proposed expansion of optical whitening...
TRANSCRIPT
FORM-I
For
PROPOSED EXPANSION OF OPTICAL WHITENING
AGENT / OPTICAL BRIGHTENER AND TEXTILE &
LEATHER CHEMICALS IN EXISTING UNIT
of
M/s. BASF INDIA LIMITED (UNIT-I)
PLOT NO. 6216, PHASE-IV, G.I.D.C.,
ANKLESHWAR, DIST: BHARUCH-393002, GUJARAT
APPENDIX I
FORM 1 (I) Basic Information
Sr.
No.
Item Details
1. Name of the Project/s M/s. BASF India Ltd. (Unit-I)
2. S.No. in the Schedule 5 (f)
3. Proposed
capacity/area/length/tonnage to be
handled/command area/lease
area/number of wells to be drilled
After Total Proposed expansion Capacity = 6452
MT/Month
4. New/Expansion/Modernization Expansion
5. Existing capacity/area etc. Existing Capacity (on 100% Basis) = 640 MT/Month &
Formulation & Packing Capacity = 2500 MT/Month
6. Category of project i.e. ‘A’ or ‘B’ ‘B’
7. Does it attract the general condition?
If yes, please specify.
8. Does it attract the specific condition?
If yes, please specify.
N.A.
9. Location Plot No. 6216,Phase-IV, GIDC, Ankleshwar, Dist:
Bharuch-393002, Gujarat
Plot/Survey/Khasra No. Plot. No. 6216,
Village GIDC Estate, Ankleshwar
Tehsil Ankleshwar
District Bharuch
State Gujarat
10. Nearest railway station/airport along
with distance in kms.
Nearest Railway Station: Ankleshwar: 4 kms
Nearest Airport: Surat: 60 kms
11. Nearest Town, city, District
Headquarters along with distance in
kms.
Nearest town: Ankleshwar: 4.5 kms, Nearest District
Head quarter: Bharuch: 10 kms
12. Village Panchayats, zillaparishad,
Municipal corporation, Local body
(Complete postal addresses with
telephone nos. to be given)
Notifies Area Authority, Ankleshwar
13. Name of the applicant M/s. BASF India Ltd. (Unit-I)
14. Registered address Plot No. 6216, Phase-IV, GIDC, Ankleshwar, Dist:
Bharuch-393002, Gujarat
15. Address for correspondence:
Name Mr. P. J. Chandak
Designation (Owner/Partner/CEO) Site Director
Address Plot No. 6216, Phase-IV, GIDC, Ankleshwar, Dist:
Bharuch-393002, Gujarat
Pin Code 393002
E-Mail [email protected]
Telephone No. 02646 - 617322/ +918980023652
Fax No. 02646 - 238039
16. Details of Alternative Sites examined,
if any location of these sites should be
shown on a topo sheet.
No
17. Interlinked Projects No
18. Whether separate application of
interlinked project has been
submitted?
Not applicable
19. If Yes, date of submission Not applicable
20. If no., reason Not applicable
21. Whether the proposal involves
approval/clearance under: If yes,
details of the same and their status to
be given.
(a) The Forest (Conservation) Act,
1980?
(b) The Wildlife (Protection) Act,
1972?
(c) The C.R.Z Notification, 1991?
Not applicable, as the project is located in notified
industrial estate.
22. Whether there is any Government
order/policy relevant/relating to the
site?
No
23. Forest land involved (hectares) No
24. Whether there is any litigation
pending against the project and/or
land in which the project is propose to
be set up?
(a) Name of the Court
(b) Case No.
(c) Orders/directions of the Court,
if any and its relevance with the
proposed project.
No
(II) Activity
1. Construction, operation or decommissioning of the Project involving actions, which
will cause physical changes in the locality (topography, land use, changes in water
bodies, etc.)
Sr.
No.
Information/Checklist confirmation Yes
/No?
Details thereof (with approximate quantities /
rates, wherever possible) with source of
information data
1.1 Permanent or temporary change in land
use, land cover or topography including
increase in intensity of land use (with
respect to local land use plan)
No As the project site is in GIDC notified area of
Ankleshwar and is designated for industrial
purpose.
1.2 Clearance of existing land, vegetation
and buildings?
No --
1.3 Creation of new land uses? No --
1.4 Pre-construction investigations e.g. bore
houses, soil testing?
No --
1.5 Construction works? Yes Layout plan is attached as Annexure: 1.
1.6 Demolition works? No --
1.7
Temporary sites used for construction
workers or housing of construction
workers?
No --
1.8 Above ground buildings, structures or
Earthworks including linear structures,
cut and fill or excavations
Yes Layout plan is attached as Annexure: 1.
1.9
Underground works including mining or
tunneling?
No --
1.10 Reclamation works? No --
1.11 Dredging? No --
1.12 Offshore structures? No --
1.13 Production and manufacturing Yes List of Products is attached Annexure: 2 and
manufacturing process is attached as
Annexure: 3.
1.14 Facilities for storage of goods or
materials?
Yes Dedicated storage area for storage of Raw
Materials and finished products, etc. provided.
1.15
Facilities for treatment or disposal of
solid waste or liquid effluents?
Yes Existing Effluent is treated in ETP and the
treated effluent is discharged to FETP of M/s.
NCT through GIDC under-ground drainage for
further treatment & final disposal to deep sea
through common effluent disposal pipeline of
M/s. NCT, Ankleshwar. Disposal of effluent will
be same after expansion.
There will no generate additional effluent due
to expansion.
See Annexure 5 for ETP drawing and Effluent
treatment scheme.
Hazardous/non-hazardous solid waste is
referred as Annexure -6.
1.16 Facilities for long term housing of No --
operational workers?
1.17 New road, rail or sea traffic during
construction or operation?
No --
1.18 New road, rail, air waterborne or other
airports etc?
No --
1.19 Closure or diversion of existing
transport routes or infrastructure
leading to changes in traffic
movements?
No --
1.20 New or diverted transmission lines or
pipelines?
No --
1.21
Impoundment, damming, converting,
realignment or other changes to the
hydrology of watercourses or aquifers?
No --
1.22 Stream crossings? No --
1.23
Abstraction or transfers or the water
form ground or surface waters?
Yes No ground water shall be used. The
requirement of raw water shall be met through
GIDC Water Supply.
1.24
Changes in water bodies or the land
surface affecting drainage or run-off?
No --
1.25
Transport of personnel or materials for
construction, operation or
decommissioning?
Yes Through hired Services
1.26 Long-term dismantling or
decommissioning or restoration works?
No There is no dismantling of any sort. Not
applicable.
1.27 Ongoing activity during
decommissioning which could have an
impact on the environment?
No No Impact on the Environment
1.28
Influx of people to an area in either
temporarily or permanently?
Yes This is a well-developed Industrial Area and
company will give employment to local people.
1.29 Introduction of alien species? No --
1.30 Loss of native species of genetic
diversity?
No --
1.31 Any other actions? No --
2. Use of Natural resources for construction or operation of the Project (such as land, water,
materials or energy, especially any resources which are non-renewable or in short supply):
Sr.
No
Information/checklist confirmation Yes/
No?
Details there of (with approximate
quantities/rates, wherever possible) with
source of information data
2.1 Land especially undeveloped or
agriculture land (ha)
No --
2.2 Water (expected source & competing
users) unit: KLD
Yes Water requirement will be met through the
GIDC Water Supply. For detail water balance is
given as Annexure – 4.
2.3 Minerals (MT) No Not applicable
2.4
Construction material -stone,
aggregates, sand / soil (expected
source MT)
Yes Company shall use Sand, stone, Cement and
Structural Steel for Construction as required.
2.5 Forests and timber (source - MT) No No wood shall be used as construction
material or as a fuel.
2.6
Energy including electricity and fuels
source, competing users Unit: fuel
(MT), energy (MW)
Yes Please refer Annexure -7.
2.7 Any other natural resources (use
appropriates standard units)
No --
3. Use, storage, transport, handling or production of substances or materials, which could be
harmful to human health or the environment or raise concerns about actual or perceived
risks to human health.
Sr.
No.
Information / Checklist confirmation Yes/
No?
Details thereof (with approximate quantities
/ rates wherever possible) with source of
information data
3.1 Use of substances or materials, which
are hazardous (as per MSIHC rules) to
human health or the environment
(flora, fauna, and water supplies)
Yes
Please refer Annexure : 8.
3.2 Changes in occurrence of disease or
affect disease vectors (e.g. insect or
water borne diseases)
No Not applicable as site is located in Ankleshwar
Industrial Area.
3.3 Affect the welfare of people e.g. by
changing living conditions?
No Not applicable as site is located in Ankleshwar
Industrial Area.
3.4
Vulnerable groups of people who could
be affected by the project e.g. hospital
patients, children, the elderly etc.,
No Not applicable as site is located in Ankleshwar
Industrial Area.
3.5 Any other causes No --
4. Production of solid wastes during construction or operation or decommissioning
MT/month)
Sr.
No.
Information/Checklist confirmation Yes/
No?
Details thereof (with approximate
quantities / rates, wherever possible) with
source of information data
4.1 Spoil, overburden or mine wastes No --
4.2
Municipal waste (domestic and or
commercial wastes) No --
4.3
Hazardous wastes (as per Hazardous
Waste Management Rules)
Yes Please refer Annexure: 6
4.4 Other industrial process wastes Yes Please refer Annexure: 6
4.5 Surplus product No --
4.6
Sewage sludge or other sludge from
effluent treatment
Yes Please refer Annexure: 6
4.7 Construction or demolition wastes No --
4.8 Redundant machinery or equipment No --
4.9 Contaminated soils or other materials No --
4.10 Agricultural wastes No --
4.11 Other solid wastes Yes Please refer Annexure: 6
5. Release of pollutants or any hazardous, toxic or noxious substances to air (Kg/hr)
Sr.
No.
Information/Checklist confirmation Yes/
No?
Details thereof (with approximate
quantities/rates, wherever possible) with
source of information data
5.1 Emissions from combustion of fossil
fuels From stationary or mobile
sources
Yes Details of flue & process gas emission are
attached as Annexure: 7
5.2 Emissions from production processes Yes Reactors shall be connected to common
scrubber system.
Details of Air Pollution Control measures are
attached as Annexure: 7
5.3 Emissions from materials handling
including storage or transport
Yes All major liquid raw materials shall be
procured in bulk tankers and shall be
transferred through a closed-circuit pipe
lines by pumps.
Solid raw material shall be handled in closed
charging room / hopper with proper
ventilation and charged through close
pipeline into reactors.
5.4 Emissions from construction activities
including plant and equipment
No Utmost care will be taken during
construction activity and water sprinklers
shall be utilized whenever necessary.
5.5
Dust or odours from handling of
materials including construction
materials, sewage and waste
No --
5.6 Emissions from incineration of waste No --
5.7 Emissions from burning of waste in
open air (e.g. slash materials,
construction debris)
No --
5.8 Emissions from any other sources Yes Please refer Annexure-7.
6. Generation of Noise and Vibration, and Emissions of Light and Heat:
Sr.
No.
Information/Checklist confirmation Yes/
No?
Details there of (with approximate
Quantities /rates, wherever possible) With
source of source of information data
6.1
From operation of equipment e.g.
engines, ventilation plant, crushers
Yes Acoustic enclosures provided for DG set.
6.2 From industrial or similar processes Yes All machinery / equipment shall be well
maintained, shall be proper foundation with
anti-vibrating pads wherever applicable and
noise levels within permissible limits.
Acoustic enclosures provided for DG set.
6.3 From construction or demolition No --
6.4 From blasting or piling No --
6.5 From construction or operational traffic No --
6.6 From lighting or cooling systems No --
6.7 From any other sources Yes Acoustic enclosures provided for DG set.
7. Risks of contamination of land or water from releases of pollutants into the ground
or into sewers, surface waters, groundwater, coastal waters or the sea:
Sr.
No
Information/Checklist confirmation Yes/
No?
Details thereof (with approximate
quantities / rates, wherever possible) with
source of information data
7.1
From handling, storage, use or spillage
of hazardous materials
Yes All the raw material stored separately in
designated storage area and safely. Bund
walls provided around raw materials storage
tanks for containing any liquid spillage.
Other materials stored in bags / drums on
pallets with concrete flooring and no spillage
is likely to occur. Please refer Annexure : 8.
7.2
From discharge of sewage or other
effluents to water or the land
(expected mode and place of
discharge)
Yes Sewage effluent shall be treated in Septic
Tank & Soak Pit and treated along with
industrial effluent and discharge to FETP of
M/s NCT.
7.3
By deposition of pollutants emitted to
air into the land or into water
No --
7.4 From any other sources No Not applicable
7.5 Is there a risk of long term build up of
pollution in the environment from
these sources?
No
Full- fledged Environmental Management
System (EMS) is in place. i.e. ETP, Air
Pollution Control systems, Solid Hazardous
Waste Handling and Management as per
norms, etc. which eliminates the possibility
of building up of pollution.
8. Risks of accident during construction or operation of the Project, which could affect
human health or the environment:
Sr.
No
Information/Checklist confirmation
Yes/
No?
Details thereof (with approximate
quantities / rates, wherever possible) with
source of information data
8.1 From explosions, spillages, fires etc
from storage, handling, use or
production of hazardous substances
Yes The risk assessment will be carried out and
all mitigative measures shall be taken to
avoid accidents.
8.2 From any other causes No Not applicable
8.3 Could the project be affected by natural
disasters causing environmental
damage (e.g. floods, earthquakes,
landslides, cloudburst, etc.)?
No --
9. Factors which should be considered (such as consequential development) which could
lead to environmental effects or the potential for cumulative impacts with other existing
or planned activities in the locality
Sr.
No.
Information/Checklist confirmation Yes/
No?
Details thereof (with approximate quantities
/ rates, wherever possible) with source of
information data
9.1 Lead to development of supporting
facilities, ancillary development or
development stimulated by the project
which could have impact on the
environment e.g.:
* Supporting infrastructure (roads,
power supply, waste or waste water
treatment, etc.)
• housing development
• extractive industries
• supply industries
• other
Yes Site is located in Ankleshwar Industrial Area,
Ankleshwar, having the entire required
infrastructure.
This industrial zone is having existing road
infrastructure, power supply are to be
utilized.
Local people will be employed and no
housing is required.
Please refer Annexure – 9.
9.2
Lead to after-use of the site, which
could have an impact on the
environment
No
--
9.3 Set a precedent for later developments No Not applicable
9.4 Have cumulative effects due to
proximity to Other existing or planned
projects with similar effects
Yes The ETP of the company designed such that
the treated effluent conforms to the
statutory requirement.
The treated effluent sent to FETP of M/s NCT
through GIDC drainage system for further
treatment and final disposal into deep sea
through NCT pipe line.
(III)Environmental Sensitivity
Sr.
No
Information/Checklist confirmation Name /
Identity
Aerial distance (within 25 km).
Proposed Project Location Boundary.
1 Areas protected under international
conventions national or local
legislation for their ecological,
landscape, cultural or other related
value
No As the project site is in GIDC notified
area of Ankleshwar and expansion is
within existing premises.
2 Areas which are important or sensitive
for Ecological reasons - Wetlands,
watercourses or other water bodies,
coastal zone, biospheres, mountains,
forests
No As the project site is in GIDC notified
area of Ankleshwar and expansion is
within existing premises.
3 Areas used by protected, important or
sensitive species of flora or fauna for
breeding, nesting, foraging, resting,
over wintering, migration
No As the project site is in GIDC notified
area of Ankleshwar and expansion is
within existing premises.
4 Inland, coastal, marine or underground
waters
Yes Amla Khadi = 4 Kms
River Narmada = 8 Kms
5 State, National boundaries No --
6 Routes or facilities used by the public
for to recreation or other tourist,
pilgrim areas.
