3.8860 Liquid/gas Indigenous Cylinder
Copper 0.0600 Powder Indigenous Barrels
Copper Acetate 0.4720 Powder Indigenous Barrels
Hydrofluoric Acid (HF) 0.6670 Gas Indigenous Tank
NH3 Solution 25% 1.0810 Liquid Indigenous Tank
N-methyl-pyrollidone 0.6330 Solid Imported /Indigenous Barrels
Caustic Lye 48% 1.9100 Liquid Indigenous Tank
Hexane 0.6470 Liquid Indigenous Tank
Process Water 10.7040 Liquid GIDC Tank
12
Nitrogen 0.2000 Gas Self-Generation Tank
Cyanapyrazole
P-Chloro toluene 1.1950 Liquid Indigenous Tank
Chorine 3.3420 Gas Indigenous Cylinder
Caustic Lye 48% 2.3300 Liquid Indigenous Tank
Copper Acetate 0.4060 Powder Indigenous Barrels
Copper Powder 0.0520 Powder Indigenous Barrels
Dilute Hydrochloric Acid 10 - 30% 1.4400 Liquid Indigenous Tank
Hydrofluoric Acid (HF) 0.5740 Gas Indigenous Tank
Methylene Chloride 1.0300 Liquid Indigenous Tank
NaNO2 0.2820 Liquid Indigenous Barrels
NH3 Solution 25% 0.9300 Liquid Indigenous Tank
N-methyl-pyrollidone 0.5190 Solid Imported /Indigenous Barrels
Acetic acid 2.2300 Liquid Indigenous Tank
Synthon-2 0.5650 Liquid Imported /Indigenous Barrels
Hexane 0.0930 Liquid Indigenous Tank
Toluene 0.0590 Liquid Indigenous Tank
Process Water 25.2800 Liquid GIDC Tank
13
Nitrogen 0.5000 Gas Self-Generation Tank
15
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Trifluoromethylbenzamide
O-Xylene 1.1830 Liquid Indigenous Tank
Ammonia Sol. -25% 1.4310 Liquid Indigenous Tank
Caustic Lye 48% 8.5942 Liquid Indigenous Tank
Chlorine 7.9965 Liquid/gas Indigenous Cylinder
Hydrofluoric acid Anhydrous 1.1365 Gas Indigenous Tank
Methylene Chloride 1.4196 Liquid Indigenous Tank
AIBN 0.0572 Fine crystals Imported /Indigenous Barrels
Sulphuric Acid 98% 22.4141 Liquid Indigenous Tank
Process Water 50.2290 Liquid GIDC Tank
14
Nitrogen 9.8370 Gas Self-Generation Tank
Trifluoroacetyl chloride
Hydrogen Fluoride 0.7500 Gas Indigenous Tank
Chlorine 3.1600 Liquid/gas Indigenous Cylinder
Charcoal 0.2100 Solid Indigenous Barrels
48% NaOH Solution 6.0500 Liquid Indigenous Tank
Acetic Acid 0.5100 Liquid Indigenous Tank
Process Water 4.9100 Liquid GIDC Tank
15
Nitrogen 0.5000 Gas Self-Generation Tank
Sulphur Tetrafluoride
Fluorine 0.7950 Gas Indigenous Cylinder
Sulphur 0.2960 Solid Indigenous Barrels
Alumina Balls 0.0010 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0010 Solid Imported /Indigenous Barrels
Process Water 3.3330 Liquid GIDC Tank
16
Nitrogen 0.2000 Gas Self-Generation Tank
2- Trifluoromethylbenzoylchloride
O-Xylene 0.7340 Liquid Indigenous Tank
Chlorine 4.9600 Liquid/gas Indigenous Cylinder
AIBN 0.0360 Fine crystals Imported /Indigenous Barrels
Anhydrous hydrofluoric acid 0.7047 Gas Indigenous Tank
NaOH (48%) 5.3310 Liquid Indigenous Tank
H2SO4 (98%) 11.2570 Liquid Indigenous Tank
C2 0.7157 Gas Indigenous Cylinder
Process Water 25.3720 Liquid GIDC Tank
17
Nitrogen 0.1810 Gas Self-Generation Tank
TrifluoroMethyl-2-EthoxyVinyl Ketone
Trifluoro Acetyl Fluoride 1.4286 Gas Imported /Indigenous Cylinder
Ethyl Vinyl Ether 0.8571 Liquid Imported /Indigenous Barrels
Tri Ethyl Amine 0.4286 Liquid Indigenous Barrels
Process Water 2.4571 Liquid GIDC Tank
18
Nitrogen 0.2000 Gas Self-Generation Tank
19 2-(2-Methoxy-ethoxymethyl)-6-trifluoromethyl-nicotinic acid ethyl ester
16
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Methoxy AA 0.8403 Liquid Imported /Indigenous Barrels
NH3 Solution 25% 0.0790 Liquid Indigenous Tank
Toluene 0.1000 Liquid Indigenous Tank
Trifluoromethyl-2-ethoxyvinyl
Ketone
0.7143 Liquid Imported /Indigenous Barrels
Acetic Acid 0.0244 Liquid Indigenous Tank
Process Water 2.0000 Liquid GIDC Tank
Nitrogen 0.1000 Gas Self-Generation Tank
Mefenamic Acid
Methoxy AA 0.7000 Liquid Imported /Indigenous Barrels
NH3 Solution 25% 0.0660 Liquid Indigenous Tank
Toluene 0.1070 Liquid Indigenous Tank
Trifluoromethyl-2-ethoxyvinyl
Ketone
0.5950 Liquid Imported /Indigenous Barrels
Acetic Acid 0.0200 Liquid Indigenous Tank
Caustic Lye 30% 0.3830 Liquid Indigenous Tank
Dilute Hydrochloric Acid 10 - 30% 0.3500 Liquid Indigenous Tank
Xylene 0.1580 Liquid Indigenous Tank
Process Water 0.3913 Liquid GIDC Tank
20
Nitrogen 0.2132 Gas Self-Generation Tank
Hexafluoropropylene oxide
12.5% NaOH Solution 6.5975 Liquid Indigenous Tank
Chlorine 0.6667 Liquid/gas Indigenous Cylinder
HFP 1.5000 Gas Indigenous Tank
Toluene 0.5000 Liquid Indigenous Tank
Na2CO3 0.2106 Solid Indigenous Barrels
PTC 0.0111 Liquid Imported /Indigenous Barrels
35% HCl Solution 0.2870 Liquid Indigenous Tank
30% H2O2 Solution 0.0025 Liquid Indigenous Barrels
20% H2SiF6 Solution 8.8781 Liquid Indigenous Barrels
Process Water 3.0280 Liquid GIDC Tank
21
Nitrogen 0.1000 Gas Self-Generation Tank
Pentaflurophenol
Bromopentafluorobenzene 1.7143 Liquid Imported /Indigenous Barrels
Magnesium 0.1679 Solid Indigenous Barrels
Boron trifluorideethereate 0.3429 Liquid Imported /Indigenous Barrels
H2O2 0.2393 Liquid Indigenous Barrels
NaOH 0.2857 Liquid Indigenous Tank
HCl 0.4054 Liquid Indigenous Tank
Diethylether 0.3179 Liquid Indigenous Barrels
Toluene 0.2714 Liquid Indigenous Tank
22
Process Water 10.1210 Liquid GIDC Tank
17
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Nitrogen 0.1000 Gas Self-Generation Tank
Monomethylhydrazine
Hydrazine Hydrate 100% 0.8170 Liquid Indigenous Tank
HCl 0.9583 Liquid Indigenous Tank
NaOH 0.6185 Liquid Indigenous Tank
Methanol 1.8954 Liquid Indigenous Tank
Process Water 1.0000 Liquid GIDC Tank
23
Nitrogen 0.2000 Gas Self-Generation Tank
[3-(4,5-dihydro-1,2-oxazol-3-yl)-4-mesyl-o-tolyl](5-hydroxy-1-methylpyrazol-4-yl)methanone
(Topramezone)
3-Nitro-o-xylol 1.5031 Liquid Imported /Indigenous Barrels
1,4-Dioxane (C4H8O2) 0.9417 Liquid Imported /Indigenous Tank
Acetic Acid 0.4104 Liquid Indigenous Tank
Activated Carbon 0.0700 Solid Indigenous Barrels
Butyl Acetate 8.0272 Liquid Indigenous Tank
Butyl Nitrite 1.8600 Liquid Indigenous Barrels
Carbon monoxide 0.3084 Compressed
gas
Indigenous Cylinder
Caustic Lye (48%) 0.4781 Liquid Indigenous Tank
Chlorine 0.6212 Liquid/gas Indigenous Cylinder
Copper 0.0039 Powder Indigenous Barrels
Dimethyl disulfide (C2H6S2) 0.8816 Liquid Indigenous Barrels
Ethylene 0.9158 Gas Indigenous Cylinder
Hydrochloric acid (15 - 33%) 6.1618 Liquid Indigenous Tank
Hydrochloric acid Anhydride 1.8413 Gas Indigenous Cylinder
Hydrogen 0.0382 colorless gas Indigenous Cylinder
Hydrogen bromide 1.0417 Liquid Indigenous Tank
Hydrogen peroxide 1.3200 Liquid Indigenous Barrels
MHP (C4H6N2O) 0.3598 Liquid Imported /Indigenous Barrels
Potassium carbonate (K2CO3) 2.4250 powder Indigenous Barrels
Potassium methoxide 1.1347 Solid Indigenous Barrels
Potassium sulfite 0.0571 Crystaline Indigenous Barrels
Pyridine 0.7408 Liquid Indigenous Barrels
TPP 0.0385 Liquid Indigenous Barrels
Sidium Tungstate Dihydrate
(Na2WO4.2H2O)
0.0042 Crystals and
fragments
Imported /Indigenous Barrels
Palladium chloride (PdCl2) 0.0013 Solid Indigenous Barrels
Palladium on carbon 0.0021 Powder Indigenous Barrels
Methanol 2.8300 Liquid Indigenous Tank
Dimethylformamide 4.7776 Liquid Indigenous Tank
Process Water 4.2464 Liquid GIDC Tank
24
Nitrogen 1.0000 Gas Self-Generation Tank
25 Tri Fluoro acetone
18
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Ethyltrifluoroacetoacetate 1.7857 Liquid Indigenous Barrels
H2SO4 0.3600 Liquid Indigenous Tank
Process Water 1.5000 Liquid GIDC Tank
Nitrogen 0.4480 Gas Self-Generation Tank
Methyl tri fluoro acetate
TFAF 0.9060 Liquid Indigenous Barrels
Methanol 0.2500 Liquid Indigenous Tank
Process Water 0.3750 Liquid GIDC Tank
26
Nitrogen 0.0500 Gas Self-Generation Tank