No Not applicable
7 Defense installations No NIL
8 Densely populated or built-up area Yes Ankleshwar = 3 lakhs population
9 Areas occupied by sensitive man-made
land community facilities)
No --
10 Areas containing important, high
quality or scarce resources (ground
water resources, surface resources,
forestry, agriculture, fisheries, tourism,
tourism, minerals)
No --
11 Areas already subjected to pollution or
environmental damage. (those where
existing legal environmental standards
are exceeded)
No --
12 Are as susceptible to natural hazard which
could cause the project to present
environmental problems (earthquakes,
subsidence, landslides, flooding erosion or
extreme or adverse climatic conditions)
- N.A.
IV). Proposed Terms of Reference for EIA studies: For detail please refer Annexure – 10.
I hereby given undertaking that, the data and information given in the application and
enclosures are true to the best of my knowledge and belief and I am aware that if any
part of the data and information submitted is found to be false or misleading at any
stage the project will be rejected and clearance given, if any to the project will be
revoked at our risk and cost.
Date: 07.10.2017 For BASF India Ltd. (Unit-I)
Place: Ankleshwar
P. J. Chandak
(Site Director)
NOTE:
1. The projects involving clearance under Coastal Regulation Zone Notification, 1991 shall be
submitted with the application a C.R.Z. map duly demarcated by one of the authorized
agencies, showing the project activities, w.r.t. C.R.Z. (at the stage of TOR) and the
recommendations of the State Coastal Zone Management Authority (at the stage of EC).
Simultaneous action shall also be taken to obtain the requisite clearance under the
provisions of the C.R.Z. Notification, 1991 for the activities to be located in the CRZ.
2. The projects to be located within 60 km of the National Parks, Sanctuaries, Biosphere
Reserves, Migratory Corridors of Wild Animals, the project proponent shall submit the
map duly authenticated by Chief Wildlife Warden showing these features vis-à-vis the
project location and the recommendations or comments of the Chief Wildlife Warden
thereon (at the stage of EC).
3. All correspondence with the Ministry of Environment & Forests including submission of
application for TOR/Environmental Clearance, subsequent clarifications, as may be
required from time to time, participation in the EAC Meeting on behalf of the project
proponent shall be made by the authorized signatory only. The authorized signatory
should also submit a document in support of his claim of being an authorized signatory
for the specific project.
ANNEXURES
1 PLANT LAYOUT
2 LIST OF PRODUCTS WITH PRODUCTION CAPACITY AND RAW MATERIALS
3 BRIEF MANUFACTRING PROCESS, CHEMICAL REACTION AND MASS
BALANCE WITH FLOW DIAGRAM
4 WATER CONSUMPTION AND EFFLUENT GENERATION WITH SEGREGATION
OF EFFLUENT STREAMS
5 DETAILS OF PROPOSED EFFLUENT TREATMENT PLANT
6 DETAILS OF HAZARDOUS SOLID WASTE MANAGEMENT AND DISPOSAL
7 DETAILS OF AIR POLLUTION CONTROL MEASURES
8 DETAILS OF HAZARDOUS CHEMICAL STORAGE FACILITY
9 SOCIO - ECONOMIC IMPACTS
10 PROPOSED TERMS OF REFERENCES
11 GIDC WATER SUPPLY LETTER
12 TREATED EFFLUENT DISCHARGE – NCT MEMBER CERTIFICATE
13 BEIL MEMBERSHIP CERTIFICATE
14 GIDC PLOT ALLOTMENT LETTER
15 COPY OF CONSENT TO OPERATE
ANNEXURE: 2
LIST OF PRODUCTS WITH PRODUCTION CAPACITY
Sr. No.
Existing Production in MT / Month Proposed Production in MT / Month
Products Name Quantity Products Name Total Quantity After Proposed
1 Sulphanilic Acid 40 Manufacturing, Formulation, Drying, Mixing & Packing of OPTICAL WHITENING AGENT/OPTICAL BRIGHTENER
3140
2 Formulation & Packing of OPTICAL WHITENING AGENT/OPTICAL BRIGHTENER Formulation including additives (Marketable Basis)
2500
3 Optical Whitening Agent / Optical Brightener (On 100% Basis)
600
4 -- -- Manufacturing, Formulation, Mixing & Packing of Textile and Leather Chemicals : Binders, Auxiliaries Chemicals for tanning & finishing agents such as textile, dispersions, lacquers, pigments, lepton colours.
1500
5 -- -- Floating agents 60
6 -- -- Spray Drying, formulation and Packing of Water Treatment Chemicals & Paper Dyes ( Sokalan, Magnafloc, Pergasol & Irgalite)
1750
7 -- -- R&D Products on Pilot Plant Scale
2
Total 3100 -- 6452
Product List along with CAS Number. Sr. No.
NAME OF PRODUCTS CAS No.
A Manufacturing, Formulation, Drying, Mixing & Packing of OPTICAL WHITENING AGENT/OPTICAL BRIGHTENER
--
1 Tinopal DMA-X 16090-02-1
Tinopal DMA-X CONC
2 Tinopal BA 4193-55-9
Tinopal BMK
Tinopal UP LIQUID
Tinopal BHT HC LIQUID
Tinopal NP SLURRY
3 Tinopal ABP-X HC 16470-24-9
Tinopal ABP-A LIQUID
Tinopal ABA LIQUID
4 Tinopal 5BM-GX 13863-31-5
5 Tinopal SFP 41098-56-0
Tinopal SPP-Z LIQUID
Tinopal SHP LIQUID
Tinopal AS LIQUID
6 Tinopal ASP LIQUID 67786-25-8
7 Tinopal BOP EXTRA 12224-02-1
B Manufacturing, Formulation, Mixing & Packing of Textile and Leather Chemicals : Binders, Auxiliaries Chemicals for tanning & finishing agents such as textile, dispersions, lacquers, pigments, lepton colours.
--
1 Cyclanon Clear ECO Plus / New
Mictures of 149-44-0 2634-33-5 Cyclanon Wff XC-W New
3 Dekol Wff RSA / SN Mixtures of 112-34-5 110-16-7 55965-84-9
2 Densotan CP Mictures of 111-46-6
Ekoline Easy Care
Fixapret Cat F-M 50-00-0
Fixapret Resin F-ECO
3 Heliz.Binder CFF Mixtures of 136132-73-5 9043-30-5
4 Kieralon Antiper FB-PK Mixtures of 60875-66-1 69011-36-5 67-63-0 157627-86-6 111190-40-0 157627-86-6 126-30-7 2809-21-4 110-16-7
Kieralon Antiper X-CP
Kieralon Desize HP
Kieralon Wash F-ALB
Kieralon Wash F-ALB Plus
Kieralon F-ALB Plus
Kieralon Wash JET-B
Kieralon Wash FB-OL New
Kieralon Wash FB-OLS New
Kieralon Wash FB-XC-J Conc.
Kieralon Wash JET-B / Conc.
Kieralon Wash MFB
5 Lufibrol Extr CP Mixtures of 2399-85-1 5064-31-3 2399-85-1 77-92-9 2809-21-4 55965-84-9
Lufibrol Extr SE
Lufibrol Extr MSD
6 Perapret Add F-PEB Mixtures of 69011-36-5 1310-58-3 69011-36-5 1310-58-3
Perapret Add TX 2517
7 Prestogen Stab D Mixtures of 140-01-2 7664-93-9
Prestogen Stab FB-E
Prestogen Stab FB-PL
8 Primasol Deaer NF Mixtures of 298-07-7 78-42-2 4971-47-5 34590-94-8 166736-08-9 157627-86-6 104-76-7
Primasol Deaer NF New
9 Rongalit Dcharge ST Lq. Mixtures of 149-44-0 7664-41-7
10 Siligen Soft FB-NCE Mixtures of 93-82-3 2634-33-5 112-34-5 69011-36-5 75718-16-0
Siligen Soft SIH
Siligen Soft SIS / YS
Siligen Soft TX HQS 68153-35-5 67-63-0
11 Uniperol Buffer PC Mixtures of 5949-29-1 64-18-6 68603-87-2 55965-84-9 26635-92-7 500-015-7 69011-36-5 9004-96-0
Uniperol Buffer TX P-DP
Uniperol Level RD
Uniperol Level SE
Uniperol Level SF ECO
12 Tamol FB LI Mixture of 91-20-3 7664-93-9 50-00-0 1310-73-2
Tamol M (REF)
Tamol NNOL Mixture of 108-95-2 50-00-0 57-13-6 7664-93-9
Tamol XNL Mixture of 124-04-9 1132-18-5 1310-73-2 50-70-4
13 Relugan D / DI Mixture of 124-04-9 1132-18-5 1310-73-2 50-70-4 50-00-0 7631-90-5
Relugan SLF / DLF Mixture of 50-00-0 1310-73-2 57-13-6 7631-90-5 64-18-6 29405-16-1
14 Basyntan AN Mixture of 108-95-2 1310-73-2 57-13-6 117985-54-3 102980-04-1 50-00-0 7757-82-6 1336-21-6 108-78-1
Basyntan ANF
Basyntan AN Condensate
Basyntan DLE
Basyntan DX
Basyntan FB DI
Basyntan FB. P
Basyntan XA
C Floating agents Mixture of 9003-11-6 64742-47-8 68526-89-6.
D Spray Drying, formulation and Packing of Water Treatment Chemicals & Paper Dyes ( Sokalan, Magnafloc, Pergasol & Irgalite)
--
E R&D Products on Pilot Plant Scale
--
LIST OF RAW MATERIALS:
Sr. No.
Name of the product
Material CAS Number Quantity (MT/Month)
Existing Proposed Total
A. Manufacturing, Formulation, Drying, Mixing & Packing of OPTICAL WHITENING AGENT/OPTICAL BRIGHTENER
1 Tinopal DMA-X
Aniline 62-53-3 21.5 0.0 21.5
Baykanol 1.72 0.0 1.72
Cyanuric Chloride 108-77-0 43.0 0.0 43.0
DASDA 81-11-8 43.645 0.0 43.65
Hyflo 68855-54-9 0.645 0.0 0.65
Morpholine 110-91-8 19.78 0.0 19.78
Sodium Chloride 7647-14-5 24.94 0.0 24.94
Sodium Hydroxide 1310-73-2 58.05 0.0 58.05
OT 70% 63148-62-9 0.065 0.0 0.06
Soda Ash 497-19-8 22.145 0.0 22.15
2 Tinopal DMA-X Conc
Aniline 62-53-3 54.0 0.0 54.0
Baykanol 1.62 0.0 1.62
Cyanuric Chloride 108-77-0 108.0 0.0 108.0
DASDA 81-11-8 109.62 0.0 109.62
Hyflo 68855-54-9 0.216 0.0 0.22
Morpholine 110-91-8 49.68 0.0 49.68
Sodium Chloride 7647-14-5 38.88 0.0 38.88
Sodium Hydroxide 1310-73-2 136.08 0.0 136.08
OT 70% 63148-62-9 0.162 0.0 0.16
Soda Ash 497-19-8 38.88 0.0 38.88
3 Tinopal BA
Aniline 62-53-3 0.105 0.0 0.11
Cyanuric Chloride 108-77-0 0.225 0.0 0.23
DASDA 81-11-8 0.224 0.0 0.22
DEA 85% 111-42-2 0.192 0.0 0.19
Hydrochloric Acid 7647-01-0 0.325 0.0 0.33
Hyflo 68855-54-9 0.003 0.0 0.0
Sodium Chloride 7647-14-5 0.211 0.0 0.21
Sodium Hydroxide 1310-73-2 0.431 0.0 0.43
OT 70% 63148-62-9 0.00038 0.0 0.0
Soda Ash 497-19-8 0.068 0.0 0.07
4 Tinopal BMK
Aniline 62-53-3 7.312 0.0 7.31
Cyanuric Chloride 108-77-0 14.4 0.0 14.4
DASDA 81-11-8 14.848 0.0 14.85
DEA 85% 111-42-2 9.28 0.0 9.28
Hyflo 68855-54-9 0.16 0.0 0.16
Sodium Chloride 7647-14-5 18.32 0.0 18.32
Sodium Hydroxide 1310-73-2 16.0 0.0 16.0
OT 70% 63148-62-9 0.024 0.0 0.02
Soda Ash 497-19-8 5.216 0.0 5.22
STPP 7758-29-5 0.448 0.0 0.45
5 Tinopal UP liquid
Aniline 62-53-3 1.402 0.0 1.4
Cyanuric Chloride 108-77-0 2.998 0.0 3.0
DASDA 81-11-8 2.981 0.0 2.98
DEA 85% 111-42-2 2.558 0.0 2.56
Hydrochloric Acid 7647-01-0 4.33 0.0 4.33
Hyflo 68855-54-9 0.033 0.0 0.03
Hyflo 68855-54-9 0.999 0.0 1.0
Sodium Chloride 7647-14-5 0.150 0.0 0.15
Sodium Hydroxide 1310-73-2 4.197 0.0 4.2
OT 70% 63148-62-9 0.005 0.0 0.0
Soda Ash 497-19-8 0.899 0.0 0.9
Urea 57-13-6 7.328 0.0 7.33
6 Tinopal BHT HC
Aniline 62-53-3 3.368 0.0 3.37
Cyanuric Chloride 108-77-0 7.2 0.0 7.2
DASDA 81-11-8 7.16 0.0 7.16
DEA 85% 111-42-2 5.16 0.0 5.16
Hydrochloric Acid 7647-01-0 10.4 0.0 10.4
Hyflo 68855-54-9 0.08 0.0 0.08
Sodium Chloride 7647-14-5 0.4 0.0 0.4
Sodium Hydroxide 1310-73-2 9.128 0.0 9.13
OT 70% 63148-62-9 0.012 0.0 0.01
Soda Ash 497-19-8 2.16 0.0 2.16
TEA 121-44-8 8.0 0.0 8.0
Urea 57-13-6 8.0 0.0 8.0
7 Tinopal NP Slurry
Aniline 62-53-3 2.105 0.0 2.11
Cyanuric Chloride 108-77-0 4.5 0.0 4.5
DASDA 81-11-8 4.475 0.0 4.48
DEA 85% 111-42-2 3.84 0.0 3.84
Glutaldhyde 111-30-8 0.095 0.0 0.1
Hyflo 68855-54-9 0.05 0.0 0.05
Sodium Chloride 7647-14-5 0.225 0.0 0.23
Sodium Hydroxide 1310-73-2 6.3 0.0 6.3
OT 70% 63148-62-9 0.008 0.0 0.01
Preventol 2634-33-5 0.26 0.0 0.26
Soda Ash 497-19-8 1.35 0.0 1.35
Xanthan gum 11138-66-2 0.095 0.0 0.1
8 Tinopal ABP-X HC
Cyanuric Chloride 108-77-0 6.0 0.0 6.0
DASDA 81-11-8 6.092 0.0 6.09
DEA 85% 111-42-2 4.352 0.0 4.35
Hyflo 68855-54-9 0.088 0.0 0.09
Sodium Chloride 7647-14-5 8.4 0.0 8.4
Sodium Hydroxide 1310-73-2 7.496 0.0 7.5
OT 70% 63148-62-9 0.009 0.0 0.01
Soda Ash 497-19-8 3.6 0.0 3.6
Sulphanilic acid 121-57-3 5.748 0.0 5.75
9 Tinopal ABP-A
Cyanuric Chloride 108-77-0 22.501 0.0 22.5
DASDA 81-11-8 21.451 0.0 21.45
DEA 85% 111-42-2 12.901 0.0 12.9
Glutaldhyde 111-30-8 5.4 0.0 5.4
Hyflo 68855-54-9 0.66 0.0 0.66
Sodium Hydroxide 1310-73-2 26.251 1.0 27.25
OT 70% 63148-62-9 0.034 2.0 2.03
Preventol 2634-33-5 0.75 3.0 3.75
Soda Ash 497-19-8 15.676 0.0 15.68
Sulphanilic acid 121-57-3 21.616 0.0 21.62
10 Tinopal ABA
Cyanuric Chloride 108-77-0 0.75 0.0 0.75
DASDA 81-11-8 0.715 0.0 0.72
DEA 85% 111-42-2 0.43 0.0 0.43
Hyflo 68855-54-9 0.022 0.0 0.02
Sodium Hydroxide 1310-73-2 0.875 0.0 0.88
OT 70% 63148-62-9 0.001 0.0 0.0
Soda Ash 497-19-8 0.523 0.0 0.52
Sulphanilic acid 121-57-3 0.721 0.0 0.72
11 Tinopal 5BM
Aniline 62-53-3 10.195 0.0 10.19
Cyanuric Chloride 108-77-0 20.39 0.0 20.39
DASDA 81-11-8 20.696 0.0 20.7
DAXAD 60L 0.408 0.0 0.41
Hyflo 68855-54-9 0.306 0.0 0.31
Sodium Chloride 7647-14-5 16.842 0.0 16.84
Sodium Hydroxide 1310-73-2 25.691 0.0 25.69
N-Methylethanolamine
109-83-1 8.849 0.0 8.85
OT 70% 63148-62-9 0.031 0.0 0.03
Soda Ash 497-19-8 6.117 0.0 6.12
12 Tinopal SFP
2,5 SA 98-44-2 0.555 0.0 0.56
Bay Pure 0.014 0.0 0.01
Cyanuric Chloride 108-77-0 0.375 0.0 0.38
DASDA 81-11-8 0.376 0.0 0.38
Diethyl amine 109-89-7 0.163 0.0 0.16
Hyflo 68855-54-9 0.006 0.0 0.01
Sodium Chloride 7647-14-5 0.875 0.0 0.88
Sodium Hydroxide 1310-73-2 0.576 0.0 0.58
OT 70% 63148-62-9 0.001 0.0 0.001
Soda Ash 497-19-8 0.146 0.0 0.15
13 Tinopal SPP-Z
2,5 SA 98-44-2 6.66 0.0 6.66
Cyanuric Chloride 108-77-0 4.5 0.0 4.5
DASDA 81-11-8 4.185 0.0 4.19
Diethyl amine 109-89-7 1.8 0.0 1.8
Hyflo 68855-54-9 0.096 0.0 0.1
Sodium Hydroxide 1310-73-2 9.507 0.0 9.51
OT 70% 63148-62-9 0.007 0.0 0.01
Soda Ash 497-19-8 0.252 0.0 0.25
14 Tinopal SHP
2,5 SA 98-44-2 2.22 0.0 2.22
Cyanuric Chloride 108-77-0 1.5 0.0 1.5
DASDA 81-11-8 1.502 0.0 1.5
Diethyl amine 109-89-7 0.65 0.0 0.65
Hyflo 68855-54-9 0.022 0.0 0.02
Sodium Chloride 7647-14-5 3.5 0.0 3.5
Sodium Hydroxide 1310-73-2 2.303 0.0 2.3
OT 70% 63148-62-9 0.002 0.0 0.0
PEG 1500 25322-68-3 9.375 0.0 9.38
Soda Ash 497-19-8 0.585 0.0 0.59
15 Tinopal AS
2,5 SA 98-44-2 5.975 0.0 5.98
Cyanuric Chloride 108-77-0 4.037 0.0 4.04
DASDA 81-11-8 3.755 0.0 3.75
Diethyl amine 109-89-7 1.615 0.0 1.61
Hyflo 68855-54-9 0.086 0.0 0.09
Sodium Hydroxide 1310-73-2 8.529 0.0 8.53
OT 70% 63148-62-9 0.006 0.0 0.01
Soda Ash 497-19-8 1.574 0.0 1.57
TEA 121-44-8 1.023 0.0 1.02
16 Tinopal ASP
Cyanuric Chloride 108-77-0 4.439 0.0 4.44
DASDA 81-11-8 4.291 0.0 4.29
DDA 3.699 0.0 3.70
Hyflo 68855-54-9 0.067 0.0 0.07
Sodium Hydroxide 1310-73-2 5.179 0.0 5.18
OT 70% 63148-62-9 0.007 0.0 0.01
Soda Ash 497-19-8 3.078 0.0 3.08
Sulphanilic acid 121-57-3 4.261 0.0 4.26
17 Tinopal BOP Extra
Cyanuric Chloride 108-77-0 3.0 0.0 3.0
DASDA 81-11-8 2.874 0.0 2.87
DEA 85% 111-42-2 2.86 0.0 2.86
Metanilic Acid 121-47-1 2.896 0.0 2.9
Sodium Chloride 7647-14-5 15.92 0.0 15.92
Sodium Hydroxide 1310-73-2 4.13 0.0 4.13
OT 70% 63148-62-9 0.005 0.0 0.01
Soda Ash 497-19-8 1.98 0.0 1.98
B. Textile and Leather Chemicals : Binders, Auxiliaries Chemicals for tanning & finishing agents such as textile, dispersions, lacquers, pigments, lepton colours.
1 Cyclanon Clear ECO Plus
- - -
Sodium Formaldehyde Sulfoxylate
149-44-0 0.0 8.0 8.0
2 Cyclanon Wff XC-W New
- - -
Dekol Dis SN 9003-04-7 0.0 2.46 2.46
ACTICIDE MBS Mixture of 2634-33-5 2682-20-4
0.0 0.06 0.06
Cyclanon 66 Mixture of 2682-20-4 7732-18-5
0.0 6.42 6.42
GLUCONIC ACID 526-95-4 0.0 0.72 0.72
DETPMPA (HEPTASODIUM SALT)
Mixture of 22042-96-2 7647-14-5
0.0 0.63 0.63
3 Dekol Wff RSA - - -
BUTYLDIGLYCOL 112-34-5 0.0 0.2 0.2
Luviskol K30 Powder
9003-39-8 0.0 1.0 1.0
Sokalan CP 5 52255-49-9 0.0 1.0 1.0
ACTICIDE MV 55965-84-9 0.0 0.16 0.16
4 Densotan CP 150KG 1H2
- - -
Fixapret Resin F-ECO
111-46-6 0.0 5.5 5.5
5 Ekoline Easy Care
- - -
Fixapret Resin F-ECO
111-46-6 0.0 5.4 5.4
6 Fixapret Cat F-M
- - -
AMMONIUM CHLORIDE
12125-02-9 0.0 0.28 0.28
MAGN CHLORO HEX HYD
7786-30-3 0.0 9.72 9.72
Hydrochloric Acid 7647-01-0 0.0 0.14 0.14
7 Fixapret Resin F-ECO
- - -
Glyoxal 172-22-2 0.0 5.84 5.84
Diethylene glycol 111-46-6 0.0 5.18 5.18
Sodium Hydroxide 1310-73-2. 0.0 0.44 0.44
TG Urea 57-13-6 0.0 2.42 2.42
PHOSPHORIC ACID
7664-38-2. 0.0 0.44 0.44
Formaldehyde 50-00-0 0.0 5.68 5.68
8 Heliz.Binder CFF
- - -
Luprintol Emuls PE 136132-73-5 0.0 0.45 0.45
Heliz Binder Tow 111-46-6 0.0 8.3 8.3
TRI ALCHOHOL 3 EO MOLE
068131-40-8 0.0 0.35 0.35
9 Kieralon Antiper FB-PK
- - -
Sodium Carbonate 497-19-8 0.0 0.08 0.08
Sodium Thiosulp Pentahydrate
10102-17-7 0.0 9.02 9.02
10 Kieralon Antiper X-CP
- - -
Sodium Chloride 7647-14-5 0.0 3.8 3.8
OXY-GONE T400 Mixture of 9001-05-2 7647-14-5 61-32-04-3 13472-35-0
0.0 0.9 0.9
PROXEL XL 2 2634-33-5 0.0 0.02 0.02
11 Kieralon Desize HP
- - -
Aquazym Ultra 9000-90-2 0.0 0.8 0.8
Sorbitol solution 50-70-4 0.0 2.0 2.0
Proxel XL. 2634-33-5 0.0 0.02 0.02
12 Kieralon Wash F-ALB
- - -
BUTYLDIGLYCOL 112-34-5 0.0 2.1 2.1
SEQUCEL HD (DEQUEST 2010)
2809-21-4 0.0 1.5 1.5
TRI ALCHOHOL 5 ED MOLE
9043-30-5 0.0 4.5 4.5
TEGO Antifoam 556-67-2 0.0 0.15 0.15
793
Isopropanol 67-63-0 0.0 0.9 0.9
Lutensol Tex XP 50 160875-66-1 0.0 12.0 12.0
13 Kieralon Wash F-ALB Plus
- - -
Amkal NX 27213-90-7 0.0 0.05 0.05
FATTY ALCOHOL 6 EO
68002-97-1. 0.0 1.5 1.5
Lutensol XP 80 160875-66-1 0.0 2.0 2.0
TEGO Antifoam 793
556-67-2 0.0 0.06 0.06
14 Kieralon F-ALB Plus
- - -
Lutensol XP 80 160875-66-1 0.0 1.5 1.5
Lutensol TO 8 69011-36-5 0.0 1.5 1.5
Lutensol TO 6 69011-36-5 0.0 1.0 1.0
Hansa AFC 5060 SP
0.0 0.08 0.08
15 Kieralon Wash JET-B
- - -
TEGO Antifoam 793
0.0 0.06 0.06
Amkal NX 27213-90-7 0.0 0.05 0.05
FATTY ALCOHOL 6 EO
68002-97-1. 0.0 1.5 1.5
Lutensol XP 80 160875-66-1 0.0 2.0 2.0
16 Kieralon Wash FB-OL New
- - -
Amkal NX 25KG 27213-90-7 0.0 0.1 0.1
FATTY ALCOHOL 6 EO
68002-97-1. 0.0 6.5 6.5
17 Kieralon Wash FB-OLS New
- - -
Lutensol TO 6 69011-36-5 0.0 4.5 4.5
Amkal NX 27213-90-7 0.0 0.08 0.08
18 Kieralon Wash FB-XC-J Conc.
- - -
TEGO Antifoam 793
556-67-2 0.0 0.08 0.08
Lutensol Tex XL 160875-66-1 0.0 8.0 8.0
19 Kieralon Wash JET-B Conc.
- - -
Pluriol P 2000 25322-69-4 0.0 1.0 1.0
TEGOSIPON 3062 67674-67-3 0.0 0.2 0.2
TRI ALCHOHOL 5 ED MOLE
9043-30-5 0.0 5.5 5.5
Isopropanol 67-63-0 0.0 0.1 0.1
TRI ALCOHOL 3 EO MOLE
068131-40-8 0.0 2.3 2.3
20 Kieralon Wash MFB
- - -
Plurafac LF 431 168255-97-8 0.0 4.0 4.0
Neol Neopentylglycol Solution 90%_ALT bu
126-30-7 0.0 1.8 1.8
Sokalan CP 12 S 110-16-7 0.0 2.0 2.0
SEQUCEL HD (DEQUEST 2010)
2809-21-4 0.0 1.2 1.2
Lutensol AO 5 64425-86-1 0.0 5.0 5.0
Lutensol AO 7 64425-86-1 0.0 3.8 3.8
21 Lufibrol Extr CP
- - -
Na gluconate (M1154)
527 -07-1 0.0 3.0 3.0
ACTICIDE MV 55965-84-9 0.0 0.04 0.04
Citric Acid 77-92-9 0.0 3.0 3.0
Aquacid 105 Ex 2809-21-4 0.0 3.0 3.0
22 Lufibrol Extr SE
- - -
Sokalan CP 12 S 110-16-7 0.0 1.97 1.97
Potassium Hydroxide
1310-58-3 0.0 0.43 0.43
Trilon M lq. 164462-16-2 0.0 4.99 4.99
23 Lufibrol Extr MSD
- - -
NTA SOLID 97% 139-13-9 0.0 0.6 0.6
NTA TRISOD SALT PDR
5064-31-3 0.0 1.8 1.8
Potassium Hydroxide
1310-58-3 0.0 0.7 0.7
Sokalan CP 12 S 110-16-7 0.0 2.0 2.0
24 Perapret Add F-PEB
- - -
Lutensol TO 8 69011-36-5 0.0 4.69 4.69
SAVOX BW 300 68441-17-8 0.0 13.44 13.44
Potassium Hydroxide
1310-58-3 0.0 0.35 0.35
25 Perapret Add TX 2517
- - -
Wacker Finish CT 54 E
69011-36-5 0.0 0.4 0.4
Lutensol TO 8 69011-36-5 0.0 0.2 0.2
Perapret Add F-PEB
Mixture of 69011-36-5 1310-58-3 7732-18-5
0.0 9.0 9.0
26 Prestogen Stab D
- - -
Trilon C Lq. 140-01-2 0.0 10.7 10.7
Dekol Dis SN 9003-04-7 0.0 10.7 10.7
MAGN CHLORO HEX HYD
7786-30-3 0.0 12.8 12.8
Sulphuric acid 7664-93-9 0.0 2.5 2.5
GLUCONIC ACID 526-95-4 0.0 10.7 10.7
DETPMPA (HEPTASODIUM SALT)
Mixture of 22042-96-2 7647-14-5
0.0 10.3 10.3
27 Prestogen Stab FB-E
- - -
MAGN CHLORO HEX HYD
7786-30-3 0.0 1.34 1.34
Proxel GXL Mixture of 3634-33-5 25265-71-8 7732-18-5
0.0 0.04 0.04
Sulphuric acid 7664-93-9 0.0 0.08 0.08
GLUCONIC ACID 526-95-4 0.0 0.76 0.76
DETPMPA (HEPTASODIUM SALT)
Mixture of 22042-96-2 7647-14-5
0.0 1.9 1.9
28 Prestogen Stab FB-PL
- - -
Proxel GXL Mixture of 3634-33-5 25265-71-8 7732-18-5
0.0 0.02 0.02
MAGN CHLORO HEX HYD
7786-30-3 0.0 0.7 0.7
Sulphuric acid 7664-93-9 0.0 0.04 0.04
GLUCONIC ACID 526-95-4 0.0 0.4 0.4
DETPMPA (HEPTASODIUM SALT)