Chlorodifluoroacetic Anhydride
Chlorodifluoroacetic acid(CDFA) 2.1300 Liquid Indigenous Barrels
Oleum 4.4304 Liquid Indigenous Tank
Process Water 0.5250 Liquid GIDC Tank
27
Nitrogen 0.0200 Gas Self-Generation Tank
Bromopentafluorobenzene
Pentafluorobenzene 0.8520 Liquid Indigenous Barrels
Bromine 0.9020 Liquid Indigenous Tank
Aluminium Chloride 0.0720 Powder Indigenous Barrels
Sodium thiosulphate 0.0025 Powder Indigenous Barrels
Process Water 1.3310 Liquid GIDC Tank
28
Nitrogen 0.0300 Gas Self-Generation Tank
4-Chlorobenzotrichloride
P-Chloro toluene 0.6500 Liquid Indigenous Tank
Chlorine 1.5400 Liquid/gas Indigenous Cylinder
Caustic Lye 48% 1.4500 Liquid Indigenous Tank
Process Water 1.6600 Liquid GIDC Tank
29
Nitrogen 0.2000 Gas Self-Generation Tank
4-Chlorobenzotrifluoride
P-Chloro toluene 0.8000 Liquid Indigenous Tank
Chlorine 1.7300 Gas Indigenous Cylinder
Hydrofluoric Acid (AHF) 0.5600 Gas Indigenous Tank
Caustic Lye 48% 1.8400 Liquid Indigenous Tank
Process Water 3.8500 Liquid GIDC Tank
30
Nitrogen 0.1000 Gas Self-Generation Tank
Methyl HydroxyPyrazole
Diethyl ethoxymethylenemalonate
(DEMM)
2.7700 Liquid Imported /Indigenous Barrels
Diethylamine (DEA) 0.1170 Liquid Indigenous Barrels
Monomethyl Hydrazine (MMH)
(35%) Solution
1.8900 Liquid Imported /Indigenous Tank
HCl (35%) Solution 4.2000 Liquid Indigenous Tank
Dioxane 0.9960 Liquid Indigenous Barrels
31
Aqueous Ammonia Solution (15%) 1.3600 Liquid Indigenous Tank
19
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Methanol 1.3600 Liquid Indigenous Tank
Process Water 8.8400 Liquid GIDC Tank
Nitrogen 0.5000 Gas Self-Generation Tank
6-Fluoro methyl indole
Difluorobenzene 1.3004 Liquid Indigenous Barrels
Acetic Anhydrite 2.3177 Gas Indigenous Cylinder
Caustic lye 9.8360 Liquid Indigenous Tank
Dimethyl Sulfoxide (C2H6OS) 2.0307 Liquid Indigenous Barrels
Ethyl Acetate 4.0000 Liquid Indigenous Tank
HCl 30% 2.3373 Liquid Indigenous Tank
Iron Powder 2.6462 Granules Indigenous Barrels
Methyl Acetoacetate 1.9681 Liquid Indigenous Barrels
Methylene chloride 4.0000 Liquid Indigenous Tank
NaCl 0.9217 Solid Indigenous Barrels
Nitric Acid 0.9193 Liquid Indigenous Barrels
Potassium Carbonate 5.1425 powder Indigenous Barrels
Sodium Acetate 0.7287 Solid Indigenous Barrels
Sodium bicarbonate 2.6333 Crystalline Indigenous Barrels
Sulphuric acid (98%) 5.9240 Liquid Indigenous Tank
Acetic Acid 8.3892 Liquid Indigenous Tank
Heptane 2.7298 Liquid Indigenous Barrels
Hexane 4.0000 Liquid Indigenous Tank
Toluene 4.0000 Liquid Indigenous Tank
Process Water 54.9484 Liquid GIDC Tank
32
Nitrogen 1.0000 Gas Self-Generation Tank
Difluoroethoxy ethanol
EDFA 0.9900
Diethyl Ether 1.1800 Liquid Indigenous Barrels
Lithium Aluminium hydride 0.1000 Solid Indigenous Barrels
Ethanol 0.0200 Liquid Indigenous Tank
H2SO4 Solution 98% 1.7100 Liquid Indigenous Tank
NaHCO3 0.2700 Solid Indigenous Barrels
Process Water 7.5300 Liquid GIDC Tank
33
Nitrogen 0.5000 Gas Self-Generation Tank
5-Bromo-2-2-difluoro-1-3-benzodioxole
1-3 Benzodioxole 0.8028 Liquid Imported /Indigenous Barrels
Phosphorus pentachloride 2.5090 Powder Imported /Indigenous Barrels
Hydrofluoric Acid (AHF) 0.6251 Gas Indigenous Tank
HBr 2.0478 Gas Indigenous Cylinder
H2O2 50% 0.7651 Liquid Indigenous Barrels
Methylene Chloride 0.5100 Liquid Indigenous Tank
Process Water 6.2440 Liquid GIDC Tank
34
Nitrogen 0.2000 Gas Self-Generation Tank
20
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Difluorobenzodioxole methyl ester
1,3 Benzodioxole 1.0078 Liquid Indigenous Barrels
48%NaOH 1.2600 Liquid Indigenous Tank
Bromine 1.3200 Liquid Indigenous Tank
Hydrochloric acid (15 - 33%) 0.2400 Liquid Indigenous Tank
Hydrofluoric acid Anhydride 0.4100 Gas Indigenous Tank
Iron 0.2300 Powder Imported /Indigenous Barrels
Methylene chloride 0.4900 Liquid Indigenous Tank
n-Butyllithium 0.5300 Liquid Indigenous Barrels
Phosphorus pentachloride 4.3000 Powder Imported /Indigenous Barrels
Sodium Chloride 0.9700 Solid Indigenous Barrels
Sulphuric acid (98%) 0.0800 Liquid Indigenous Tank
Chloroform 1.4800 Liquid Indigenous Barrels
Methanol 0.7900 Liquid Indigenous Tank
THF 7.4300 Liquid Indigenous Tank
Process Water 6.8800 Liquid GIDC Tank
35
Nitrogen 0.5000 Gas Self-Generation Tank
2-Fluoro-5-nitrobenzoic acid
Anthranilic acid 0.9675 Solid Indigenous Barrels
Sodium nitrite (NaNO2) 0.5409 Solid Indigenous Barrels
AHF 0.3672 Gas Indigenous Cylinder
Monoglyme 0.6852 Liquid Imported /Indigenous Barrels
Conc. Nitric acid 1.4157 Liquid Indigenous Barrels
Conc. Sulfuric acid 1.7856 Liquid Indigenous Tank
Methylene dichloride 0.6003 Liquid Indigenous Tank
Process Water 13.4747 Liquid GIDC Tank
36
Nitrogen 0.2000 Gas Self-Generation Tank
5-Chloro-3-(difluoromethyl)-1-methyl-1H-pyrazole-4-carboxaldehyde
Ethyldifluoroacetoacetate 1.4000 Liquid Imported /Indigenous Tank
Difluorobenzene 0.7960 Liquid Indigenous Barrels
Formic acid (HCOOH) 0.3960 Liquid Indigenous Barrels
Methyl tertiary-butyl ether 0.5080 Liquid Indigenous Tank
Monomethylhydrazine 0.6500 Liquid Imported /Indigenous Tank
Phosphorus oxychloride (POCl3) 2.1400 Liquid Imported /Indigenous Barrels
Sodium bicarbonate (NaHCO3) 0.1760 Crystalline Indigenous Barrels
Dimethylformamide 0.5600 Liquid Indigenous Tank
Toluene 0.7778 Liquid Indigenous Tank
Process Water 17.5220 Liquid GIDC Tank
37
Nitrogen 0.2000 Gas Self-Generation Tank
38 3-Difluoromethyl-5-fluoro-1-
methyl-1H-pyrazole-4-
carboxaldehyde
21
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Ethyldifluoroacetoacetate 2.3155 Liquid Imported /Indigenous Tank
Chlorobenzene 1.3060 Liquid Indigenous Tank
Dimethylamine 1.3530 Liquid Indigenous Barrels
Caustic lye/ Flakes 0.0040 Liquid Indigenous Tank
Formic acid (HCOOH) 0.6491 Liquid Indigenous Barrels
Methyl tertiary-butyl ether 0.8432 Liquid Indigenous Tank
Mono methylhydrazine 1.6000 Liquid Imported /Indigenous Tank
Phosphorus oxychloride (POCl3) 3.5103 Liquid Imported /Indigenous Barrels
Potassium fluoride 0.7163 Solid Indigenous Barrels
Sodium bicarbonate (NaHCO3) 2.9000 Crystalline Indigenous Barrels
Tetrabutyl ammonium
hydrogensulphate
0.1015 Crystalline Indigenous Barrels
Dimethylformamide 0.9182 Liquid Indigenous Tank
Isopropyl alcohol 0.2870 Liquid Indigenous Tank
Toluene 3.8230 Liquid Indigenous Tank
Process Water 34.1851 Liquid GIDC Tank
Nitrogen 0.5000 Gas Self-Generation Tank
2,5-Dichloro-4-(1,1,2,3,3,3-
hexafluoropropoxy)benzenamine
Dichlorophenol 0.5997 Crystalline Indigenous Barrels
Acetonitrile 0.1403 Liquid Indigenous Barrels
Caustic Lye 0.0390 Liquid Indigenous Tank
Acetone 0.0079 Liquid Indigenous Tank
Hexafluoropropylene 0.5518 Gas Indigenous Cylinder
Hydrochloric acid (15 - 33%) 0.0610 Liquid Indigenous Tank
Nitric Acid 0.0800 Liquid Indigenous Barrels
Potassium hydroxide 0.0878 Flakes Indigenous Barrels
Silicate (Ca2SiO4) 0.0036 Crystal Indigenous Barrels
Sodium chloride 0.0231 Solid Indigenous Barrels
Sulphuric acid (98%) 0.7160 Liquid Indigenous Tank
Methanol 0.3341 Liquid Indigenous Tank
Toluene 0.0732 Liquid Indigenous Tank
Hyflow (Filter aid) 0.0077 Solid Imported /Indigenous Barrels
Palladium on carbon 0.2054 Powder Indigenous Barrels
Process Water 5.1759 Liquid GIDC Tank
Nitrogen 0.5000 Gas Self-Generation Tank
39
Hydrogen 0.0204 colorless gas Indigenous Cylinder
2,4,5-Trifluorophenyl acetic acid
Dichloroacetophenone 2.6130 Needles Indigenous Barrels
Caustic Lye (48%) 0.8400 Liquid Indigenous Tank
40
Chlorosulfuric acid 6.4400 Liquid Indigenous Barrels
22
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Acetonitrile 0.8000 Liquid Indigenous Barrels