Mixture of 22042-96-2 7647-14-5
0.0 1.0 1.0
29 Primasol Deaer NF
- - -
Primasol NF 100 4971-47-5 0.0 4.51 4.51
Ammonia 1336-21-6 0.0 0.78 0.78
30 Primasol Deaer NF New
- - -
PHOSPHOROUS PENTOXIDE
1314-56-3 0.0 7.07 7.07
PHOSPHORIC ACID TRIS(2-ETHYLHEXYL) ESTER
78-42-2 0.0 2.8 2.8
Lutensol XA 40 166736-08-9 0.0 2.8 2.8
Solvenon DPM 34590-94-8 0.0 4.55 4.55
Lutensol Tex AO 7 157627-86-6 0.0 1.12 1.12
Ammonia 1336-21-6 0.0 8.05 8.05
2-ETHYL-HEXANOL
104-76-7 0.0 19.18 19.18
31 Rongalit Dcharge ST Lq.
- - -
Sodium Formaldehyde Sulfoxylate
149-44-0 0.0 40.0 40.0
Ammonia 1336-21-6 0.0 5.84 5.84
32 Siligen Soft FB-NCE
- - -
Product NF 100 190454-07-0 0.0 3.2 3.2
Proxel GXL Mixture of 3634-33-5 25265-71-8 7732-18-5
0.0 0.04 0.04
33 Siligen Soft SIH
- - -
Lutensol TO 8 69011-36-5 0.0 0.8 0.8
Wetsoft NE 820 112-34-5 0.0 3.8 3.8
Wetsoft NE 810 112-34-5 0.0 11.3 11.3
TRI ALCHOHOL 5 ED MOLE
9043-30-5 0.0 2.2 2.2
34 Siligen Soft SIS
- - -
Lutrol E 400 25322-68-3 0.0 0.6 0.6
Lutensol TO 8 69011-36-5 0.0 0.48 0.48
Wacker Finish WR-301 CN
Mixture of 102782-92-3 556-67-2 209-136-7
0.0 2.9 2.9
Acetic acid 64-19-7 0.0 0.06 0.06
TRI ALCHOHOL 5 ED MOLE
9043-30-5 0.0 1.24 1.24
35 Siligen Soft TX HQS
- - -
BUTYLDIGLYCOL 112-34-5 0.0 1.0 1.0
Tegopren 6924 0.0 2.4 2.4
Lutensol TO 8 69011-36-5 0.0 0.2 0.2
Lutensol TO 5 69011-36-5 0.0 0.5 0.5
Acetic acid 64-19-7 0.0 0.02 0.02
36 Uniperol Buffer PC
- - -
Decaltal Pic S 68603-87-2 0.0 0.44 0.44
Citric Acid, monohydrate
5949-29-1 0.0 8.76 8.76
37 Uniperol Buffer TX P-DP
- - -
Formic Acid 64-18-6 0.0 3.0 3.0
Decaltal Pic S 68603-87-2 0.0 0.2 0.2
Citric Acid, monohydrate
5949-29-1 0.0 3.0 3.0
ACTICIDE MV 55965-84-9 0.0 0.04 0.04
38 Uniperol Level RD
- - -
Dekol Dis SN 9003-04-7 0.0 10.0 10.0
Sokalan CP 12 S 110-16-7 0.0 1.5 1.5
Sodium Hydroxide 1310-73-2. 0.0 0.8 0.8
Aquacid 1067 EX 22042-96-2 0.0 6.6 6.6
39 Uniperol Level SE
- - -
Formic Acid 64-18-6 0.0 0.01 0.01
Igesol HS-30 0.0 0.1 0.1
KATARANG SD 67762-27-0 0.0 4.8 4.8
NOIGEN 13001-LIQUID
68439-49-6 0.0 5.2 5.2
NOIGEN SA 10 26635-92-7 0.0 5.0 5.0
40 Uniperol Level SF ECO
- - -
DIPROP GLYC (RM)
25265-7-8 0.0 6.0 6.0
TRI ALCHOHOL 5 ED MOLE
9043-30-5 0.0 1.0 1.0
Oleic acid ethoxylated (4,7
9004-96-0 0.0 3.0 3.0
EO)
Castor Oil ethoxylated (47 EO)
8001-79-4 0.0 4.0 4.0
TURKEY RED OIL 70%
8002-33-3 0.0 0.2 0.2
41 Tamol FB LI - - -
Crude Naphthalene 91-20-3 0.0 7.64 7.64
Sulphuric acid 7664-93-9 0.0 8.06 8.06
Formaldehyde 50-00-0 0.0 3.2 3.2
Sodium Hydroxide 1310-73-2. 0.0 8.3 8.3
42 Tamol M (REF)
- - -
Refined Naphthalene
91-20-3 0.0 11.46 11.46
Sulphuric acid 7664-93-9 0.0 12.09 12.09
Formaldehyde 50-00-0 0.0 5.7 5.7
Sodium Hydroxide 1310-73-2. 0.0 12.45 12.45
43 Tamol NNOL - - -
Phenol 108-95-2 0.0 8.64 8.64
Sulphuric acid 7664-93-9 0.0 10.75 10.75
TG Urea 57-13-6 0.0 5.9 5.9
Formaldehyde 50-00-0 0.0 12.32 12.32
Sodium Hydroxide 1310-73-2. 0.0 21.5 21.5
Sulphuric acid 7664-93-9 0.0 1.5 1.5
Metaclaw CL liq 64-02-8 0.0 0.25 0.25
44 Tamol XNL - - -
Decaltal PIC A Micture of 124-04-9 1132-18-5
0.0 2.75 2.75
Acetic acid 64-19-7. 0.0 4.0 4.0
Sodium Hydroxide 1310-73-2. 0.0 7.89 7.89
PEG 200 (Pluriol E200)
25322-68-3 0.0 1.84 1.84
Sorbitol solution 50-70-4 0.0 2.74 2.74
Sodium bisulphite 7631-90-5 0.0 0.4 0.4
45 Relugan D / DI - - -
Sodium bisulphite 7631-90-5 0.0 10.15 10.15
Formaldehyde 50-00-0 0.0 9.8 9.8
Tamol M Mixture of 124-04-9 1132-18-5 1310-73-2 50-70-4
0.0 16.1 16.1
Melamine 108-78-1 0.0 2.45 2.45
TG Urea 57-13-6 0.0 11.55 11.55
Formaldehyde 50-00-0 0.0 9.1 9.1
46 Relugan SLF / DLF
- - -
Formaldehyde 50-00-0 0.0 23.77 23.77
Sodium Hydroxide 1310-73-2. 0.0 0.07 0.07
TG Urea 57-13-6 0.0 7.7 7.7
Sodium bisulphite 7631-90-5 0.0 21.0 21.0
Formic acid 64-18-6 0.0 0.18 0.18
Sodium Hydroxide 1310-73-2. 0.0 2.1 2.1
Alkaline DX solution 29405-16-1 0.0 30.24 30.24
Decaltal PIC 68603-87-2 0.0 0.53 0.53
Sodium sulphate 7757-82-6 0.0 2.8 2.8
47 Basyntan AN - - -
Phenol 108-95-2 0.0 3.38 3.38
Sulphuric acid 7664-93-9 0.0 4.12 4.12
TG Urea 57-13-6 0.0 2.16 2.16
Formaldehyde 50-00-0 0.0 3.34 3.34
Sodium Hydroxide 1310-73-2. 0.0 4.0 4.0
AN- Condensate 117985-54-3 0.0 14.02 14.02
Formaldehyde 50-00-0 0.0 0.68 0.68
Formic acid 64-18-6 0.0 0.55 0.55
Sodium sulphate 7757-82-6 0.0 0.8 0.8
48 Basyntan ANF - - -
Phenol 108-95-2 0.0 2.12 2.12
Sulphuric acid 7664-93-9 0.0 2.7 2.7
TG Urea 57-13-6 0.0 1.38 1.38
Formaldehyde 50-00-0 0.0 2.1 2.1
Sodium Hydroxide 1310-73-2. 0.0 0.8 0.8
Ammonia 1336-21-6 0.0 0.6 0.6
Sodium Hydroxide 1310-73-2. 0.0 1.0 1.0
Sodium bisulphite 7631-90-5 0.0 2.4 2.4
Formaldehyde 50-00-0 0.0 1.83 1.83
Aniline 62-53-3 0.0 0.45 0.45
Melamine 108-78-1 0.0 0.18 0.18
TG Urea 57-13-6 0.0 0.3 0.3
Formaldehyde 50-00-0 0.0 0.92 0.92
Formic acid 64-18-6 0.0 0.05 0.05
Relugan AME 0.0 6.2 6.2
49 Basyntan AN Condensate
- - -
Sodium metabisulphite
007681-57-4 0.0 8.0 8.0
Formaldehyde 50-00-0 0.0 5.77 5.77
Sodium Hydroxide 1310-73-2. 0.0 0.3 0.3
Aniline 62-53-3 0.0 1.34 1.34
Melamine 108-78-1 0.0 0.55 0.55
TG Urea 57-13-6 0.0 0.9 0.9
Formaldehyde 50-00-0 0.0 1.58 1.58
50 Basyntan DLE - - -
Phenol 108-95-2 0.0 3.6 3.6
Sulphuric acid 7664-93-9 0.0 4.29 4.29
TG Urea 57-13-6 0.0 2.49 2.49
Formaldehyde 50-00-0 0.0 5.89 5.89
Sodium Hydroxide 1310-73-2. 0.0 0.71 0.71
Phenol 108-95-2 0.0 2.39 2.39
Metaclaw CL liq 64-02-8 0.0 0.1 0.1
Formaldehyde 50-00-0 0.0 1.63 1.63
Sodium Hydroxide 1310-73-2. 0.0 3.5 3.5
Decaltal PIC A Micture of 124-04-9 1132-18-5
0.0 0.8 0.8
Sulphuric acid 7664-93-9 0.0 0.05 0.05
Sodium hydro sulfite
7775-14-6 0.0 0.01 0.01
51 Basyntan DX - - -
Phenol 108-95-2 0.0 5.18 5.18
Sulphuric acid 7664-93-9 0.0 6.45 6.45
TG Urea 57-13-6 0.0 3.54 3.54
Formaldehyde 50-00-0 0.0 7.39 7.39
Sodium Hydroxide 1310-73-2. 0.0 11.4 11.4
Sulphuric acid 7664-93-9 0.0 0.9 0.9
52 Basyntan FB DI
- - -
Phenol 108-95-2 0.0 5.4 5.4
Sulphuric acid 7664-93-9 0.0 6.44 6.44
TG Urea 57-13-6 0.0 3.68 3.68
Formaldehyde 50-00-0 0.0 8.83 8.83
Sodium Hydroxide 1310-73-2. 0.0 1.07 1.07
Phenol 108-95-2 0.0 3.6 3.6
Metaclaw CL liq 64-02-8 0.0 0.15 0.15
Formaldehyde 50-00-0 0.0 2.48 2.48
Sodium Hydroxide 1310-73-2. 0.0 5.25 5.25
Decaltal PIC A Micture of 124-04-9 1132-18-5
0.0 1.73 1.73
Pthalic anhydride 85-44-9 0.0 0.9 0.9
Formic acid 64-18-6 0.0 0.9 0.9
Sodium sulphate 7757-82-6 0.0 1.95 1.95
FBL 1 0.0 10.8 10.8
53 Basyntan FB. P
- - -
Phenol 108-95-2 0.0 7.5 7.5
Sodium Hydroxide 1310-73-2. 0.0 0.53 0.53
Formaldehyde 50-00-0 0.0 7.65 7.65
Sodium bisulphite 7631-90-5 0.0 2.1 2.1
TG Urea 57-13-6 0.0 1.2 1.2
Sodium bisulphite 7631-90-5 0.0 1.2 1.2
DLE solution 68603-87-2 0.0 24.0 24.0
Metaclaw CL liq 64-02-8 0.0 0.3 0.3
Decaltal PIC A Micture of 124-04-9 1132-18-5
0.0 1.65 1.65
Sodium sulphate 7757-82-6 0.0 1.5 1.5
Sulphuric acid 7664-93-9 0.0 0.6 0.6
Sodium sulphate 7757-82-6 0.0 3.9 3.9
54 Basyntan XA - - -
Phenol 108-95-2 0.0 5.4 5.4
Sulphuric acid 7664-93-9 0.0 6.44 6.44
TG Urea 57-13-6 0.0 3.73 3.73
Formaldehyde 50-00-0 0.0 8.83 8.83
Sodium Hydroxide 1310-73-2. 0.0 1.07 1.07
Phenol 108-95-2 0.0 3.59 3.59
Metaclaw CL liq 64-02-8 0.0 0.15 0.15
Formaldehyde 50-00-0 0.0 2.44 2.44
Sodium Hydroxide 1310-73-2. 0.0 5.25 5.25
Sodium hydro sulfite
7775-14-6 0.0 0.02 0.02
C. Floating agents
Pluronic PE-10100 9003-11-6 0.0 28.5 28.5
Escaid 110 64742-47-8 0.0 28.5 28.5
Oxooil 9N 68526-89-6. 0.0 3.0 3.0
D. Spray Drying, formulation and Packing of Water Treatment Chemicals & Paper Dyes (Sokalan, Magnafloc, Pergasol & Irgalite)
Magnafloc LT / Magnafloc LT7991
42751-79-1 0.0 310.0 310.0
ANNEXURE: 3
BRIEF MANUFACTRING PROCESS, CHEMICAL REACTION AND MASS BALANCE WITH FLOW
DIAGRAM
DESCRIPTION OF MANUFACTURING PROCESS (EXISTING)
1. TINOPAL DMA-X
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
DASDA free acid
C C N
H
H
N H
H H
H H
S O 3 S
H
S O 3 H
+ Soda Ash
↓
Step 2 Condensation
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
Aniline
NH2
+ Caustic soda lye
↓
Step 3 Condensation
Morpholine
+ Caustic soda lye
↓
N
H
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
N
H
O N H
N
H
N N
N
N O
N H
S O 3 N a
N a O 3 S
N H
N N
N N O
N H
MATERIAL BALANCE
TINOPAL DMA-X
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.000
Water 0.200 Process Reactor
Water 1.200 Na2Co3 Solution
Soda Ash 0.300 Process Reactor
Water 9.000
DASDA 1.015 DASDA Solution
NaOH ( 48% ) 0.540
hyflo 0.015 Process Reactor Clarification residue 0.015
Water 0.810 NaOH Solution
NaOH ( 48% ) 0.810 Process Reactor
NaCl 0.060 Condensation Step -1
Water 0.100 CO2 0.945
Ice 7.000
Water 0.500 Process Reactor
Aniline 0.500 Condensation Step -2
Water 0.500 Process Reactor
Morpholine 0.460 Condensation Step -3
Water 1.000 Process Reactor
Filtration Wet cake 80% MC+ 2 % NaCl) 10.000
Filtration Press Waste Water 18.552
Water 5.200 Step 4
Wet cake 10.000
NaCl 0.520 Step 5
Soda Ash 0.215
Baykanol 0.040
Drying TINOPAL DMA-X 3.520
Water evaporation during drying 12.455
Total input in MT 45.487 Total Output in MT 45.487
InputReaction / Operation / Equipment
Output
2. TINOPAL DMA-X Conc
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
DASDA free acid
C C N
H
H
N H
H H
H H
S O 3 S
H
S O 3 H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic soda lye ↓
Step 3 Condensation
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
N
H
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
N
H
MATERIAL BALANCE
TINOPAL DMA-X CONC
Description Qty. in MT Description Qty. in MT
Water 2.250
OT 70% 0.002 CC Suspension
Ice 4.500
Cyanuric Chloride 1.500
Water 0.300 Process Reactor
Water 1.800 Na2Co3 Solution
Soda Ash 0.450 Process Reactor
Water 13.500
DASDA 1.523 DASDA Solution
NaOH ( 48% ) 0.675
hyflo 0.003 Process Reactor Clarification residue 0.023
Water 1.215 NaOH Solution
NaOH ( 48% ) 1.215 Process Reactor
0.000
NaCl 0.090 Condensation Step -1
Water 3.000 CO2 1.418
Ice 10.500
Water 0.750 Process Reactor
Aniline 0.750 Condensation Step -2
Water 1.500 Process Reactor
Morpholine 0.690 Condensation Step -3
Water 0.300 Process Reactor
NaCl 0.450 Step 4
Soda Ash 0.075
Filtration Wet cake 75% MC 10.500
Filtration Press Waste Water 35.084
Water 3.750 Step 5
Wet cake 10.500
Soda Ash 0.015
Baykanol 0.023
Drying TINOPAL DMA-X CONC 4.065
Water evaporation during drying 10.236
Total input in MT 61.325 Total Output in MT 61.325
InputReaction / Operation / Equipment
Output
3. TINOPAL BA
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
DASDA di-sodium salt
N
HN
H
SO3Na
SO3Na
H
H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic lye solution
↓
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
N
H
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
N
H
Step 3 Condensation
Diethanolamine
+ Sodium hydroxide solution
↓
H N
C C OH
H2H2
C C OH
H2 H2
N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
MATERIAL BALANCE
TINOPAL BA
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 2.500
Cyanuric Chloride 0.900
Water 0.200 Process Reactor
Water 1.080 Na2Co3 Solution
Soda Ash 0.270 Process Reactor
Water 8.700
DASDA 0.895 DASDA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 0.810 NaOH Solution
NaOH ( 48% ) 0.810 Process Reactor
NaCl 0.045 Condensation Step -1
Water 0.090 CO2 0.945
Ice 5.000
Water 0.600 Process Reactor
Aniline 0.421 Condensation Step -2
Water 1.000 Process Reactor
DEA 85% 0.053
DEA 85% 0.715 Condensation Step -3
Water 0.500 Process Reactor Clarification residue 0.010
hyflo 0.010
HCl 15% 1.300 Isolation Evaporation 0.674
Filtration Waste Water 19.622
Filtration Press Wet cake 6.600
Wet cake 6.600
Water 0.800 Slurry Preparation
NaOH ( 48% ) 0.463
Spray Drying TINOPAL BA crude 2.300
Evaporation 5.563
TINOPAL BA crude 2.300 Formulation & Packing
NaCl 0.800 TINOPAL BA crude 3.100
Total input in MT 38.814 Total Output in MT 38.814
InputReaction / Operation / Equipment
Output
4. TINOPAL BMK
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
DASDA di-sodium salt
N
HN
H
SO3Na
SO3Na
H
H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic lye solution
↓
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
N
H
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
N
H
Step 3 Condensation
Diethanolamine
+ Sodium hydroxide solution
↓
H N
C C OH
H2H2
C C OH
H2 H2
N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
MATERIAL BALANCE
TINOPAL BMK
Description Qty. in MT Description Qty. in MT
Water 1.000
OT 70% 0.002 CC Suspension
Ice 2.500
Cyanuric Chloride 0.900
Water 0.600 Process Reactor
Water 1.080 Na2Co3 Solution
Soda Ash 0.270 Process Reactor
Water 8.167
DASDA 0.928 DASDA Solution
NaOH ( 48% ) 0.405
Process Reactor
Water 0.595 NaOH Solution
NaOH ( 48% ) 0.595 Process Reactor
NaCl 0.045 Condensation Step -1
Water 0.100 CO2 0.106
Ice 5.000
Water 1.000 Process Reactor
Aniline 0.457 Condensation Step -2
Water 1.000 Process Reactor
DEA 85% 0.580 Condensation Step -3
Water 0.500 Process Reactor Clarification residue 0.010
hyflo 0.010
NaCl 0.850 Isolation
Filtration Waste Water 19.940
Filtration Press Wet cake 6.500
Wet cake 6.500 Drying Crude 2.466
Water evaporation
during drying 4.062
Crude 2.466
NaCl 0.250 Formulation TINOPAL BMK 2.800
Soda Ash 0.056
STPP 0.028
Total input in MT 35.884 Total Output in MT 35.884
InputReaction / Operation / Equipment
Output
5. TINOPAL UP liquid
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
DASDA di-sodium salt
N
HN
H
SO3Na
SO3Na
H
H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic lye solution ↓
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
N
H
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
N
H
Step 3 Condensation
Diethanolamine
+ Sodium hydroxide solution
↓
+ Hydrochloric Acid 30% ↓
N
N
N
N
N
H
(C2H
4OH)
2
N
HHO
3S
N
H
SO3H
N
N
N
N
N
H
(C2H
4OH)
2
H N
C C OH
H2H2
C C OH
H2 H2
NH
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
MATERIAL BALANCE
TINOPAL UP liquid
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 2.500
Cyanuric Chloride 0.900
Water 0.200 Process Reactor
Water 1.080 Na2Co3 Solution
Soda Ash 0.270 Process Reactor
Water 8.700
DASDA 0.895 DASDA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 0.810 NaOH Solution
NaOH ( 48% ) 0.810 Process Reactor
NaCl 0.045 Condensation Step -1
Water 0.090 CO2 0.945
Ice 5.000
Water 0.600 Process Reactor
Aniline 0.421 Condensation Step -2
Water 1.000 Process Reactor
DEA 85% 0.053
DEA 85% 0.715 Condensation Step -3
Water 0.500 Process Reactor Clarification residue 0.010
hyflo 0.010
HCl 15% 1.300 Isolation Evaporation 0.674
Water 20.000 Filtration Waste Water 39.622
Filtration Press Wet cake 6.600
Wet cake 6.600
Water 0.800 Formulation TINOPAL UP liquid 9.900
KOH 0.300
Urea 2.200
Total input in MT 57.751 Total Output in MT 57.751
InputReaction / Operation / Equipment
Output
6. TINOPAL BHT HC
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
DASDA di-sodium salt
N
HN
H
SO3Na
SO3Na
H
H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic lye solution ↓
Step 3 Condensation
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
NH
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
NH
Diethanolamine
+ Sodium hydroxide solution
↓
+ Hydrochloric Acid 30% ↓
N
N
N
N
N
H
(C2H
4OH)
2
N
HHO
3S
N
H
SO3H
N
N
N
N
N
H
(C2H
4OH)
2
H N
C C OH
H2H2
C C OH
H2 H2
NH
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
MATERIAL BALANCE
TINOPAL BHT HC
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 2.500
Cyanuric Chloride 0.900
Water 0.200 Process Reactor
Water 1.080 Na2Co3 Solution
Soda Ash 0.270 Process Reactor
Water 8.650
DASDA 0.895 DASDA Solution
NaOH ( 48% ) 0.400
Process Reactor
Water 0.741 NaOH Solution
NaOH ( 48% ) 0.741 Process Reactor
NaCl 0.050 Condensation Step -1
Ice 5.600 CO2 0.945
Water 0.600
Process Reactor
Aniline 0.421 Condensation Step -2
Water 1.000 Process Reactor
DEA 85% 0.045
DEA 85% 0.600 Condensation Step -3
Water 0.500 Process Reactor Clarification residue 0.010
hyflo 0.010
HCl 15% 1.300 Isolation Evaporation 1.000
Filtration Waste Water 19.550
Filtration Press Wet cake 6.550
Wet cake 6.550 Waste Water 4.000
Water 2.000 Separation Organic Layer 4.550
Organic Layer 4.550 Formulation
Urea 1.000 TINOPAL NP slurry 6.500
TEA 1.000
Total input in MT 43.105 Total Output in MT 43.105
InputReaction / Operation / Equipment
Output
7. TINOPAL NP Slurry
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
DASDA di-sodium salt
N
HN
H
SO3Na
SO3Na
H
H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic lye solution ↓
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
NH
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
NH
Step 3 Condensation
Diethanolamine
+ Sodium hydroxide solution
↓
H N
C C OH
H2H2
C C OH
H2 H2
NH
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
MATERIAL BALANCE
TINOPAL NP Slurry
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 2.500
Cyanuric Chloride 0.900
Water 0.200 Process Reactor
Water 1.080 Na2Co3 Solution
Soda Ash 0.270 Process Reactor
Water 8.700
DASDA 0.895 DASDA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 0.810 NaOH Solution
NaOH ( 48% ) 0.810 Process Reactor
NaCl 0.045 Condensation Step -1
Water 0.090 CO2 0.945
Ice 5.000
Water 0.600 Process Reactor
Aniline 0.421 Condensation Step -2
Water 1.000 Process Reactor
DEA 85% 0.053
DEA 85% 0.715 Condensation Step -3
Water 0.500 Process Reactor Clarification residue 0.010
hyflo 0.010
Separation Waste Water 19.678
Organic Layer 5.918
Organic Layer 5.918 Formulation
Water 4.882 TINOPAL NP slurry 10.890
Glutaldhyde 0.019
Preventol 0.052
Xanthan gum 0.019
Total input in MT 37.441 Total Output in MT 37.441
InputReaction / Operation / Equipment
Output
8. TINOPAL ABP-X HC
MANUFACTURING PROCESS
• Sulphanilic acid /Metanilic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are
fed in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
+ Aniline-4-sulfonic acid Sodium salt
SNH
H
O
O
ONa
+ Soda Ash
↓
N
C
CCl
N
CN
Cl
N
H
S O
O
O Na
Step 2 Condensation
+ DAS free acid
CC N
H
H
NH
H H
HSO3H
SO3H
+ Soda Ash
↓
S
O
O
O
Na
S
O
O
O
Na
N
NCl
N
SO
O
O
Na
S OO
O Na
NN H
H
N
NCl
N
N
H
N
H
N
CN
C
NC
Cl
Cl Cl
Step 3 Condensation
+ Diethanolamine
+ Caustic Soda Lye
↓
H N
C C OH
H2H2
C C OH
H2 H2
NaO3S N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
SO3Na
MATERIAL BALANCE
TINOPAL ABP-X HC
Description Qty. in MT Description Qty. in MT
Water 1.000
OT 70% 0.002 CC Suspension
Ice 3.500
Cyanuric Chloride 1.500
Water 0.500 Process Reactor
Water 1.500 Na2Co3 Solution
Soda Ash 0.400 Process Reactor
Water 2.370
Sulphanilic acid 1.187 SA Solution
NaOH ( 48% ) 0.550
Process Reactor
Water 8.315 Dasda Solution
DASDA 1.523 Process Reactor
NaOH ( 48% ) 0.662
Sulphanilic acid 0.250 Condensation Step -1
Ice 1.875 CO2 0.178
Water 0.200
Process Reactor
Water 2.000 Condensation Step -2 CO2 0.178
Soda Ash 0.500 Process Reactor
NaCl 2.100 Isolation
Filtration Waste Water 23.306
Filtration Press Wet cake 6.250
wet cake 6.250 Condensation Step -3
DEA 85% 1.088 Process Reactor Clarification residue 0.022
Water 5.300
hyflo 0.022
NaOH ( 48% ) 0.662
Drying TINOPAL ABP-XC 5.200
Water evaporation during drying 8.122
Total input in MT 43.256 Total Output in MT 43.256
InputReaction / Operation / Equipment
Output
9. TINOPAL ABP-A
MANUFACTURING PROCESS
• Sulphanilic acid /Metanilic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are
fed in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
+ Aniline-4-sulfonic acid Sodium salt
SNH
H
O
O
ONa
+ Soda Ash
↓
N
C
CCl
N
CN
Cl
N
H
S O
O
O Na
Step 2 Condensation
+ DASDA free acid
C
C N
H
H
N
H
H H
H S O 3 Na
S O 3 Na
+ Soda Ash
↓
S
O
O
O
Na
S
O
O
O
Na
N
NCl
N
SO
O
O
Na
S OO
O Na
NN H
H
N
NCl
N
N
H
N
H
Step 3 Condensation
N
CN
C
NC
Cl
Cl Cl
+ Diethanolamine
+ Caustic Soda Lye
↓
H N
C C OH
H2H2
C C OH
H2 H2
NaO3S N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
SO3Na
MATERIAL BALANCE
TINOPAL ABP-A
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.080 Na2Co3 Solution
Soda Ash 0.520 Process Reactor
Water 3.000
Sulphanilic acid 0.945 SA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 7.370 Dasda Solution
DASDA 1.430 Process Reactor
NaOH ( 48% ) 0.650
Sulphanilic acid 0.496 Condensation Step -1
Ice 4.000 CO2 0.215
Water 0.750
Process Reactor
Water 2.085 Condensation Step -2 CO2 0.215
Soda Ash 0.525 Process Reactor
Condensation Step -3
DEA 85% 0.860 Process Reactor
Water 0.750
NaOH ( 48% ) 0.650
Clarification residue 0.022
hyflo 0.022 Clarification
Water 18.870 Filtration Waste Water 33.414
Nano
hyflo 0.022 Formulation & Clarification TINOPAL ABP-A 18.700
Glutaldhyde 0.360 Clarification residue 0.022
Preventol 0.050
Total input in MT 52.587 Total Output in MT 52.587
InputReaction / Operation / Equipment
Output
10. TINOPAL ABA
MANUFACTURING PROCESS
• Sulphanilic acid /Metanilic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are
fed in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
+ Aniline-4-sulfonic acid Sodium salt
SNH
H
O
O
ONa
+ Soda Ash
↓
N
C
CCl
N
CN
Cl
N
H
S O
O
O Na
Step 2 Condensation
+ DASDA free acid
C
C N
H
H
N
H
H H
H S O 3 Na
S O 3 Na
+ Soda Ash
↓
S
O
O
O
Na
S
O
O
O
Na
N
NCl
N
SO
O
O
Na
S OO
O Na
NN H
H
N
NCl
N
N
H
N
H
N
CN
C
NC
Cl
Cl Cl
Step 3 Condensation
+ Diethanolamine
+ Caustic Soda Lye
↓
H N
C C OH
H2H2
C C OH
H2 H2
NaO3S N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO3S
N
H
N
N
NN (C2H4OH)2
NH
SO3Na
MATERIAL BALANCE
TINOPAL ABA
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.080 Na2Co3 Solution
Soda Ash 0.520 Process Reactor
Water 3.000
Sulphanilic acid 0.945 SA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 7.370 Dasda Solution
DASDA 1.430 Process Reactor
NaOH ( 48% ) 0.650
Sulphanilic acid 0.496 Condensation Step -1
Ice 4.000 CO2 0.215
Water 0.750
Process Reactor
Water 2.085 Condensation Step -2 CO2 0.215
Soda Ash 0.525 Process Reactor
Condensation Step -3
DEA 85% 0.860 Process Reactor
Water 0.750
NaOH ( 48% ) 0.650
Clarification residue 0.022
hyflo 0.022 Clarification
Water 13.870 Filtration Waste Water 23.329
Nano
hyflo 0.022 Formulation & Clarification TINOPAL ABA 23.375
Clarification residue 0.022
Total input in MT 47.177 Total Output in MT 47.177
InputReaction / Operation / Equipment
Output
11. TINOPAL 5BM
MANUFACTURING PROCESS
• DASDA, Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed in a reactor for first step
condensation at 0 to 5 degree centigrade. This reaction step is over within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where aniline
is added for second step reaction temp & pH maintained
• For third step reaction amine is added, caustic soda lye is added to maintain the pH and
temperature.