Hydrochloric acid (15 - 33%) 2.3000 Liquid Indigenous Tank
Morpholine 1.8300 Liquid Imported /Indigenous Barrels
Potassium fluoride 3.6140 Solid Indigenous Barrels
p-Toluenesulfonic acid 0.0400 Liquid Imported /Indigenous Barrels
Sulfolane 0.7500 Crystalline Indigenous Barrels
Sulfur 0.4500 Solid Indigenous Barrels
Process Water 1.0000 Liquid GIDC Tank
Nitrogen 0.1000 Gas Self-Generation Tank
3-Aminobenzotrifluoride
Benzotrichloride 1.3300 Liquid Indigenous Barrels
Hydrofluoric acid Anhydride 0.8000 Gas Indigenous Tank
Hydrogen 0.1300 colorless gas Indigenous Cylinder
Methanol 0.1300 Liquid Indigenous Tank
Nitric acid 0.5600 Liquid Indigenous Barrels
Raney nickel 0.0200 Slurry Imported /Indigenous Barrels
Sulphuric acid (98%) 1.9600 Liquid Indigenous Tank
Process Water 3.3300 Liquid GIDC Tank
41
Nitrogen 0.1000 Gas Self-Generation Tank
2,4-Dichloro-3,5-
dinitrobenzotrifluoride
Dichlorobenzotrichloride 1.2200 Liquid Imported /Indigenous Barrels
Dichlorobenzotrifluoride 0.7700 Liquid Imported /Indigenous Barrels
Hydrofluoric acid Anhydride 1.3900 Gas Indigenous Tank
Isopropyl alcohol 0.3400 Liquid Indigenous Tank
Nitric acid 1.9000 Liquid Indigenous Barrels
Oleum 3.5160 Liquid Indigenous Tank
Sodium bicarbonate 0.3900 Crystalline Indigenous Barrels
Process Water 3.5300 Liquid GIDC Tank
42
Nitrogen 0.3000 Gas Self-Generation Tank
3-phenoxy benzaldehyde
Benzaldehyde 0.6613 Liquid Indigenous Barrels
Bromine 0.2206 Liquid Indigenous Tank
Ammonia solution (25%) 0.0100 Liquid Indigenous Tank
Aluminium chloride 1.1458 Powder Indigenous Barrels
Caustic Lye (48%) 0.4700 Liquid Indigenous Tank
Chlorine 0.2242 Liquid/gas Indigenous Cylinder
Copper chloride 0.0120 Powder Indigenous Barrels
Formic acid 0.1000 Liquid Indigenous Barrels
Hydrochloric acid (15 - 33%) 1.4700 Liquid Indigenous Tank
Hyflow (Filter aid) 0.0009 Solid Imported /Indigenous Barrels
Monoethylene glycol 0.0608 Liquid Imported /Indigenous Barrels
43
Phenol 0.5831 Liquid Indigenous Barrels
23
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Potassium hydroxide (KOH Solution) 1.3000 Flakes Indigenous Barrels
p-Toluenesulfonic acid 0.0030 Liquid Imported /Indigenous Barrels
Soda ash 0.0500 Granule Indigenous Barrels
Sodium chloride 0.0100 Solid Indigenous Barrels
Sodium thio sulphate 0.0600 Liquid Indigenous Barrels
Sulphuric acid (98%) 0.0300 Liquid Indigenous Tank
Toluene 0.0264 Liquid Indigenous Tank
Ethyldichloride 0.0968 Liquid Indigenous Tank
Process Water 1.0930 Liquid GIDC Tank
Nitrogen 0.5000 Gas Self-Generation Tank
3-phenoxy toluene
Bromobenzene 1.8050 Liquid Indigenous Barrels
m-Cresol 0.6208 Liquid Imported /Indigenous Barrels
Caustic Lye (48%) 0.1380 Liquid Indigenous Tank
Copper Chloride 0.0039 Powder Indigenous Barrels
Hydrochloric acid (15 - 33%) 0.4196 Liquid Indigenous Tank
Potassium hydroxide (KOH Solution) 0.1610 Flakes Indigenous Barrels
Process Water 0.7796 Liquid GIDC Tank
44
Nitrogen 0.1999 Gas Self-Generation Tank
Methyl-2- Fluoroacrylate
Hydrofluoric acid 1.2870 Gas Indigenous Tank
Tetrafluoroethylene 1.4720 Gas Imported /Indigenous Cylinder
Dimethylformamide 2.5096 Liquid Indigenous Tank
Caustic Lye (48%) 0.7396 Liquid Indigenous Tank
Hydroquinone 0.0132 Crystalline Imported /Indigenous Barrels
Methanol 0.7308 Liquid Indigenous Tank
Paraformaldehyde 0.9246 Crystalline Imported /Indigenous Barrels
Sodium iodide 1.1500 Crystalline Indigenous Barrels
Trifluoroacetic acid 1.3500 Liquid Indigenous Tank
Zinc 0.9810 Solid Indigenous Barrels
Process Water 9.5000 Liquid GIDC Tank
45
Nitrogen 0.2000 Gas Self-Generation Tank
Lithium tetrakis
(pentafluorophenyl) borate
Pentafluorobenzene 0.3610 Liquid Indigenous Barrels
Tert-Butyllithium in pentane
solution (24%)
0.5700 Liquid Imported /Indigenous Barrels
BF3.etherate solution (50%) 0.0690 Liquid Imported /Indigenous Barrels
Diethyl ether 0.4340 Liquid Indigenous Barrels
Toluene 0.4230 Liquid Indigenous Tank
Process Water 0.0000 Liquid GIDC Tank
46
Nitrogen 0.2000 Gas Self-Generation Tank
47 2-fluoro-5-bromobenzonitrile
24
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Chlorobenzonitrile 1.1313 Crystalline Imported /Indigenous Barrels
KF 1.4309 Solid Indigenous Barrels
1,3-Dimethyl-2-imidazolidinone 0.8438 Liquid Imported /Indigenous Barrels
Methylene chloride 0.6990 Liquid Indigenous Tank
2-Fluorobenzonitrile 0.7562 Liquid Imported /Indigenous Barrels
H2SO4 (98%) 4.5440 Liquid Indigenous Tank
N-Bromosuccinimide (C4H4BrNO2) 1.1014 Solid Imported /Indigenous Barrels
Ethanol 0.2900 Liquid Indigenous Tank
O Toludiene 0.0500 Liquid Indigenous Barrels
Process Water 4.8591 Liquid GIDC Tank
Nitrogen 0.2000 Gas Self-Generation Tank
Ethyl-Trifluoropyruvate
Hexafluoroacetone 1.7700 Compressed
gas
Imported /Indigenous Cylinder
Ethanol 2.4500 Liquid Indigenous Tank
Calcium Hydroxide 0.7900 Solid Indigenous Barrels
Silica 0.1600 Crystal Indigenous Barrels
Sulphuric acid (98%) 0.9000 Liquid Indigenous Tank
Process Water 7.0900 Liquid GIDC Tank
48
Nitrogen 0.2000 Gas Self-Generation Tank
Isoflurane
Trifluoroethanol 0.9000 Liquid Indigenous Barrels
KOH (48%) 1.2600 Flakes Indigenous Barrels
NaOH (20%) 0.6500 Liquid Indigenous Tank
Acetone 0.0500 Liquid Indigenous Tank
Process Water 0.5800 Liquid GIDC Tank
Nitrogen 0.2000 Gas Self-Generation Tank
R-22 0.6700 Liquefied
Gas
Indigenous Tank
49
Chlorine Gas 0.5800 Liquid/gas Indigenous Cylinder
Desflurane
Isoflurane 1.5700 Liquid Imported /Indigenous Barrels
Flourinating catalyst 0.1000 Solid Imported /Indigenous Barrels
Anhydrous Hydrogen fluoride 0.3400 Gas Indigenous Tank
Dil HCL (30%) 0.8600 Liquid Indigenous Tank
Process Water 0.7200 Liquid GIDC Tank
50
Nitrogen 0.2000 Gas Self-Generation Tank
Sevoflurane
Hexafluoroisopropanol 1.6700 Liquid Imported /Indigenous Barrels
Trioxane 0.3600 Crystalline Imported /Indigenous Barrels
Anhydrous Hydrogen Fluoride 0.7900 Gas Indigenous Tank
Conc. H2SO4 (98%) 2.0000 Liquid Indigenous Tank
51
Aqueous KOH (48%) 3.1300 Flakes Indigenous Barrels
25
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Process Water 3.0000 Liquid GIDC Tank
Nitrogen 0.2000 Gas Self-Generation Tank
Trichloroacetyl chloride
Acetic Acid 0.3700 Liquid Indigenous Tank
Chlorine 2.6000 Liquid/gas Indigenous Cylinder
Charcoal 0.1500 Solid Indigenous Barrels
48% NaOH Solution 4.4000 Liquid Indigenous Tank
Process Water 3.2590 Liquid GIDC Tank
52
Nitrogen 0.2000 Gas Self-Generation Tank
53 Chlorinated Compound
Trichloroethylene
Ethylene dichloride 0.7540 Liquid Indigenous Tank
Chlorine 1.6170 Liquid/gas Indigenous Cylinder
Barium Hydroxide/ Sodium
Hydroxide
0.0100 Powder Indigenous Barrels
Stabilizer (Thymol) 0.0040 Solid Imported /Indigenous Barrels
Caustic Lye 48% 0.1028 Crystalline Imported /Indigenous Barrels
Alumina Balls 0.0010 Liquid Indigenous Tank
Molecular Sieve 0.0010 Solid Imported /Indigenous Barrels
Anhydrous Calcium Chloride 0.0010 Solid Imported /Indigenous Barrels
Therminol-55 0.0010 Crystalline Indigenous Barrels
Charcoal 0.0010 Liquid Imported /Indigenous Barrels
Catalyst - Nitrile based 0.0002 Solid Indigenous Barrels
Process Water 2.8157 Liquid GIDC Tank
i
Nitrogen 0.0050 Gas Self-Generation Tank
Perchloroethylene
Ethylene dichloride 0.7540 Liquid Indigenous Tank
Chlorine 1.6170 Liquid/gas Indigenous Cylinder
Barium Hydroxide/ Sodium
Hydroxide
0.0098 Powder Indigenous Barrels
Catalyst - Nitrile based 0.0002 Solid Imported /Indigenous Barrels
Stabilizer (Thymol) 0.0040 Crystalline Imported /Indigenous Barrels
Caustic Lye 48% 0.1243 Liquid Indigenous Tank
Alumina Balls 0.0010 Solid Imported /Indigenous Barrels