• Acid isolation is done after third stage reaction and filtration is followed. Mother liquor and
washing water if any is sent to ETP for further processing and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
DASDA free acid
C C N
H
H
N H
H H
H H
S O 3 S
H
S O 3 H
+ Soda Ash
↓
Step 2 Condensation
Aniline NH
2
+ Caustic soda lye ↓
N
CN
C
NC
Cl
Cl Cl
Cl
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
Cl
NH
N
N
N
Cl
N
HSO3Na
NaO3S
N
H
N
N
NCl
NH
Step 3 Condensation
N-Methylethanolamine
+ Caustic soda lye ↓
O
3 a
N O S
N
H
NH
N
N
N
N
N
HS N
a 3
N
H
N
N
N
N
CH2CH2OH
CH3
HOH2CH2C
CH3
MATERIAL BALANCE
TINOPAL 5BM
Description Qty. in MT Description Qty. in MT
Water 1.500
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.000
Water 0.200 Process Reactor
Water 1.200 Na2Co3 Solution
Soda Ash 0.300 Process Reactor
Water 9.000
DASDA 1.015 DASDA Solution
NaOH ( 48% ) 0.450
hyflo 0.015 Process Reactor Clarification residue 0.015
Water 0.810 NaOH Solution
NaOH ( 48% ) 0.810 Process Reactor
NaCl 0.060 Condensation Step -1
Water 2.000 CO2 0.945
Ice 6.000
Water 0.500 Process Reactor
Aniline 0.500 Condensation Step -2
Water 0.500 Process Reactor
N-Methylethanolamine 0.434 Condensation Step -3
Water 0.200 Process Reactor
Filtration Wet cake 75% MC 7.000
Filtration Press Waste Water 21.382
Water 3.000 Step 5
Wet cake 7.000
NaCl 0.766
DAXAD 60L 0.020
Drying TINOPAL 5BM 3.335
Water evaporation during drying 7.605
Total input in MT 40.282 Total Output in MT 40.282
InputReaction / Operation / Equipment
Output
12. TINOPAL SFP
MANUFACTURING PROCESS
• Aniline 2:5 Di Sulphonic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed
in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
Aniline 2,5 disulphonic acid NH
2
SO3H
HO3S
+ Caustic Soda Lye
+ Soda Ash
↓
N
N
N
ClCl
N H
SO3Na
NaO3S
Step 2 Condensation
DASDA free acid
CH
C
H O3
S
NH2
H
S O3
H
N H2
N
CN
C
NC
C l
C l C l
+ Caustic Soda Lye ↓
SO3Na
NN H
HN
NN
Cl
NN
NCl
NH
N
H
SO3Na
NaO3S
NaO3S
SO3Na
NaO3S
Step 3 Condensation
Morpholine
+ Caustic Soda Lye ↓
SO3Na
SO3Na
NN H
HN
NN
NN
N
N
H
N
H
SO3Na
N
ON
O
NaO3S
SO3Na
NaO3S
+ Hydrochloric Acid 30%
O
N
O
N
NN H
HN
NN
NN
N
N
H
N
H NaO3S
SO3H
HO3S
SO3Na
NaO3S
SO3H
O N H
MATERIAL BALANCE
TINOPAL SFP
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.300 Na2Co3 Solution
Soda Ash 0.585 Process Reactor
Water 2.100
2,5 SA 1.720 DSA Solution
NaOH ( 48% ) 0.596
Process Reactor
Water 6.430 Dasda Solution
DASDA 1.502 Process Reactor
NaOH ( 48% ) 0.625
Water 1.140 NaOH Solution
NaOH ( 48% ) 1.082 Process Reactor
2,5 SA 0.500 Condensation Step -1
Ice 4.000 CO2 0.143
Water 1.000
Process Reactor
Condensation Step -2
Process Reactor
Diethyl amine 0.650 Condensation Step -3
Process Reactor
hyflo 0.022 Clarification residue 0.022
Clarification
NaCl 3.500 Isolation
Filtration wet cake 10.800
Waste Water 23.489
Bay Pure 0.055 Slurry Preparation
Water 8.200
wet cake 10.800
Tinopal SFP 5.700
Spray Drying Evoporation 13.355
Total input in MT 53.509 Total Output in MT 53.509
InputReaction / Operation / Equipment
Output
13. TINOPAL SPP-Z
MANUFACTURING PROCESS
• Aniline 2:5 Di Sulphonic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed
in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
Aniline 2,5 disulphonic acid N H
2
S O3
H
H O3
S
+ Caustic Lye
+ Soda Ash
↓
N
N
N
ClCl
N H
SO3Na
NaO3S
Step 2 Condensation
DASDA free acid
CH
C
H O3
S
NH2
H
S O3
H
N H2
N
CN
C
NC
C l
C l C l
+ Caustic soda lye ↓
SO3Na
NN H
HN
NN
Cl
NN
NCl
NH
N
H
SO3Na
NaO3S
NaO3S
SO3Na
NaO3S
Step 3 Condensation
Diethyl amine
(C2H
5)2NH
+ Caustic soda lye ↓
SO3Na
NN H
HN
NN
NN
N
NH
N
H
SO3Na
(C2H
5)2N
N(C2H
5)2
NaO3S
NaO3S
NaO3S
SO3Na
MATERIAL BALANCE
TINOPAL SPP-Z
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.300 Na2Co3 Solution
Soda Ash 0.585 Process Reactor
Water 2.100
2,5 SA 1.720 DSA Solution
NaOH ( 48% ) 0.596
Process Reactor
Water 6.430 Dasda Solution
DASDA 1.395 Process Reactor
NaOH ( 48% ) 0.625
Water 1.140 NaOH Solution
NaOH ( 48% ) 1.082 Process Reactor
2,5 SA 0.500 Condensation Step -1
Ice 4.000 CO2 0.143
Water 1.000
Process Reactor
Condensation Step -2 CO2 0.143
Process Reactor
Diethyl amine 0.600 Condensation Step -3
NaOH ( 48% ) 0.866 Process Reactor
hyflo 0.010 Clarification Clarification residue 0.010
Water 30.789 Filtration Waste Water 33.028
Nano
Preventol 0.084 Formulation TINOPAL SPP-Z 29.200
hyflo 0.022 Clarification residue 0.022
Total input in MT 62.546 Total Output in MT 62.546
InputReaction / Operation / Equipment
Output
14. TINOPAL SHP
MANUFACTURING PROCESS
• Aniline 2:5 Di Sulphonic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed
in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric Chloride
Aniline 2,5 disulphonic acid NH
2
SO3H
HO3S
+ Caustic Soda Lye
+ Soda Ash
↓
N
N
N
ClCl
N H
SO3Na
NaO3S
Step 2 Condensation
DASDA free acid
CH
C
H O3
S
NH2
H
S O3
H
N H2
N
CN
C
NC
C l
C l C l
+ Caustic Soda Lye ↓
SO3Na
NN H
HN
NN
Cl
NN
NCl
NH
N
H
SO3Na
NaO3S
NaO3S
SO3Na
NaO3S
Step 3 Condensation
Morpholine
+ Caustic Soda Lye ↓
SO3Na
SO3Na
NN H
HN
NN
NN
N
N
H
N
H
SO3Na
N
ON
O
NaO3S
SO3Na
NaO3S
+ Hydrochloric Acid 30%
O
N
O
N
NN H
HN
NN
NN
N
N
H
N
H NaO3S
SO3H
HO3S
SO3Na
NaO3S
SO3H
O N H
MATERIAL BALANCE
TINOPAL SHP
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.300 Na2Co3 Solution
Soda Ash 0.585 Process Reactor
Water 2.100
2,5 SA 1.720 DSA Solution
NaOH ( 48% ) 0.596
Process Reactor
Water 6.430 Dasda Solution
DASDA 1.502 Process Reactor
NaOH ( 48% ) 0.625
Water 1.140 NaOH Solution
NaOH ( 48% ) 1.082 Process Reactor
2,5 SA 0.500 Condensation Step -1
Ice 4.000 CO2 0.143
Water 1.000
Process Reactor
Condensation Step -2
Process Reactor
Diethyl amine 0.650 Condensation Step -3
Process Reactor
Clarification residue 0.022
hyflo 0.022 Clarification
NaCl 3.500 Isolation
Filtration wet cake 10.800
Waste Water 23.489
PEG 1500 9.375 Formulation
Water 5.825 Tinopal SFP 26.000
wet cake 10.800
Total input in MT 60.454 Total Output in MT 60.454
InputReaction / Operation / Equipment
Output
15. TINOPAL AS
MANUFACTURING PROCESS
• Aniline 2:5 Di Sulphonic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are fed
in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
Aniline 2,5 disulphonic acid N H
2
S O3
H
H O3
S
+ Caustic Lye
+ Soda Ash
↓
N
N
N
ClCl
N H
SO3Na
NaO3S
Step 2 Condensation
DASDA free acid
CH
C
H O3
S
NH2
H
S O3
H
N H2
N
CN
C
NC
C l
C l C l
+ Caustic soda lye ↓
SO3Na
NN H
HN
NN
Cl
NN
NCl
NH
N
H
SO3Na
NaO3S
NaO3S
SO3Na
NaO3S
Step 3 Condensation
Diethyl amine
(C2H
5)2NH
+ Caustic soda lye ↓
SO3Na
NN H
HN
NN
NN
N
NH
N
H
SO3Na
(C2H
5)2N
N(C2H
5)2
NaO3S
NaO3S
NaO3S
SO3Na
MATERIAL BALANCE
TINOPAL AS
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.300 Na2Co3 Solution
Soda Ash 0.585 Process Reactor
Water 2.100
2,5 SA 1.720 DSA Solution
NaOH ( 48% ) 0.596
Process Reactor
Water 6.430 Dasda Solution
DASDA 1.395 Process Reactor
NaOH ( 48% ) 0.625
Water 1.140 NaOH Solution
NaOH ( 48% ) 1.082 Process Reactor
2,5 SA 0.500 Condensation Step -1
Ice 4.000 CO2 0.143
Water 1.000
Process Reactor
Condensation Step -2
Process Reactor
Diethyl amine 0.600 Condensation Step -3
NaOH ( 48% ) 0.866 Process Reactor
Clarification residue 0.010
hyflo 0.010 Clarification
Water 21.350 Filtration Waste Water 15.228
Nano
TEA 0.380 Formulation & Clarification TINOPAL AS 38.000
hyflo 0.022 Clarification residue 0.022
Total input in MT 53.403 Total Output in MT 53.403
InputReaction / Operation / Equipment
Output
16. TINOPAL ASP
MANUFACTURING PROCESS
• Sulphanilic acid /Metanilic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are
fed in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
+ Aniline-4-sulfonic acid Sodium salt
SNH
H
O
O
ONa
+ Soda Ash
↓
N
C
CCl
N
CN
Cl
N
H
S O
O
O Na
Step 2 Condensation
+ DAS free acid
CC N
H
H
NH
H H
HSO3H
SO3H
+ Soda Ash
↓
S
O
O
O
Na
S
O
O
O
Na
N
NCl
N
SO
O
O
Na
S OO
O Na
NN H
H
N
NCl
N
N
H
N
H
Step 3 Condensation
N
CN
C
NC
Cl
Cl Cl
+ Diisopropanolamine
+ Caustic Soda Lye
↓
NaO3S N
H
N
N
N
N(HOH4C2)2
N
HSO3Na
NaO
O3S
N
H
N
N
NN (C2H4OH)2
NH
SO3Na
MATERIAL BALANCE
TINOPAL ASP
Description Qty. in MT Description Qty. in MT
Water 2.000
OT 70% 0.002 CC Suspension
Ice 3.000
Cyanuric Chloride 1.500
Water 0.200 Process Reactor
Water 2.080 Na2Co3 Solution
Soda Ash 0.520 Process Reactor
Water 2.700
Sulphanilic acid 0.945 SA Solution
NaOH ( 48% ) 0.450
Process Reactor
Water 7.000 Dasda Solution
DASDA 1.450 Process Reactor
NaOH ( 48% ) 0.650
Sulphanilic acid 0.495 Condensation Step -1
Ice 4.000 CO2 0.143
Water 0.750
Process Reactor
Water 2.080 Condensation Step -2 CO2 0.143
Soda Ash 0.520 Process Reactor
DDA 1.250 Condensation Step -3
Water 0.200 Process Reactor
NaOH ( 48% ) 0.650
Clarification residue 0.023
hyflo 0.023 Clarification
Water 0.500 Formulation Waste Water from evoporation 3.256
TINOPAL ASP 29.400
Total input in MT 32.965 Total Output in MT 32.965
InputReaction / Operation / Equipment
Output
17. TINOPAL BOP Extra
MANUFACTURING PROCESS
• Sulphanilic acid /Metanilic acid, soda ash. Cyanuric Chloride, Caustic Soda Lye, Ice and Water are
fed in a reactor for first step condensation at 5 to 15 degree centigrade. This reaction step is over
within 4-6 hours of time.
• Then this material is transferred to another reactor for second step condensation, where DASDA,
Caustic soda lye is added for second step reaction temperature & pH maintained.
• For third step reaction, different amines are added for different products in this tetra Sulpho
category caustic soda lye is added to maintain the pH and temperature.
• Then this material is transferred for filtration in Nano filtration Unit.
• The filtrate from Nano filtration unit is sent to ETP for treatment and disposal.
Chemical Reaction:
Step 1 Condensation
Cyanuric chloride
+ Aniline-3-sulfonic acid Sodium Salt
NH2
SO
O
O Na
+ Soda Ash
↓
N
HN
N
N
S O
O
C l
C l
O N a
Step 2 Condensation
+ DASDA free acid
CC N
H
H
NH
H H
HSO3H
SO3H
+ Soda Ash
↓
N
CN
C
NC
C l
C l C l
N
N
H
HN
N
N
NN
ClN
N
N
H
H
Cl
NaO3S
SO3Na
SO3Na
NaO3S
Step 2 product: Tetra Na - condensed intermediate
Step 3 Condensation
+ Diethanolamine
+ Caustic Soda Lye
↓
SO3Na
N
N H
H
N
N
N
NNaO
3S
N
N
N
N
N
N
HNaO
3S
(HOH4C
2)2
(C2H
4OH)
2
H
SO3Na
+ Salt
H N
C C OH
H2H2
C C OH
H2 H2
MATERIAL BALANCE
TINOPAL BOP Extra
Description Qty. in MT Description Qty. in MT
Water 2.552
Metanilic Acid 1.448 MA Solution
NaOH ( 48% ) 0.700 Process Reactor
Water 1.500
OT 70% 0.003 CC Suspension
Ice 3.500
Cyanuric Chloride 1.500
Water 0.400 Process Reactor
Water 2.075 Na2Co3 Solution
Soda Ash 0.450 Process Reactor
Water 7.800
DASDA 1.437 DASDA Solution
NaOH ( 48% ) 0.665
Process Reactor
Ice 2.000 Condensation Step -1
Water 0.200 Process Reactor CO2 0.178
Soda Ash 0.500 Condensation Step -2 CO2 0.178
Water 2.000 Process Reactor
DEA 85% 1.430 Condensation Step -3
Water 0.300 Process Reactor Clarification residue 0.010
NaOH ( 48% ) 0.700
NaCl 4.500 Isolation
Filtration Waste Water 24.694
Filtration Press Wet cake 10.600
Wet cake 10.600 Drying Crude 5.000
Water evaporation during drying 5.600
Crude 5.000
NaCl 3.460 Formulation TINOPAL BOP Extra 8.500
Soda Ash 0.040
Total input in MT 54.760 Total Output in MT 54.760
InputReaction / Operation / Equipment
Output
HOC -- CHO + H2N --C--NH2
O
+ CH2O +HO--C2H4--O--C2H4--OH
H3PO4
H2C N
C
N
C C
OHOH
O
C2H4
O
C2O4
OH
CH2 O (C2H4--O--C2H4)--OH
DESCRIPTION OF MANUFACTURING PROCESS (PROPOSED)
Fixapret Resin F ECO
A solution of Formaldehyde &Glyoxal charge under stirring in a mixture vessel and adjust pH
by caustic lye up to 7.0 and then urea TG form the intermediate. During the addition of
urea, temperature drops initially below room temperature and then starts rising due to
reaction exotherm. If needed, heat slowly and maintain temperature at ~ 55 deg. C Keep on
adjusting pH to 6.4 – 6.8 by adding Caustic soda lye in small lots. Maintain temperature at ~
55 deg. C there can be a exotherm. pH drops continuously and should be restored with
requisite quantities of Caustic soda lye. Maintain temperature at 550C and pH at 6.4-6.8 for
4 hours. Cool to 500C and addDi Ethylene Glycol and Phosphoric Acid (85%). pH at this stage
settles at 1.5 - 2.0. Maintain temperature @ 500C under stirring for 3 hours. If pH rises
above 2.2 during these 3 hours, then adjust pH to 2 using Sulphuric acid. Finally, cool and
check pH. Adjust pH to 5 with Caustic Lye (25%)
Stir and draw a sample, filter and send to QC lab. Standardize the batch based on QC lab
results and pack through ~ 250 mesh filter.