Molecular Sieve 0.0010 Solid Imported /Indigenous Barrels
Anhydrous Calcium Chloride 0.0010 Crystalline Indigenous Barrels
Therminol-55 0.0005 Liquid Imported /Indigenous Barrels
R-22 0.0001 Liquefied
Gas
Imported /Indigenous Tank
Charcoal 0.0010 Solid Indigenous Barrels
Process Water 2.8157 Liquid GIDC Tank
ii
Nitrogen 0.0051 Gas Self-Generation Tank
iii Chloromethanes
26
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Methanol 0.3650 Liquid Indigenous Tank
Chlorine 1.2200 Liquid/gas Indigenous Cylinder
Aluminium Oxide 0.0005 Powder Indigenous Barrels
48% Caustic Solution 0.0900 Liquid Indigenous Tank
98% Sulfuric Acid 0.5000 Liquid Indigenous Tank
Amylene 0.0010 Liquid Indigenous Tank
Desiccant (Silica Gel & Calcium
Chloride)
0.0005 Solid Imported /Indigenous Barrels
Process Water 1.5320 Liquid GIDC Tank
Nitrogen 0.0014 Gas Self-Generation Tank
Caustic & Chlorine Plant
Sodium Chloride 1.7200 Solid Indigenous Covered
Shed
Sulfuric Acid 0.0360 Liquid Indigenous Tank
Process Water 3.9240 Liquid GIDC Tank
54
Nitrogen 0.0100 Gas Self-Generation Tank
Anhydrous Hydrofluoric acid
Fluorspar 2.6000 Solid Imported /Indigenous Covered
Shed
Aluminium 0.0080 Solid Indigenous Barrels
Calcium Chloride 0.0002 Solid Indigenous Covered
Shed
Calcium oxide 0.0350 Solid Indigenous Covered
Shed
Oleum 1.0720 Liquid Indigenous Tank
Sulphuric Acid 98% 1.4550 Liquid Indigenous Tank
Sodium Hydroxide (30%) 0.2800 Liquid Indigenous Barrels
R22 Refrigerant 0.0001 Liquefied
Gas
Imported /Indigenous Tank
Process Water 2.6200 Liquid GIDC Tank
55
Nitrogen 0.0100 Gas Self-Generation Tank
Chlorotrifluoroethane (HCFC 133a)
Trichloroethylene 1.2160 Liquid Indigenous Tank
Hydrofluoric Acid (HF) 0.8800 Gas Indigenous Tank
Caustic Lye 48% 0.0070 Liquid Indigenous Tank
Crome- Alumina 0.0050 Granules Imported /Indigenous Barrels
Activated carbon 0.0050 Solid Indigenous Barrels
Molecular sieve 0.0050 Solid Imported /Indigenous Barrels
Sulphuric Acid 98% 0.2410 Liquid Indigenous Tank
Process Water 1.5000 Liquid GIDC Tank
56
Nitrogen 0.1000 Gas Self-Generation Tank
57 HFC Refrigerant
i 1,1,1,2 Tetrafluroethane (HFC 134a)
27
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Trichloroethylene 1.4000 Liquid Indigenous Tank
Hydrofluoric Acid (HF) 0.9600 Gas Indigenous Tank
Caustic Lye 48% 0.0070 Liquid Indigenous Tank
Crome- Alumina 0.0020 Granules Imported /Indigenous Barrels
Activated carbon 0.0200 Solid Indigenous Barrels
Molecular sieve 0.0200 Solid Imported /Indigenous Barrels
Sulphuric Acid 98% 0.2310 Liquid Indigenous Tank
Ferric Chloride 0.0100 Solid Indigenous Barrels
Process Water 2.6900 Liquid GIDC Tank
Nitrogen 0.0130 Gas Self-Generation Tank
Pentafluoroethane (HFC 125)
Perchloroethylene 1.4680 Liquid Imported /Indigenous Tank
Hydrofluoric Acid (HF) 1.0150 Gas Indigenous Tank
Caustic Lye 48% 0.0070 Liquid Indigenous Tank
Crome - Alumina 0.0050 Solid Imported /Indigenous Barrels
Activated carbon 0.0050 Solid Indigenous Barrels
Molecular sieve 0.0050 Solid Imported /Indigenous Barrels
Sulphuric Acid 98% 0.2120 Liquid Indigenous Tank
Process Water 2.9480 Liquid GIDC Tank
ii
Nitrogen 0.1000 Gas Self-Generation Tank
Difluoromethane (HFC - 32 )
Methylene chloride 1.6610 Liquid Indigenous Tank
Hydrofluoric Acid (HF) 0.9930 Gas Indigenous Tank
Caustic Lye 48% 0.2100 Liquid Indigenous Tank
Crome- Alumina 0.0050 Granules Imported /Indigenous Barrels
Activated carbon 0.0050 Solid Indigenous Barrels
Molecular sieve 0.0050 Solid Imported /Indigenous Barrels
Sulphuric Acid 98% 0.2441 Liquid Indigenous Tank
Process Water 3.3750 Liquid GIDC Tank
iii
Nitrogen 0.1000 Gas Self-Generation Cylinder
1,1 difluoroethane (HFC - 152a) iv
1,1 difluoroethane (HFC - 152a) 1.0000 Liquid Indigenous Tank
Refrigerant blend of Difluoromethane (HFC-32) + Pentafluoroethane (HFC-125) (R410a)
R-32 0.5000 Liquefied
Gas
Imported /Indigenous Tank
v
R-125 0.5000 Liquefied
Gas
Imported /Indigenous Tank
Refrigerant blend of Pentafluoroethane (HFC-125) + 1,1,1-Trifluoroethane (R143a) + 1,1,1,2
Tetrafluroethane (HFC 134a) (R404a)
R-125 0.4400 Liquefied
Gas
Imported /Indigenous Tank
vi
R-143a 0.5200 Liquefied Imported /Indigenous Tank
28
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Gas
R-134a 0.0400 Liquefied
Gas
Imported /Indigenous Tank
Refrigerant blend of Difluoromethane (HFC-32) + Pentafluoroethane (HFC-125) + 1,1,1,2
Tetrafluroethane (HFC 134a) (R407c)
R-32 0.2300 Liquefied
Gas
Imported /Indigenous Tank
R-125 0.2500 Liquefied
Gas
Imported /Indigenous Tank
vii
R-134a 0.5200 Liquefied
Gas
Imported /Indigenous Tank
Blend of 1,1-Difluoroethane (R152a) + 1,1,1,2 Tetrafluroethane (R134a)
R 134a (1112 - Tetrafluoroethane) 0.5000 Liquefied
Gas
Indigenous Tank
R 152 a (Difluoroethane) 0.5000 Liquefied
Gas
Imported /Indigenous Tank
Activated carbon 0.0010 Solid Indigenous Barrels
viii
Nitrogen 0.0010 Gas Self-Generation Tank
Butane (R600a)
Liquefied Petroleum Gas 3.8023 Liquefied
Gas
Indigenous Tank
Activated carbon 0.0050 Solid Indigenous Barrels
Process Water 2.0000 Liquid GIDC Tank
58
Nitrogen 0.1000 Gas Self-Generation Tank
Propane (R290)
Liquefied Petroleum Gas 5.5249 Liquefied
Gas
Indigenous Tank
Activated carbon 0.0050 Solid Indigenous Barrels
Process Water 2.0000 Liquid GIDC Tank
59
Nitrogen 0.1000 Gas Indigenous Tank
Blend of 1-Chloro-1,1-difluoroethane (R142b) + Chlorodifluoromethane (R22)
R 142 b (Chlorodifluoroethane) 0.5000 Liquefied
Gas
Imported /Indigenous Tank
R 22 (Chlorodifluoromethane) 0.5000 Liquefied
Gas
Indigenous Tank
Activated carbon 0.0010 Solid Indigenous Barrels
60
Nitrogen 0.0010 Gas Self-Generation Tank
Blend of 1,1,1,2 Tetrafluroethane (R134a) + Di Methyl Ether (DME)
Dimethylether 0.5000 Liquid Indigenous Barrels
R 134a (1112 - Tetrafluoroethane) 0.5000 Liquefied
Gas
Indigenous Tank
Activated carbon 0.0010 Solid Indigenous Barrels
61
Nitrogen 0.0010 Gas Self-Generation Tank
29
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
62 R&D Products
Organo Heterocyclic Compounds
Pyridines - Liquid Imported /Indigenous Tank
Picolines - Liquid Imported /Indigenous Tank
Unsaturated Ketones - Liquid Imported /Indigenous Tank
Carbohydrates - Liquid / Solid Imported /Indigenous Tank /
Bags
i
Ethers - Liquid Indigenous Tank
Aryl/Alkyl/Alicyclic Compounds
Acid Chlorides - Liquid Imported /Indigenous Tank
Benzonitriles - Liquid Imported /Indigenous Tank
Alkens - Gas/Liquid/S
olid
Imported /Indigenous Tank /
Barrels
Alkanes - Gas/Liquid/S
olid
Imported /Indigenous Tank /
Barrels
Amines - Liquid Imported /Indigenous Tank
Benzoic Acid - Colourless
crystalline
solid
Indigenous Barrels
Phenols - Liquid Imported /Indigenous Tank
Anilines - Colourless to
yellow liquid
Imported /Indigenous Tank
Pt/Pd/Ru/Rh based catalyst - Liquid/Solid Imported /Indigenous Tank /
Barrels
Dimethylformamide (DMF) - Colourless
liquid
Indigenous Tank
Alcohols - Liquid Indigenous Tank
ii
Toluene - Liquid Indigenous Tank
Elemental Fluorine/Bromine/Iodine and their Products/Derivatives
Anhydrous Hydrofluoric acid (AHF) - Liquid Indigenous Tank
Potassium Fluoride (KF) - Powder Indigenous Barrels
Iodine (I2) - Solid Indigenous Barrels
Bromine - Liquid Indigenous Tank
Hydrogen Bromide - Liquid Indigenous Tank
Potassium Iodide - Solid Indigenous Barrels
iii
Sulfonic Acids - Crystalline
solids
Imported /Indigenous Barrels
Alkali Metal/Boron/Phosphorous/Sulphur based Product/ Derivatives
Boron trifluoride (BF3) - Colourless
gas /
Colourless
liquid
Imported /Indigenous Tank /
Cylinder
iv
Phosphorus Trichloride (POCl3) - Liquid Indigenous Tank
30
Sr.