Chemical Reaction:
MATERIAL BALANCE:
Description Qty. in MT Description Qty. in MT
Process Water 0.00 Stage 1
Glyoxal 2.92
Diethylene glycol 2.59
CAUSTIC SODA LYE 0.22
UREA TG 1.21
PHOSPHORIC ACID 0.22
Formaldehyde 2.84
Packing & Storage Fixapret Resin F-ECO 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
(HO) P
O
(O-CH2-CH-C4H9)
C2H5
O-2 3-A+ NH3 (NH4O)
O-2
- P
O
-3-A
C2H5
(O-CH2-CH-C4H9)
Primasol Deaer NF
A solution of Primasol NF 100 charge under stirring in a process water mixture vessel and
add Liquid Ammonia (25%) under slow stirring.
After addition is over, take sample and send to QC lab to check pH, water/solid content. The
material is then cooled and pH and water content are adjusted if necessary. Filter through ~
120 mesh filter and pack.
Chemical Reaction:
MATERIAL BALANCE:
Description Qty. in MT Description Qty. in MT
Process Water 4.71 Stage 1
Primasol NF 100 4.51
AMMONIA SOLUTION 25% 0.78
Packing & Storage Primasol Deaer NF 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Mixing
Primasol Deaer NF (New)
A solution of 2 Ethyl Hexanol, Lutensol AO 7, Phosphoric Pentoxide & 2 Ethyl Hexanol (for
flushing the hopper) , The vessel is sealed & heated to 100 deg. C. Temperature is
maintained for 4 hours.
After this chargeSolvenon DPM,Disframol TO-F, DipropyleneDlycol Monomethyl Ether is
charged &Lutensol XA is charged. The system is flushed with 200 Ltr. process water &
additional process water is added. The reaction mass is mixed for 1 Hour.
After this charge Liquor Ammonia is charged part wise, till PH of 8.00 is achieved. Filter
through ~ 120 mesh filter and pack.
Chemical Reaction:
MATERIAL BALANCE:
P2O5 + HO -- CH2 --CH --C4H9
C2H5
+ NH3 NH4O -- P -- (O -- CH2 -- CH --C4H9)2
C2H5
O
Description Qty. in MT Description Qty. in MT
Process Water 3.49 Stage 1
PHOSPHOROUS PENTOXIDE 1.01
PHOSPHORIC ACID TRIS(2-ETHYLHEXYL) ESTER0.40
Lutensol XA 40 190KG 1A1 0.40
Solvenon DPM 0.65
Lutensol Tex AO 7 950KG 31HA1 0.16
AMMONIA SOLUTION 25% 1.15
2-ETHYL-HEXANOL 2.74
Packing & Storage Primasol Deaer NF New 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Tamol FB LI
Take water in a vessel and Charged Naphthalene and add H2SO4. This reaction will be
happened at 140ºC. After that this reaction mass will be reacted with formaldehyde solution
in water.
Slowly start the addition of Sodium Hydroxide solution on the above condensation mass for
Neutralisation. Slurry send for drying then packing.
Chemical Reaction:
MATERIAL BALANCE:
Description Qty. in MT Description Qty. in MT
Crude Naphthalene 3.820 Stage 1
Sulphuric acid (98%) 4.030 Suphonation reaction
Process Water 0.900
Process Water 3.600 Stage 2
Formaldehyde 1.600 Condensation
Sodium Hydroxide 4.150 Addition
at 70 - 80°C
Packing & Storage Tamol FB LI 18.100
Total input in MT 18.100 Total Output in MT 18.100
InputReaction / Operation / Equipment
Output
Basyntan DX
Take water in a vessel and Charged Phenol and add H2SO4. This reaction will be happened
at high temperature about 110ºC. After that this reaction mass will be reacted with
formaldehyde and Urea solution in water.
Slowly start the addition of Sodium Hydroxide solution in to at 70ºC to 80ºC of the above
mass for Neutralisation. Slurry send for drying then packing.
Chemical Reaction:
MATERIAL BALANCE:
Description Qty. in MT Description Qty. in MT
Phenol 1.728 Stage 1
Sulphuric acid (98%) 2.150 Suphonation reaction
Heating ~ up to 100°C
Process water 1.300 Stage 2
Urea 1.179 Condensation
Process water 0.300
Formaldehyde 2.464
Sodium Hydroxide 3.800 Stage 3
Process water 1.100 Netralisation
Sulphuric acid (98%) 0.300
Packing & Storage Basyntan DX 14.321
Total input in MT 14.321 Total Output in MT 14.321
InputReaction / Operation / Equipment
Output
Relugan SLF / DLF
Formaldehyde and Urea solution in water is react together with present of sodium
bisulphite in an acidic form at temperature approx. 120ºC.
Slowly start the addition of alkaline DX solution at 75ºC. then add filler and then slurry will
send for drying and packing.
Chemical Reaction:
MATERIAL BALANCE:
Description Qty. in MT Description Qty. in MT
Process Water 5.075 Stage 1
Formaldehyde 3.396
Sodium Hydroxide 0.010
Urea 1.100
Sodium bisulphite 3.000
Formic acid 0.025 Stage 2
Sodium Hydroxide 0.300 Addition at ~75°C
Alkaline DX solution 4.320
Decaltal PIC 0.075 Stage 3
Sodium sulphate 0.400 Addition at RT
Transfer for Drying
Reacted Mass 17.701 Drying, Packing & Storage Water evaporation during drying 10.201
Relugan SLF/ DLF 7.500
Total input in MT 17.701 Total Output in MT 17.701
InputReaction / Operation / Equipment
Output
Heating ~120°C
MANUFACTURING PROCESS WITH
Textile, Leather Chemicals: Binders, Auxiliaries Chemicals for tanning & finishing agents
such as textile, dispersions, lacquers & pigments:
The manufacturing process involves batch wise mixing of chemicals in to the reactor with
additives and DM water in different proportion as per the products requirement. Heat the
mass up to ~95˚C and mix it homogenously.
After homogenous mixing, the mass t
quality to be check as per products specification. After QA approval, finish product is
transfer in drums for packing as per customer requirement.
Packed materials transfer to storage facility for dispatch.
Process Flow Diagram:
S WITH FLOW DIAGRAM (PROPOSED)
Chemicals: Binders, Auxiliaries Chemicals for tanning & finishing agents
such as textile, dispersions, lacquers & pigments:
The manufacturing process involves batch wise mixing of chemicals in to the reactor with
additives and DM water in different proportion as per the products requirement. Heat the
˚C and mix it homogenously.
After homogenous mixing, the mass then cooled up to ambient temperature and product
quality to be check as per products specification. After QA approval, finish product is
transfer in drums for packing as per customer requirement.
Packed materials transfer to storage facility for dispatch.
Chemicals: Binders, Auxiliaries Chemicals for tanning & finishing agents
The manufacturing process involves batch wise mixing of chemicals in to the reactor with
additives and DM water in different proportion as per the products requirement. Heat the
hen cooled up to ambient temperature and product
quality to be check as per products specification. After QA approval, finish product is
Mass Balance:
Prdoduct Name: Cyclanon Clear ECO Plus
Material Balance
Input Reaction / Operation / Equipment
Output
Description
Qty. in
MT Description
Qty. in
MT
Process Water 6.000
Stage 1
Sodium Formaldehyde Sulfoxylate 4.000 Mixing & Clarrification
Packing & Storage Cyclanon Clear ECO Plus 10.000
Total input in MT 10.000 Total Output in MT 10.000
Prdoduct Name: Kieralon Wash JET-B Conc.
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 0.90 Stage 1
Pluriol P 2000 200KG 1A1 1.00
TEGOSIPON 3062 50kg 1H2 0.20
TRIALCHOHOL 5 ED MOLE 200kg 1H2 5.50 Heating, Mixing & Cooling
Isopropanol 200kg 1A1 0.10TRI ALCOHOL 3 EO MOLE 170kg 1H1 2
Packing & Storage Kieralon Wash JET-B Conc. 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Prdoduct Name: Uniperol Buffer TX P-DP
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 6.88 Stage 1
Formic Acid 85% Cal 100% 35kg 3H1 1.50
Decaltal Pic S 25KG 5H4 0.10
Citric Acid, monohydrate 35kg 5H1 1.50
ACTICIDE MV 25kg 1H2 0.02
Packing & Storage Uniperol Buffer TX P-DP 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Prdoduct Name: Uniperol Level RD
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 0.55 Stage 1
Dekol Dis SN 5.00
Sokalan CP 12 S 250KG 1H1 0.75
CAUSTIC SODA LYE 0.40
Aquacid 1067 EX 3.30
Packing & Storage Uniperol Level RD 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Prdoduct Name: Uniperol Level SE
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 2.44 Stage 1
Formic Acid 85% Cal 100% 35kg 3H1 0.01
Igesol HS-30 100KG 1H1 0.05
KATARANG SD 50kg 1H2 2.40
NOIGEN 13001-LIQUID-60% 200kg 1A2 2.60
NOIGEN SA 10 200kg 1A2 2.50
Packing & Storage Uniperol Level SE 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Prdoduct Name: Uniperol Level SF ECO
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 2.90 Stage 1
DIPROP GLYC (RM) 3.00
TRIALCHOHOL 5 ED MOLE 200kg 1H2 0.50
Oleic acid ethoxylated (4,7 EO) 50KG 1.50
Castor Oil ethoxylated (47 EO) 50KG
1H1 2.00
TURKEY RED OIL 70% 50kg 1H2 0.10
Packing & Storage Uniperol Level SF ECO 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Prdoduct Name: Product Name: Magnafloc LT7991
Material Balance
Description Qty. in MT Description Qty. in MT
Process Water 3.80 Stage 1
Magnafloc 6.20
Packing & Storage Magnafloc LT7991 10.000
Total input in MT 10.000 Total Output in MT 10.000
InputReaction / Operation / Equipment
Output
Heating, Mixing & Cooling
Prdoduct Name: Irgalite SCM-L / SCI / HCB ap
Material Balance
Description Qty. in MT Description Qty. in MT
DM water 4.860 Stage 1
Pigment Violet 3 Dispersion 30.100 Mixing & Clarrification
Acticid MBS 0.042
Packing & Storage Irgalite SCM-L ap 35.002
Total input in MT 35.002 Total Output in MT 35.002
InputReaction / Operation / Equipment
Output
Prdoduct Name: Irgalite HCR-L / HCR / VMA ap
Material Balance
Description Qty. in MT Description Qty. in MT
DM water 1.030 Stage 1
Pigment Violet 44 Dispersion 13.950 Mixing & Clarrification
Acticide MV 0.020
Packing & Storage Irgalite HCR-L ap 15.000
Total input in MT 15.000 Total Output in MT 15.000
InputReaction / Operation / Equipment
Output
Prdoduct Name: Tamol M (REF)
Description Qty. in MT Description Qty. in MT
Refined Naphthalene 3.820 Stage 1
Sulphuric acid (98%) 4.030 Suphonation reaction
Process Water 0.900
Process Water 3.600 Stage 2
Formaldehyde 1.900 Condensation
Sodium Hydroxide 4.150 Addition
Sodium hydro sulfite 0.005 at 70 - 80°C
Transfer for Drying
Reacted Mass 18.405 Drying, Packing & Storage Water evaporation during drying 9.605
Tamol M (REF) 8.800
Total input in MT 18.405 Total Output in MT 18.405
InputReaction / Operation / Equipment
Output
Prdoduct Name: Tamol NNOL
Description Qty. in MT Description Qty. in MT
Phenol 1.728 Stage 1
Sulphuric acid (98%) 2.150 Suphonation reaction
Process Water 0.100
Process Water 1.000 Stage 2
Urea 1.179 Condensation
Formaldehyde 2.464
Sodium Hydroxide 1.000
Process Water 1.100
Sodium Hydroxide 3.300 Addition
Sulphuric acid (98%) 0.300 at 70 - 80°C
Metaclaw CL liq 0.050
Transfer for Drying
Reacted Mass 14.371 Drying, Packing & Storage Water evaporation during drying 8.571
Tamol NNOL 5.800
Total input in MT 14.371 Total Output in MT 14.371
InputReaction / Operation / Equipment
Output
Prdoduct Name: Tamol XNL
Description Qty. in MT Description Qty. in MT
Process Water 6.205
Decaltal PIC A 1.375
Acetic acid 1.999
Sodium Hydroxide 3.945
PEG 200 (Pluriol E200) 0.920
Sorbitol solution 1.368
Sodium bisulphite 0.200
Packing & Storage Tamol XNL 16.012
Total input in MT 16.012 Total Output in MT 16.012
InputReaction / Operation / Equipment
Output
Blending
Prdoduct Name: Relugan D / DI
Description Qty. in MT Description Qty. in MT
Process Water 3.100 Stage 1
Sodium bisulphite 1.450
Formaldehyde 1.400
Tamol M 2.300
Melamine 0.350
Process Water 1.000 Stage 2
Urea 1.650 Addition at 60°C
Formaldehyde 1.300
Transfer for Drying
Reacted Mass 12.550 Drying, Packing & Storage Water evaporation during drying 7.550
Relugan D / DI 5.000
Total input in MT 12.550 Total Output in MT 12.550
InputReaction / Operation / Equipment
Output
Heating ~90°C
Prdoduct Name: Basyntan AN
Description Qty. in MT Description Qty. in MT
Phenol 1.692 Stage 1
Sulphuric acid (98%) 2.059 Suphonation reaction
Process water 0.800 Heating ~ 100°C
Urea 1.078 At ~ 80°C
Process water 0.590
Formaldehyde (37%) 1.670
Sodium Hydroxide 2.000
Process water 0.350 Stage 2
AN- Condensate 7.010 Condensation
Formaldehyde (37%) 0.340
Formic acid 0.275
Sodium sulphate 0.400
Packing & Storage Basyntan AN 18.264
Total input in MT 18.264 Total Output in MT 18.264
InputReaction / Operation / Equipment
Output
Prdoduct Name: Basyntan ANF
Description Qty. in MT Description Qty. in MT
Phenol 1.060 Stage 1
Sulphuric acid (98%) 1.350 Suphonation reaction
Heating ~ 100°C
Process water 0.770
Urea 0.690
Formaldehyde (37%) 1.050
Sodium Hydroxide 0.400
Ammonia 0.300
Sodium Hydroxide 0.500
Process water 2.770 Stage 2
Sodium bisulphite 1.200 Condensation
Formaldehyde (37%) 0.915
Aniline 0.225
Melamine 0.090
Urea 0.150
Formaldehyde 0.460 Heating ~ 90°C
Formic acid 0.025
Relugan AME 3.100 Addition at RT
Process water 0.315
Packing & Storage Basyntan ANF 15.370
Total input in MT 15.370 Total Output in MT 15.370
InputReaction / Operation / Equipment
Output
Addition at ~ 70°C
Prdoduct Name: Basyntan AN Condensate
Description Qty. in MT Description Qty. in MT
Process water 4.000 Stage 1
Sodium metabisulphite 4.000 Mixing
Heating ~ 70°C
Process water 0.400
Formaldehyde 2.886
Sodium Hydroxide 0.150
Aniline 0.672 Stage 2
Melamine 0.275
Process water 0.200 Addition at ~ 90°C
Urea 0.450
Process water 0.200
Formaldehyde 0.792
Packing & Storage Basyntan AN Condensate 14.025
Total input in MT 14.025 Total Output in MT 14.025
InputReaction / Operation / Equipment
Output
Prdoduct Name: Basyntan DLE
Description Qty. in MT Description Qty. in MT
Phenol 1.800 Stage 1
Sulphuric acid (98%) 2.146 Suphonation reaction
Heating ~ 100°C
Process water 1.590 Stage 2
Urea 1.244 1st Condensation
Formaldehyde (37%) 2.943
Sodium Hydroxide 0.356 Addition at ~ 80°C
Process water 0.380 Stage 3
Phenol 1.197 2nd Condensation
Metaclaw CL liq 0.050
Formaldehyde (37%) 0.814 Addition at ~ 60°C
Sodium Hydroxide 1.752
Process water 1.800
Decaltal PIC A 0.400
Sulphuric acid (98%) 0.023
Sodium hydro sulfite 0.005
Packing & Storage Basyntan DLE 16.500
Total input in MT 16.500 Total Output in MT 16.500
InputReaction / Operation / Equipment
Output
Prdoduct Name: Basyntan FB DI
Description Qty. in MT Description Qty. in MT
Phenol 1.800 Stage 1
Sulphuric acid (98%) 2.146 Suphonation reaction
Heating ~ 100°C
Process water 1.325 Stage 2
Urea 1.228 1st Condensation
Formaldehyde (37%) 2.943
Sodium Hydroxide 0.356 Addition at ~ 80°C
Process water 0.609 Stage 3
Phenol 1.200 2nd Condensation
Metaclaw CL liq 0.050
Formaldehyde (37%) 0.825 Addition at ~ 60°C
Sodium Hydroxide 1.750
Process water 1.800
Decaltal PIC A 0.575
Pthalic anhydride 0.300
Formic acid 0.300
Sodium sulphate 0.650
FBL 1 3.600 Transfer for Drying
Reacted Mass 21.457 Water evaporation during drying 10.857
Basyntan FB DI 10.600
Total input in MT 21.457 Total Output in MT 21.457
InputReaction / Operation / Equipment
Output
Drying, Packing & Storage
Prdoduct Name: Basyntan FB. P
Description Qty. in MT Description Qty. in MT
Process water 0.250 Stage 1
Phenol 2.500 Addition at ~ 60°C
Sodium Hydroxide 0.175
Formaldehyde (37%) 2.550 Heating up to ~ 90°C
Sodium bisulphite 0.700 Stage 2
Urea 0.400
Sodium bisulphite 0.400
DLE solution 8.000
Process water 0.500
Metaclaw CL liq 0.100 Mixing at ~ 85°C
Decaltal PIC A 0.550
Sodium sulphate 0.500
Process water 2.000
Sulphuric acid (98%) 0.200
Sodium sulphate 1.300
Reacted Mass 20.125 Water evaporation during drying 9.325
Basyntan FB DI 10.800
Total input in MT 20.125 Total Output in MT 20.125
InputReaction / Operation / Equipment
Output
Drying, Packing & Storage
Prdoduct Name: Basyntan XA
Description Qty. in MT Description Qty. in MT
Phenol 1.800 Stage 1
Sulphuric acid (98%) 2.147 Suphonation reaction
Heating ~ 100°C
Process water 0.680 Stage 2
Urea 1.244 1st Condensation
Process water 0.920
Formaldehyde (37%) 2.944
Sodium Hydroxide 0.356 Addition at ~ 80°C
Process water 0.505 Stage 3
Phenol 1.197 2nd Condensation
Metaclaw CL liq 0.050
Formaldehyde (37%) 0.812 Addition at ~ 60°C
Sodium Hydroxide 1.750
Process water 2.000
Sodium hydro sulfite 0.005
Transfer for Drying
Reacted Mass 16.410 Water evaporation during drying 9.210
Basyntan XA 7.200
Total input in MT 16.410 Total Output in MT 16.410
InputReaction / Operation / Equipment
Output
Drying, Packing & Storage
Prdoduct Name: Floating Agent (DPW-EVH-1873
Description Qty. in MT Description Qty. in MT
Pluronic PE-10100 9.500
Escaid 110 9.500
Oxooil 9N 1.000
Packing & Storage Floating Agent (DPW-EVH-1873 20.000
Total input in MT 20.000 Total Output in MT 20.000
InputReaction / Operation / Equipment
Output
Blending
DESCRIPTION OF SPARY DRYING AND PACKING PROCESS:
Spray drying of Pergasol Paper Dyes & Sokalan Paper and Water Treatment Chemicals to
produce dry powder from a liquid or slurry by rapidly drying with a hot air and maintaining
consistent particle size.