No.
Material Name Quantity
MT/MT
product
Physical
form
Source Mode
Storage
Phosphorus pentachloride (PCl5) - Powder Indigenous Barrels
Boric Acid - Powder Indigenous Barrels
Thionyl Chloride - Liquid Indigenous Tank
Thilols - Liquid Imported /Indigenous Tank
Hydrofluoric Acid (20 to 70%)
Hydrogen Fluoride 0.3000 Gas Indigenous Tank 63
Process Water 0.7000 Liquid GIDC Tank
31
1.4 Water Requirement, Waste Water Generation and Treatment
WATER CONSUMPTION
Sr.
No.
Category Existing
Water
Consump
tion
(KL/Day)
Addition
al Water
Consum
ption
(KL/Day)
Total Proposed Water Consumption
(KL/Day)
Treated water
to be reused.
(KL/Day)
Total Fresh
Water
Consumption
(KL/Day)
Domestic 429 389 818 1
Gardening (drip
irrigation)**
0 215 215
Industrial
a) UF RO water
reused for
process
2142 3163 5305
b) Cooling
Tower
3838 2198 6036
2
c) Washings 71 69 140
CPP
a) Boiler
i) Boiler for
process
1985 706 2691
ii) CPP* 1788 8572 10360
iii) DM & RO
Reject
883 4710 5593
b) Cooling
Tower
1662 3573 5235
3
Sub Total of CPP 6318 17561 23879
Assuming 85
% efficiency of
UF& RO
Treatment for
the Utilities
Effluent
stream, it
gives 18460
KLD of treated
water which
will be reused
and 3258 KLD
reject.
(1) 18460 KLD of
water will be
recovered after
UF & RO
treatment and
taken back to the
raw water
collection tank.
(2) Hence, 17933
KLD of fresh
water will be
consumed for the
proposed
expansion
project.
4 Total 12798 23595 36393 18460 17933
* 1263 KLD UF/RO Treated reused in Boiler
** 650 KLD Treated Sewage utilization for Gardening
650 STP
35 KL one time
Requirement
35 KL
Cond. water HBr-Recovery
168 Losses
650 Sewage STP
815 requirement gardening
32
WASTE WATER GENERATION
Sr.
No.
Category Existing
Waste
Water
Generation
(KL/Day)
Additional
Waste
Water
Generation
(KL/Day)
Total
Proposed
Waste
Water
Generation
(KL/Day)
Treated water to be
reused. (KL/Day)
Total waste water
Generation for
Discharge (KL/Day)
1 Domestic** 340 310 650 650 KLD After its
treatment in STP, it will
be used for greenbelt
development with drip
irrigation system.
100 % Domestic
effluent will be reused
in greenbelt
development with
drip irrigation system
Industrial
i) Process 688 2003 2691
ii) Cooling
Tower
691 955 1646
iii) Washing 71 69 140
2
Sub Total 2048 2429 4477
CPP
a) Process
Boiler
1985 706 2691
CPP Boiler 950 9410 10360
b) Cooling
Tower
400 1028 1428
c) DM & RO
Reject
923 4670 5593
3
Sub Total 4258 15814 20072
Assuming 85 %
efficiency of UF RO
Treatment for the
Utilities Effluent
stream, it gives 18460
KLD of treated water
which will be reused
and 3258 KLD reject.
From 3258 KLD reject,
100 KLD reject
utilization for Ash
quenching & dust
suppression.
We shall explore the
possibility to recover
water from 3158 KLPD
reject of RO. It will give
1263 KLPD (40 %)
recovered water for
reuse and rest quantity
1895 KLPD along with
treated waste water of
2614 KLPD, total 4509
KLPD will be discharge
to GIDC drain.
Hence, 4509 KLPD of
waste water will be
finally discharged to
Sea through GIDC
Sewer. (It includes the
1895 KLPD UF & RO
reject & 2614 KLPD
from Biological
Treatment)
4 Total (1+2+3) 6646 18553 25199 19110 4509
* 1263 KLD UF/RO Treated reused in Boiler
** 650 KLD Treated Sewage utilization for Gardening
33
kl/d
kl/d
recycled from HBr recovery
215 818 140
Gardening Domestic 33.76 kld Washing
18644 5305
BoilerProcess
Water
33.76 HBr/Br
Recovery
one time water need
215 650 17281 2691 140
kl/d
18460 kl/d kl/d
Fresh Water 17933
18460
36393
11271
Cooling
Tower 2614
Recovered Water recycled in Utility
Waste Water
Recycling Facility
4509
18
46
0
23186
Effluent Treatment Plants
Evaportaion &
losses in sludge
Process &
Drying
Losses3074
Gardening
SEA DISCHARGE
Evaporation
Losses
8197
217
22969
WATER BALANCE DIAGRAM
34
1.5 Air Pollution Source and Control Management
Existing Stack Details
Stack
No.
Stack
Attached
to
Qty. Capacity Stack
Ht.,
m
Stack
Dia.,
m
Stack
Exit
Velocity,
m/s
Stack
Exit
Temp, oK
Stack
Exhaust,
m3/s
Fuel
Used
Air Pollution Control
Measures
1. Boiler 1 15 TPH 53 1.00 11.0 448.2 8.64 FO Adequate stack height
Boiler 1 60 TPH Adequate stack height &
Electrostatic Precipitator
Boiler 1 35 TPH Adequate stack height &
Electrostatic Precipitator
2.
Boiler 1 35 TPH
94 2.4 16.0 448.2 72.3 Coal
Adequate stack height &
Electrostatic Precipitator
3. DG Set 2 500 KW 11 0.20 8.0 398.2 0.25 HSD Adequate stack height
4. DG Set 2 840 KW 31 0.35 8.0 398.2 0.77 HSD Adequate stack height
5. TFH 3 20 Lacs
Kcal
30 0.8 11.0 413 5.53 FO Adequate stack height
6. HAG 1 50 Lacs 45 0.8 11.0 413 5.53 FO Adequate stack height
7. Fluorospar
Drying
System
1 20 Lacs 34 0.6 11.0 413 2.61 FO
Adequate stack height
35
Proposed Stack Details
Stack
No.
Stack
Attached
to
Qty
.
Capa
city
Stac
k
Ht.,
m
Stac
k
Dia.,
m
Stack
Exit
Velocity,
m/s
Stack
Exit
Temp
, oK
Stack
Exhaust
, m3/s
Fuel
Used
Air Pollution Control
measure
1 Boiler 1 75 TPH Adequate stack height &
Electrostatic Precipitator
2 Boiler 1 75 TPH
120 3.00 21.0 448.2 148.37 Coal
Adequate stack height &
Electrostatic Precipitator
3 Boiler 1 100
TPH
Adequate stack height &
Electrostatic Precipitator
4 Boiler 1 100
TPH
135 3.50 25.0 448.2 240.41 Coal
Adequate stack height &
Electrostatic Precipitator
5 DG Set 3 4200
KVA
30 0.80 11.0 398.2 5.53 HSD Adequate stack height
6 Thermic
Fluid
Heater
20 20 Lacs
Kcal
30 0.80 11.0 413.0 5.53 FO Adequate stack height
7 Dust
Collectors
10 - 30 0.80 11.0 413.0 5.53 - Adequate stack height
8 HAG 1 50 Lacs 45 0.8 11.0 413 5.53 FO Adequate stack height
9 Fluorospar
Drying
System
1 20 Lacs 30 0.6 11.0 413 2.61 FO
Adequate stack height
36
1.6 Hazardous Waste
Total after Proposed Expansion
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
1 Chemical
sludge from
waste water
treatment
35.3 MTA ETP
Process
Solid 2340 6000 HDPE
Bags
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Dump
er /
Truck
by
Road
Collection,
Storage,
Transportation,
disposal at TSDF
/ Co-processing.
2 Spent Oil 5.1 MTA Lubricatio
n of Plant
Machiner
y /
Equipme
nt
Terry 600 1800 MS/
HDPE
Contai
ner
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
Storage,
Transportation,
sell to registered
re-refiners /
recycler
Nos.
per
Year
Raw
Material
Solid 13400
00
Stackin
g
Designat
ed area
Truck
by
Road
Or
MTA
(Disca
rded
Conta
iners
/
barrel
s)
Raw
Material
Solid 14740 Stackin
g
Designat
ed area
Truck
by
Road
Collection,
Storage,
Transportation,
reuse / sell to
authorize
recyclers.
3 Discarded
containers /
barrels /
liners used
for
hazardous
wastes/chem
icals
33.1
MTA
(Disca
rded
liners
)
Raw
Material
Solid
600
190 Bundle
s
Designat
ed area
Truck
by
Road
Collection,
Storage,
Transportation,
sell to authorize
recyclers.
37
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
4 Spent
Catalyst
28.2 MTA Process Solid 50 2400 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
Storage,
Transportation,
sell to
authorized
recycler/
disposal at TSDF
or CHWIF / Co-
processing.
5 Spent
Carbon
28.3 MTA Process Solid 0 1212 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
storage,
transportation,
disposed to
CHWIF & or Co-
processing.
6 Off-
Specification
Product
28.4 MTA Process Solid/
Semi-
Solid /
Liquid
0 600 MS/HD
PE
Drums
or
Design
ated
Tank
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall or
Designat
ed area
Truck
/
Tanke
r by
Road
Collection,
Storage,
Transportation,
sell to
authorized
recycler/
disposal at TSDF
/ CHWIF / Co-
processing.
7 Process
waste
sludge/resid
ues
containing
acid or other
toxic metals
or organic
complexes
26.1 MTA Process Solid/
Semi-
Solid /
Liquid
0 600 MS/HD
PE
Drums
or
Design
ated
Tank
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall or
Designat
ed area
Truck
/
Tanke
r by
Road
Collection,
Storage,
Transportation,
sell to
authorized re-
Processor/
disposal at
CHWIF / Co-
processing.
38
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
8 Filters and
filter
material
which have
organic liquid
in them E.g.
Mineral oil,
synthetic oil
& organic
chlorine
compounds
35.1 MTA Process Solid/
Semi-
Solid /
Liquid
0 550 MS/HD
PE
Drums
or
Design
ated
Tank
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall or
Designat
ed area
Truck
/
Tanke
r by
Road
Collection,
Storage,
Transportation,
sell to
authorized re-
Processor/
disposal at
CHWIF / Co-
processing.
9 Process
Residue &
Waste
28.1 MTA Process Semiso
lid
/Liquid
636 32000 MS/HD
PE
Drums
or
Design
ated
Tank
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall or
Designat
ed area
Truck
/
Tanke
r by
Road
Collection,
storage,
transportation,
disposed to
CHWIF/ Co-
processing.
10 Spent
Organic
Solvent
28.6 MTA Process Liquid 11100 90892 MS/HD
PE
Drums
or
Design
ated
Tank
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall or
Designat
ed area
Truck
/
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to
authorized re-
processor & or
disposal at
CHWIF & or Co-
processing & or
Sent for Job
work to third
party for
recovery.
11 Chemical
sludge from
waste water
treatment
(MEE / ATFD
Salt)
35.3 MTA MEE /
ATFD
Process
Solid 0 73858
+ 1800
(From
Bromin
e
Recove
ry
Plant)
=
HDPE
Bags
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Dump
er /
Truck
by
Road
Collection,
Storage,
Transportation,
disposal at TSDF.
39
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
75658
12 Inorganic
Salt
- MTA Process Solid 0 4447 HDPE
Bags
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Dump
er /
Truck
by
Road
Collection,
Storage,
Transportation,
disposal at TSDF
/ Co-processing.
13 CuCl Cake 8.2 MTA Process Solid 144 52 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
Storage,
Transportation,
sell to actual
users / Co-
processing /
disposal at TSDF
or CHWIF.
14 Ammonium
Salt
- MTA Process Solid 840 5811 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
storage,
transportation,
Sell to Actual
users / Sent to
disposal at TSDF.
15 Potassium
Salt
B2040 MTA Process Solid 1620 5061 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
storage,
transportation,
Sell to Actual
users / Sent to
disposal at TSDF.
16 Sodium Salt B2040 MTA Process Solid 2040 4402 MS/HD
PE
Drums
Storage
in
impervio
us
covered
Truck
by
Road
Collection,
storage,
transportation,
Sell to Actual
users / Sent to
40
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
shed
having a
boundar
y Wall
disposal at TSDF.
17 Zinc
Compound
6.1 MTA Process Solid 0 787 MS/HD
PE
Drums
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Truck
by
Road
Collection,
storage,
transportation,
Sell to Actual
users / Sent to
disposal at TSDF.
18 Hydrofluorics
ilic acid (15-
40%)
C2 MTA Process Liquid 7200 24000 Transf
erring
throug
h pipe
line
from
produc
tion
units
to
design
ated
tanks.
Designat
ed
Storage
Tank
having
boundar
y wall
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
19 Sulphuric
acid (70-
95%)
C2 MTA Process Liquid 18600 11793
2
Transf
erring
throug
h pipe
line
from
produc
tion
units
to
design
ated
tanks.
Designat
ed
Storage
Tank
having
boundar
y wall
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
20 Hydrochloric
Acid (30 -
33%)
C2 MTA Process Liquid 390000 91208
1
Transf
erring
throug
h pipe
line
Designat
ed
Storage
Tank
having
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
41
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
from
produc
tion
units
to
design
ated
tanks.
boundar
y wall
21 Sodium
Hypochlorite
C2 MTA Process Liquid 2040 14951
6
Transf
erring
throug
h pipe
line
from
produc
tion
units
to
design
ated
tanks.
Designat
ed
Storage
Tank
having
boundar
y wall
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
22 Liquor
Ammonia
Solution (10-
25%)
A10 MTA Process Liquid 0 6871 Transf
erring
throug
h pipe
line
from
produc
tion
units
to
design
ated
tanks.
Designat
ed
Storage
Tank
having
boundar
y wall
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
23 Hydrogen
bromide
Solution (40-
50%)
C2 MTA Process Liquid 0 5691 Transf
erring
throug
h pipe
line
from
produc
tion
units
to
Designat
ed
Storage
Tank
having
boundar
y wall
Tanke
r by
Road
Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
42
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
design
ated
tanks.
24 Brine Sludge 16.3 MTA Caustic
Chlorine
Plant
Solid 0 5500 HDPE
Bags
Storage
in
impervio
us
covered
shed
having a
boundar
y Wall
Dump
er /
Truck
by
Road
Collection,
Storage,
Transportation,
disposal at TSDF
25 Fly Ash - MTA Process Powde
r
0 10800
0
Loose In Silo at
CPP
Dump
er /
Truck
by
Road
Sold to Brick,
Tile & Cement
Manufacturer as
per Fly Ash
Notification
26 Calcium
fluoride
C2/A72 MTA Process - 0 8479 - - - Collection,
Storage,
Transportation,
disposal at TSDF
27 Sodium
methoxide
Solution
B28 MTA Process - 0 120 - - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
28 Phosphoric
acid (25-
75%)
B15 MTA Process - 0 2421 - - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
29 Phosphorus
trichloride
B10 MTA Process - 0 1837 - - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
43
S.
No.
Name of
Hazardous
and Other
Waste
Propos
ed
Waste
Catego
ry No
as per
Rule
2016
UOM Waste
Generati
ng Step
Physic
al
State
Existin
g
Hazard
ous
Waste
Total
Propos
ed
Hazard
ous
Waste
Quanti
ty
Metho
d of
Packin
g &
Collect
ion
Method
of
Storage
Mode
of
Trans
porta
tion
Mode of
disposal
30 Mix of
Trichloroethy
lene
&Perchloroet
hylene
20.1 MTA Process - 0 33395 - - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
31 Gypsum 35.5 MTA Process - 0 16240
0
- - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
32 Aluminium
trifluoride
C2/A72 MTA Process - 0 1000 - - - Collection,
Storage,
Transportation,
Sell to Actual
User / end user.
Other Solid Waste
Bio-medical Wastes
SRF Limited has an occupational health centre. The BMW generated, if any, is sent to an authorized common
bio-medical waste incinerator. The facility already has membership of common BMW incineration facility.
E-Wastes
E-waste will be handled and disposed as per E-Wastes (Management and Handling) Rules, 2011. The facility
already has registered as a member with authorized E- waste recycler.
Other Non-Hazardous Solid Wastes
Other solid wastes include kitchen waste, cardboard, paper, plastic and garden wastes. Amongst these
cardboard, paper and plastic wastes are sent to scrap dealers. Canteen waste and garden waste is used for
composting. Wastes like insulation waste, thermocol waste and used & expired PPE’s are sent to common
TSDF/CHWIF facility. The same practice will be continued for the proposed project.
1.7 Green Belt
The total plot area is 223.65 Acres from which Approx 74 acres will be developed as green
cover which is 33% of the total plot area.
44
1.8 Power & Fuel Requirements
Existing Power Requirement Proposed Additional Power
Requirement
Total Power Requirement
after
Expansion
Power Plant – 25 MW Power Plant - 50 MW Power Plant - 75 MW
DG - 500 KW X 2 Nos.
DG - 840 KW X 2 Nos.
DG -4200 KVA X 3 Nos.
12500 KVA Grid Power
DG-500 KW X 2 Nos.
DG-840 KW X 2 Nos.
DG-4200 KVA X 3 Nos
12500 KVA Grid Power
Fuel Total Quantity Source
Coal 2400 MT/Day ADI Tradlink
Furnace Oil / LSHS 400 KL/Day IOCL
HSD 210 KL/Day IOCL
Natural Gas 1808185 Nm3/Day GAIL/GSPL
2.0 INTRODUCTION OF THE PROJECT/BACKGROUND INFORMATION
2.1 Identification of the project and project proponent. In case of mining project, a copy
of mining lease/letter of intent should be given.
Established in 1973, SRF Ltd. is a leading Indian player in Refrigerant Gases, Agro & Pharma
Intermediates, and Technical Textiles & Packaging Films. The company comprises a group of
different businesses like Chemical Business, Technical Textile Business and Packaging Films
Business. With eight production units in India and three overseas under its fold, the
company exports its products to over 60 countries.
SRF’s Chemicals R&D is actively engaged in development of new products and processes. It
focuses on customer-tailored product development, with all processes developed by the
research team being industrially validated. The processes developed by in-house research
teams have successfully delivered products in commercial quantities to global agrochemical
and pharmaceutical majors, creating a basis for enduring and synergistic partnerships. At its
new site at Dahej, a couple of projects have already been commercialized and more are in
pipeline, based on in-house technologies & captive power plant. SRF has a vision of
innovation led growth in specialty chemicals and the R&D team is building on its expertise
with many more platforms.
45
The manufacturing operations of SRF’s Chemicals Business (CB) are located at two locations:
Dahej in Gujarat & Bhiwadi in Rajasthan. The business derives its revenue from the sale of
Specialty Chemicals & Fluoro Chemicals products. In the Specialty Chemicals segment,
further strategic tie-ups with global agro and Pharma majors have been established. New
products have been introduced and fructification of others is in the pipeline.
Refrigerants are primarily used as a cooling medium in the air conditioning and refrigeration
industry. SRF continues to be one of the larger and more credible players in the industry
globally. It is the domestic market leader with about 40 per cent share. Exports of the
business are spread across 60 countries worldwide, and account for over 60 per cent of the
volumes produced. SRF’s portfolio of refrigerants includes hydrochlorofluorocarbon-22
(HCFC-22), the new-generation refrigerant, hydrofluorocarbon-134a (HFC-134a), and the
refrigerant blend R410A. The company continues to invest in further capacities of HFC-134a
keeping in view the medium and long-term growth of India’s automobile industry, as well as
in the rest of the developing world.
Currently, in line with long term strategy, SRF Ltd. has contemplated expansion of Specialty
chemicals& Fluoro chemicals Manufacturing Plant at Plot No. D-2/1, Village: Suva, GIDC,
Dahej, Tehsil: Vagra, District: Bharuch, Gujarat.
2.2 Brief description of nature of the Project
The Chemicals Business had been on the growth path over the past few years mainly driven
by strong commodity upswing and R&D led innovations in specialty products. The specialty
business expanded its overseas presence by adding more volumes to existing customer
base. Leveraging the solid foundation of in-house technological capability, the focus is
currently on developing and launching new-generation refrigerants along with specialty
products. In specialty chemicals, the business is expected to expand its horizons and the
range of specialty products coming out of Dahej. The business is continuing to build on its
reputation and credibility with the global agrochemical and pharmaceutical majors. SRF has
been making large investments in the Chemicals Business and the plans are afoot to ensure
successful commissioning and consolidation of new units so that the company starts
generating returns on these investments going forward.
46
2.3 Need for the project and its importance to the country and or region
SRF has introduced two new products at Dahej – Trichloroethylene and Perchloroethylene
Trichloroethylene is a backward integration to the HFC-134a production facility and is used
primarily as a feedstock. Perchloroethylene is used as a solvent in the laundry, metal
degreasing and vapour degreasing industries. It is also a feedstock for HFC-125 and HFC-
134a for some producers. There is no domestic producer of perchloroethylene with the
entire demand being met through imports. SRF aims to become a major supplier for these
products in the domestic market in near future.
Specialty Chemicals is building on its presence in the fluorine chemistry industry for almost
two decades, SRF had entered the space of specialty fluorine chemistry in 2003-04. Being a
chemicals intermediate company, the focus has been to leverage the company’s expertise
to produce intermediates and advanced intermediates, used to manufacture Active
Pharmaceutical Ingredients (APIs) and agrochemicals by its customers. Apart from
fluorinated intermediates where fluorine-based specialty chemicals are finding increasing
usage in the fields of agrochemicals, pharmaceuticals and performance products, non-
fluorinated specialty products are being selectively explored for commercialization.
In order to keep the momentum going, the strength of R&D and process engineering has
substantially been augmented, with a number of projects in various stages of
implementation. The business is now engaged with reputed domestic and global innovators
for new range of products.
2.4 Demands-Supply Gap
Based on our informal survey of the market with our current customers and various traders,
we have found that there is a big potential for the range of the products we are planning.
2.5 Imports vs. Indigenous production
Based on the current cost of indigenous raw materials and the non availability of some
materials, we will have to import some of the key raw materials as they are not available
indigenously. This will make us very competitive against imported finished products and we
will export our finished products in the international market.
47
2.6 Export possibility
We shall explore the possibility of export the products.
2.7 Domestic/Export Markets
Our products have good demand in international market. We shall explore the possibility of
export the products.
2.8 Employment Generation (Direct and Indirect) due to project.
SRF Ltd. has generated direct and indirect employment for approx. 1000 persons, out of
which 750 people are on Company role and remaining are contract employees in its existing
unit at GIDC Dahej. SRF Ltd. gives preference to the local population for employment in all
categories including semi-skilled and unskilled. The skilled employees are recruited through
open recruitment process to meet competency required to operate chemical plant. The
total requirement of Manpower of proposed plant would be around 2000.
3.0 Project Description
3.1 Type of Project including interlinked and interdependent projects, if any.
No interlinked project has been submitted.
48
3.2 Location (map showing general location, specific location and project boundary &
project site layout) with coordinates.
• Map showing general location
49
• Specific location and project boundary
50
Plot Layout
51
3.3 Details of alternate sites considered and the basis of selecting the proposed site,
particularly the environmental considerations gone into should be highlighted.
� No alternative sites considered as proposed expansion is within the existing premises of
SRF Limited
3.4 Size or Magnitude of Operation
Please refer Section-1.2.1, Page No. 2.
3.5 Project Description with process details (a schematic diagram/flow chart showing the
project layout, components of the project, etc. should be given)
Please refer Please refer Form-I, Annexure-2A.
3.6 Raw Material required along with estimated quantity, likely source, marketing area of
final product/s, mode of transport of raw material and Finished product.
For raw material required along with quantity; Please refer Section-1.3, Page No. 6. We shall
procure the raw material as much as possible from domestic market and if there is no
availability of any raw material, we will import. We shall explore the possibility of export the
finished products.
3.7 Resource optimization/recycling and reuse envisaged in the project, if any, should be
briefly outlined.
We shall explore possibility of recycling by adopting cleaner production.
3.8 Availability of water its source, energy/power requirement and source should be
given.
Water Source
Total water requirement shall be met through GIDC water supply.
Power & Fuel Requirement
Please refer Section-1.8, Page No. 54.
52
3.9 Quantity of wastes to be generated (liquid and solid) and scheme for their
management/disposal.
Please refer Form-I, Annexure-IV & V.
3.10 Schematic representations of the feasibility drawing which give information of EIA
purpose.
4.0 Site Analysis
4.1 Connectivity
SRF Ltd. has a plot in GIDC Dahej Plot D2/1, already been installed and it got commissioned
in July, 2012. The site for the plant was finalized considering that the location is ideal for the
industries as this is fully supported by Gujarat Industrial Development Corporation (GIDC).
Following factors were considered while selecting the site:
� Proximity to National Highway No. 8 connecting Delhi with Mumbai & JNPT Port makes
it easier to import raw materials & dispatch final product to market. The nearest ports
JNPT & NAVASHEVA of Mumbai (Maharashtra) are connected by rail / road route.
RECONNAISSANCE SURVEY OF EXISTING PLANT ANNUAL REPORT
MARKET ASSESSMENT
FINANCIAL REPORT
PROJECT REPORT
INTRODUCTION
MONITORING OF AIR, WATER & SOIL QUALITY & NOISE
LEVELS. DATA ON METEOROLOGY SOCIO-ECONOMIC STATUS
& BASIC AMENITIES. SITE VISITS BY AND INTERVIEWS WITH
LOCALS
BASELINE
ENVIRONMENTAL
STATUS
ENVIRONMENTAL INFORMATION CENTRE
CENTRAL GROUND WATER BOARD
GUJARAT POLLUTION CONTROL BOARD (GPCB)
PUBLIC HEALTH ENGINEERING DEPT.
AGRICULTURE DEPARTMENT
FOREST DEPARTMENT
IRRIGATION DEPARTMENT
EMPLOYMENT EXCHANGE
HEALTH CENTER
CENSUS DEPT.
INDIAN METEOROLOGICAL DEPT.
SOCIOECONOMIC
STATUS &
INFRASTRUCTURE
PROPOSED
EXPANSION
PLANT
FACILITY DESCRIPTION
IMPACTS
METHODOLOGY OF
IMPACT
ASSESSMENT
IDENTIFICATION & ASSESSMENT OF IMPACTS
EVALUATION OF IMPACTS BY MATRIX METHOD
SOURCE OF INFORMATION OVERVIEW OF
E. I. A. STUDIES
ACTIVITIES
ENVIRONMENTAL
MANAGEMENT PLAN
DESCRIPTION OF EFFLUENT TREATMENT PLAN, AIR
POLLUTION CONTROL, HAZARDOUS WASTE MANAGEMENT,
GREEN BELT DEVELOPMENT MONITORING PROGRAM
RISK ANALYSIS
STUDIES &
DISASTER
MANAGEMENT PLAN
SAFETY, HEALTH & ENVIRONMENTAL POLICY, GUIDELINES BY
DIRECTOR GENERAL OF FACTORY SAFETY, MINISTRY OF LABOR. CONSEQUENCE ANALYSIS
PREPARATION OF DISASTER MANAGEMENT PLAN
53
� The water demand is fulfilled by GIDC.
� The infrastructure for the effluent discharge into deep sea is provided by GIDC.
� Location in considerably less developed area which ensured adequate availability of
manpower at reasonable rates compared to metro cities of India.
The project site is suitable due to large enough space is available for all the off sites,
auxiliaries, safety, utilities & pollution abatement systems for air, water & solid waste
pollution control.
4.2 Land Form, Land Use and Land Ownership
(Courtesy: Environmental Information Center, New Delhi)
4.4 Existing land use pattern (agriculture, non-agriculture, forest, water bodies (including
area under CRZ)), shortest distances from the periphery of the project to periphery of the
54
forests, national park, wild life sanctuary, eco sensitive areas, water bodies (distance from
HFL of the river), CRZ. In case of the notified industrial area, a copy of the Gazette
notification should be given.
(Courtesy: Environmental Information Center, New Delhi)
55
AREAS UNDER DIFFERENT LANDUSE
(Courtesy: Environmental Information Center, New Delhi)
Area Statistics of Landuse / Landcover Map
Sr.
No. Class Names
Area (In
Hectares) Area (In Sq.Km.) Area %
1 Water Body 1363.73 13.64 4.34
2 Open/Barren Land 5076.01 50.76 16.17
3 Agriculture Land 1159.56 11.60 3.69
4 Fallow Land 6291.40 62.91 20.04
5 Open/Degraded Vegetation 412.59 4.13 1.31
6 Vegetation Medium Density 397.40 3.97 1.27
7 River & Canal 23.25 0.23 0.07
8 Marshy Land 919.33 9.19 2.93
9 Salt Affected Land 128.45 1.28 0.41
10 Settlement & Habitation 324.50 3.25 1.03
11 Mud Flat 863.17 8.63 2.75
12 Jetty 32.91 0.33 0.10
13 Salt Pans 2083.03 20.83 6.63
14 Mangrove(Sparse) 117.30 1.17 0.37
15 Mangrove(Dense) 223.00 2.23 0.71
16 Marshy Vegetation 46.55 0.47 0.15
17 Industrial Area 290.32 2.90 0.92
18 Sea 11589.46 115.89 36.91
19 Seasonal Water Body 59.04 0.59 0.19
Total 31400.99 314.01 100.00
56
4.5 Existing Infrastructure
This is expansion within existing premises and open land is already available.
4.6 Soil Classification
Soil Characteristics under Project Area are as below Table;
CATEGORY AREA_SQ KM DESCRIPTION TAXONOMY1 TAXONOMY2 CLASS SUB_CLASS
A 88.93
Very deep, moderately well
drained, calcareous, fine soils
on very gently sloping alluvial
plain with slight erosion and
moderate salinity; associated
with very deep moderately well
drained, calcareous, fine soils
with moderate erosion.
Fine,
montmorillonitic
(calcareous),
hyperthermic
Typic
Chromusterts
Fine,
montmorillonitic
(calcareous)
hyperthermic
Udic Chromusters
Soils of
west coast
(soils of
Gujarat
plain)
Soils of
alluvial
plains
C 108.64
Very deep, poorly drained,
calcareous fine-loamy soils on
very gently sloping coastal plain
with moderate erosion and
strong salinity; associated with
very deep , imperfectly drained,
calcareous, fine soils with
severe erosion and strong
salinity.
Fine-loamy,
mixed
(calcareous),
hyperthermic
Aeric
Haplaquepts
Fine, mixed
(calcareous),
hyperthermic
Typic Halaquepts
Soils of
west coast
(soils of
Gujarat
plain)
Soils of
coastal
plains
- 116.43 Sea - - - - (Courtesy: Environmental Information Centre, New Delhi)
57
SOIL CHARACTERISTICS MAP
(Courtesy: Environmental Information Centre, New Delhi)
58
4.7 Climatic data from secondary sources.
Climatic data from primary and secondary sources will be incorporated in EIA Study.
4.8 Social infrastructure available.
Various Programs/ Projects related to Social & Economic development of surrounded area
has been planned, which are as follows.
A) Natural Resource Management: The main focus of this program will be to maximize the
yield returns of the farmers through efficient management of existing resources &
extension of new agricultural practices.
1) Integrated Agricultural Growth Project: For improvement and use of the modern
techniques and thereby would certainly contribute to prosperity in the agriculture
sector and reduce the rural poverty by programs like Farmers Training, Nursery
Growing Trainings, Modern agriculture equipment distribution programs etc.
2) Animal Husbandry Projects: Various programs like health checkups & treatment,
vaccination program, Anti sterility camps, breed improvement etc. will be carried
out.
B) Income Generation Program -
1) Establishment of Self help groups.
2) Rural Entrepreneurship Development Program
3) Handcrafts Development Program
4) Vocational Training
5) Business process outsourcing
C) Health, Education & Infrastructure
1) Aids Awareness Program
2) General Health Camps
3) Innovative Teaching Methods
4) Adult Education
5) Sanitation
6) Infrastructure Development Projects
59
5.0 Planning Brief
5.1 Planning Concept (type of industries, facilities, transportation etc) Town and Country
planning/Development authority classification.
The company has developed green belt on an area of 74 acres, which is more than 33% of
total plot area. Care will be taken to ensure that the plants in the second row are staggered
from the first row plants. Plantation of selected tree species, which are suitable to the
condition, are done for attenuation of air & noise pollution. Also proper care is taken to
ensure maximum survival rate of the plants.
5.2 Population Projection
Population data will be incorporated in EIA Study.
5.3 Land use planning (breakup along with green belt etc.)
Industrial Area (processing area)
Approx. 223.65 acres areas is required for proposed expansion.
Residential Area (Non processing area)
Residential colony is not proposed for proposed expansion. The local labour will be
preferred to provide employment opportunities.
Green Belt
Greenbelt is developed in 74 acre (33 % of the total area) of the proposed expansion.
5.4 Assessment of Infrastructure Demand (Physical & Social)
• Employment would be as per prevailing norms of state government for skilled and
unskilled people for the proposed project activity.
• Social Welfare
• Cordial relation with the industry shall be established and representation shall be made
to villagers for help for creation of facilities related to health, education, etc.
60
5.5 Amenities/Facilities
Details of amenities available in study area
Taluka Village Educational Medical Drinking
Water
Post &
Telegraph
Communication Approach
to Village
Nearest
Town
Power
Supply
Galenda P(2),Ac,O RP,CHW T,W,TK PO BS PR,KR Bharuch EA
Samatpor P(2),Ac RP,CHW W,TK -(-5 Kms) BS PR,KR Bharuch EA
Vav P(2),Ac RP,CHW T,W,TK,HP -(-5 Kms) BS,RS PR,KR Bharuch EA
Jolva P(2),Ac,O PHS,FPC,RP,CHW W,TK -(-5 Kms) BS,NW PR,KR Bharuch EA
Vadadla P(2),Ac CHW W,TK PO BS PR,KR Bharuch EA
Dahej
P(4),H,Ac(4),O PHC,D,FPC,RP,
CHW
T,W,TK PTO,
Phone
BS,RS,NW PR,KR Bharuch EA
Lakhigam P(2) PHS,RP,CHW W,TK po BS,NW PR,KR Bharuch EA
Luvara P(2),Ac RP,CHW W,TK -(-5 Kms) BS,NW PR,KR,NR Bharuch EA
Jageshwar P(2),Ac,H RP,CHW W,TK PO BS,NW PR,KR,NR Bharuch EA
Ambheta P(2),Ac CHW T,W,TK PO BS,NW KR,NR Bharuch EA
Suva P(2),Ac -(5-10 Kms) W,TK,R -(-5 Kms) BS,NW PR,KR,NR Bharuch EA
Rahiad P(2),Ac(2),O RP,CHW W,TK PO BS,NW PR,KR.NR Bharuch EA
Harinagar
Un
inhabited
Padariya P(2),Ac RP,CHW W,TK PO BS PR,KR Amod EA
Kadodara
P(2),Ac(2),H PHS,FPC,
RP,CHW
W,TK PO BS PR,KR Bharuch EA
Vagra
Sambheti P(2),Ac -(10+Kms) W,TK PO BS,RS PR,KR Bharuch EA
(Courtesy: Census Dept., GOI)
61
ABBREVIATIONS
1. Education
P-Primary Elementary School
H-Matriculation or Secondary
O-Other Educational Institution
PUC-Higher Secondary/Intermediate/pre-University/junior Collage
AC – Adult literacy class
TR – Training center
2. Medical Facilities
RP-Registered Private Practitioner
PHS-Primary Health Centre
FPC-Family Planning Centre
D- Dispensary
CHW - Community Health Worker/Health Worker
H - Hospital
NH - Nursing Home
MH - Maternity Home
PHC - Public Health Centre
CWC - Child Welfare Centre
TB - T.B Clinic
O - Others
3. Drinking Water
T-Tap Water
HP-Hand Pump
TK-Tank Water
W-Well Water
R-River Water
C-Canal
N - Nallah
S - Spring
4. Post & Telegraph
PO-Post Office
62
PTO-Post & Telegraph
Phone-Telephone Communication
5. Transportation
RS- Railway Station
BS-Bus Station
NW-Navigable Waterway
6. Approach to Village
PR-Pucca Road
KR-Kuccha Road
7. Power Supply
EA-Electricity for all purposes
EAG - Electricity for Agriculture
ED - Electricity for domestic
EO - Electricity for other purpose like Industrial, Commercial etc.
6.0 Proposed Infrastructure
6.1 Industrial Area (Processing Area)
Approx. 223.65 acres areas is required for proposed expansion.
6.2 Residential Area (Non Processing Area)
Residential colony is not proposed for proposed expansion project. The local labour will be
preferred to provide employment opportunities.
6.3 Green Belt
Greenbelt is developed in 74 acre (33 % of the total area) of the proposed expansion
project.
6.4 Social Infrastructure
• Water Supply by GIDC
• Power supply by Grid Power
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6.5 Connectivity (Traffic and Transportation Road/ Rail/Metro/ Water ways etc.)
Major factors involved in the selection of site are listed below:
• Site is very well connected by road
• Proximity to Raw Material suppliers
• Availability of sufficient land free from cultivation
• Availability of power facilities
• Availability of water for industrial use
6.6 Drinking water Management (Source & Supply of water)
Total water requirement shall be met through GIDC supply.
6.7 Sewerage System
Sewage pipes would be laid in entire company for the removal and disposal of mainly non-
harmful liquid wastes from the offices, canteen and domestic waste coming from different
sections of the industry. These liquid wastes would be sent to STP. Treated water will be
reused for gardening.
6.8 Solid Waste Management
Please refer Form-I, Annexure-V.
6.9 Power Requirement & Supply/Source
Please refer Section 1.8, Page No.54 of this report.
7.0 Rehabilitation and Resettlement (R & R) Plan
7.1 Policy to be adopted (central/state) in respect of the project affected including home
oustees, land oustees and landless laborers (a brief outline to be given)
There is no habitation on the proposed expansion project activity area and it is open land,
so R & R policy is not applicable to this project.
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There shall not be displacement of any population in project area. Any major activity that
may lead to resettlement of the people is considered as permanent impact. Hence, there is
no permanent impact on this account. The increasing industrial activity will boost the
commercial and economical status of the locality up to some extent.
8. Project Schedule & Cost Estimates
8.1 Likely date of start of construction and likely date of completion (Time schedule for
the project to be given).
The project will start only after obtaining Environmental Clearance and all other required
clearance and will complete after two to five years from the date of project
commencement.
8.2 Estimated Project cost along with analysis in terms of economic viability of the
project.
The Capital Cost of the project will be Rs 4800 Crores of which Rs 100 Crores has been
allocated towards Environmental Protection.
Proposed Investment
S. No. Particulars Amount (in Crores)
1. Plant Structure 422
2. Civil Structure 778
3. Effluent treatment & Env. Management 100
4. Infrastructure, Amenities 90
5. Equipment 3310
6. Warehouse & others 100
Total 4800
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9. Analysis of Proposal (Final Recommendations)
9.1 Financial and social benefits with special emphasis on the benefit to be local people
including tribal population, if any, in the area.
• Employment would be as per prevailing norms of state government for skilled and
unskilled people for the proposed expansion project.
• Social Welfare shall be done.
• Cordial relation with the industry shall be established and representation shall be made
to villagers for help for creation of facilities related to health, education, etc.