After drying, the powder then cooled up to ambient temperature and product quality to be
check as per products specification. After QA approval, powder products are transfer in bags
for packing as per customer requirement.
Packed materials transfer to storage facility for dispatch.
ANNEXURE: 4
WATER CONSUMPTION AND EFFLUENT GENERATION
WATER CONSUMPTION
Water consumption
QUANTITY (KL/DAY)
EXISTING ADDITIONAL TOTAL
Domestic 44 0 44
Gardening -- 7 7
Industrial Process 132 53 185
Boiler 150 0 150
Cooling 44 0 44
Washing 70 0 70
Total (Industrial) 396 53 449
Total Water Consumption KL/day 440 60 500
WASTEWATER GENERATION
Wastewater Generation
QUANTITY (KL/DAY)
EXISTING ADDITIONAL TOTAL
Domestic 35 0 35
Industrial Process 117 0 117
Boiler 14 0 14
Cooling 10 0 10
Washing 44 0 44
Total (Industrial) 185 0 185
Total Wastewater Generation KL/day 220 0 220
Note:
1) Domestic effluent shall be disposed off through septic tank& soak pit system or
shall be treated along with industrial effluent and discharged into GIDC
underground drainage system and conveyed to FETP (NCT).
2) The industrial effluent is treated & discharged into GIDC underground drainage
pipeline & conveyed to final pumping station, Ankleshwar and then FETP (NCT)
for further treatment. ultimately discharged into deep sea through NCT pipeline.
WATER BALANCE DIAGRAM:
220 KL/Day: After treatment sent to FCETP of M/s
NCT through GIDC Pipe line for final treatment &
disposal in to Deep Sea.
Raw Water: 500 KL/Day from GIDC
Domestic:
44 KL/Day
Process:
185 KL/Day Boiler:
150 KL/Day
Washing:
70 KL/Day Gardening:
7 KL/Day
Septic tank &
Soak Pit:
35 KL/Day
117 KL/Day 14 KL/Day 10 KL/Day
ETP: 220 KL/Day
Cooling
Tower:
44 KL/Day
44 KL/Day
ANNEXURE: 5
Details of Effluent Treatment Scheme
EFFLUENT TREATMENT PLANT PROCESS DESCRIPTION:
The waste water from plant (EM products) is goes by gravity to the plant sump (Cap. 33 KL)
from where its transfer by pump to 2 WWTP-1 vessel where pH of the waste water is
reduced to 2.0 to 3.0 by adding Hydrochloric Acid / Sulphuric acid and then polyelectrolyte
solution to improve the flocculation.
The precipitated & flocculated waste water is passed though filter press to remove
flocculated mass and the filtered waste water coming out from the filter press is sent to ETP
for further treatment.
Another stream of wastewater from production process (EP products) is collect in plant
sump of Cap. 15 KL from where its transfer to WWTP through pump.
The effluent from the production plant comes to collection cum equalization tank. The
collection cum equalization tank is fitted with agitator to keep mass in homogenized
condition. As and when collection tank is filled up pH of the effluent is checked and
corrected to PH 7.0 to 7.5 by caustic.
After neutralization, the wastewater is pass through filter press to remove the suspended
solid. The filtrated waste water coming out from the filter press is collected in MEE feed
tank and solid waste received from filter press is sent to solid waste storage shed for
disposal at TSDF
The wastewater from MEE feed tank is send to Multi Effect Evaporator for further treatment
as per flow chart. The MEE distillate is collect in final effluent storage tank for disposal and
salt received from the MEE is collected in bags & transfer solid waste storage shed for
disposal at TSDF.
a) Primary treatment flow diagram:
Solid Waste to Storage Shed
FP-03
Pump
FP-11
Treated waste water to
WWTP for further
treatment
HCl from Day Tank
Polyelectrolyte SolutionEffluent from Plant
Sump
Vent to Scrubber
WWT- 01
Cap: 20 KL
106
b) FLOW DIAGRAM OF EFFLUENT TREATMENT PLAN:
Lab Sump 10 kl
Primary
Treatment ETP Inlet Tank
75 kl
FP-01
FP-02
MEE Feed Tank 75 kl
MEE Cap. 330 kl/day
Activated Carbon
Bed
TSDF
MEE Waste Belt Filter
Solid waste storage
shed Process Cooling Tower Floor Washing
To FETP through underground
drainage
Filtrate Holding
Tank 140 kl
Holding Tank 90 KL
Condensate Holding Tank 100 kl
Final Discharge
Tank 10 KL
Gate Sump 10 kl
Emergency Tank 460 kl
Concentrate Recycle
Septic Tank
No. 2
FP-03
FP-04
Plant Sump 20 kl
Domestic
Waste Water
Septic Tank
No. 1
Tank No.1 15 kL
Tank No.2 15 kL
108
ANNEXURE: 6
DETAILS OF HAZARDOUS SOLID WASTE MANAGEMENT AND DISPOSAL
Sr.
No.
Name of Hazardous
Waste Schedule Catg.
Quantity in MT/Annum Storage / Disposal
Existing Additional Total
1 Process Waste
Sludge/Residue
Containing Acid,
Toxic Metals,
Organic compounds
I 26.1 308 0 308 Organic waste from MEE Conc and Hyflow waste
from process: Disposal by incineration in
common incinerator facility such as
BEIL/GSPL/SEPPL or co-processing by giving to
RSPL
2 Spent carbon I 28.3
5 0 5 Disposal by incineration in common incinerator
facility such as BEIL / GSPL/SEPPL or
co-processing in Cement industries or by
giving to RSPL
3 Off Specification
Products
I 28.4 50 50 100 Disposal by incineration in common incinerator
facility such as BEIL / GSPL/SEPPL or
co-processing in Cement industries or by
giving to RSPL
4 Empty barrels
/containers/liners
Contaminated with
hazardous
chemicals /wastes
I 33.1 40.4 19.6 60 Non-Recyclable Plastic waste & used PPE,
Filter Plates, Cloths, Cartridges, waste insulation
materials, broken glass ware: Disposal by send
to authorized TSDF such as BEIL/SEPPL
5 Empty barrels
/containers/liners
Contaminated with
hazardous
chemicals /wastes
I 33.1 230 220 450 Disposal by send it to authorized
decontamination facility / recycler or reuse or
send back to supplier
6 Chemical sludge
from waste
water treatment
I 35.3 3000 0 3000 MEE Salt: Disposal by selling it to authorized end
user or disposal at TSDF (BEIL/SEPPL).
109
7 Chemical sludge
from waste
water treatment
I 35.3 1800 200 2000 ETP waste disposal by send to authorized TSDF
such as BEIL/SEPPL.
8 Used or Spent Oil I 5.1 10 5 15 Disposal by Reuse in plant & machinery as
lubricant or sell it to authorized re-refiners /
recycler.
9 E-waste -- -- 10 0 10 E-waste disposal by sell it to GPCB authorized
recycler.
10 Spent ion exchange
Resin
I 35.2 0 25 25 Spent ion exchange resin from waster
softening/DM plant: Disposal by sending to TSDF
of M/s. BEIL, Ankleshwar / SEPPL or send back to
supplier.
110
ANNEXURE: 7
DETAILS OF FLUE & PROCESS GAS EMISSION
DETAILS OF AIR POLLUTION CONTROL MEASURES
DETAILS OF FUEL CONSUMPTION: (NO CHANGE)
SR.
NO. NAME OF FUEL
EXISTING
QUANTITY
PROPOSED
QUANTITY TOTAL QUANTITY
1. Diesel 800 lit/day - 800 lit/day
2. LDO 100 lit/day - 100 lit/day
3. Natural Gas 5,000 SM3/ Hrs. - 5,000 SM
3/ Hrs.
4.
LDO /Furness OIL
(FO) *
20 KL / Day - 20 KL / Day
Note: * Required for MEE/Boiler/Spray dryer during emergency (in case non-availability of Natural Gas) only.
DETAILS OF FLUE GAS EMISSION FROM STACK: (NO CHANGE)
SR.
NO.
Stack ID STACK
ATTACHED TO
FUEL STACK HEIGHT
IN METER
PARAMETER PERMISSIBLE
LIMIT
1. 36889 Boiler-1
(Cap. 2.5 T/Hrs.)
Natural Gas /
Diesel/FO 33
SPM
SOX
NOX
150 mg/NM3
100 PPM
50 PPM
Boiler-3
(Cap. 0.8 T/Hrs)
Natural Gas /
Diesel/ FO
2. 68209 Boiler-2
(Cap. 3.0 T/Hrs.)
Natural Gas /
Diesel/ FO 30
3. 8920 DG set- 1
(Cap. 380 KVA) Diesel / LDO 14
4. 36892 DG set- 2
(Cap. 500 KVA) Diesel / LDO 14
111
5. 68210 DG set- 3
(Cap. 1250 KVA) Diesel / LDO 32
6.
8921 Hot Air
Generator
For Spray Dryer –
1 (Cap. 32.5 Lakh
kcal/Hr.)
Natural Gas /
Diesel/ FO 27
7.
36890 Hot Air
Generator
For Spray Dryer –
2 (Cap. 8 Lakh
kcal/Hr.)
Natural Gas /
Diesel/ FO 27
8.
36891 Hot Air
Generator
For Spray Dryer –
3 (Cap. 8 Lakh
kcal/Hr.)
Natural Gas /
Diesel/ FO 32
9.
95041 Hot Air
Generator
For Spin Flash
Dryer – 1 Cap.
2.25 Lakh
kcal/Hr.
Natural Gas /
Diesel/ FO 27
10.
36898 Multiple Effect
Evaporator –
(Thermic fluid
heater)
Natural Gas /
Diesel /FO 32
112
DETAILS OF PROCESS GAS EMISSION FORM VENT:
SR.
NO.
Stack ID STACK
ATTACHED TO
STACK
HEIGHT IN
METER
AIR
POLLUTION
CONTROL
SYSTEM
PARAMET
ER
PERMISSIBLE
LIMIT
1. 36895 Dust Collector
For Spray Dryer – 1 27
Bag Filters PM PM-150mg/NM3
2. 36896 Dust Collector
For Spray Dryer – 2 27
3. 36897 Dust Collector
For Spray Dryer – 3 27
4. 68212 Dust Collector
For Spin Flash Dryer
– 1
27
5. 36894 Vent attached to
process reactors 27 Alkali
Scrubber-1
HCL HCl-20 mg/NM3 6. 36893 Vent attached to
chemical charging
cabin.
27 Alkali
Scrubber-2
7. 68213 Vent attached to HCl
storage Tanks. 9 Alkali
Scrubber-3
8. Proposed Vent attached to
Laboratories fume
hoods & Lab
chemicals storage
cabinets
18
HCL HCl-20 mg/NM3
Note: Stack height is including building height.
113
ANNEXURE: 8
DETAILS HAZARDOUS CHEMICAL STORAGE FACILITY
Storage Details of Hazardous Chemicals
Tank No.
Name of Materials
Type of Hazard
Kind of Storage
Tank MOC
Max. Quantity
to be stored in
(M3)
Tank Dimensions in
(Mtr.) Dyek Dimensions in (Mtr.)
Dia (M)
Height (M)
Length (M)
Width (M)
Height (M)
B-5401 Morpholine Flammable Above Ground
Tank SS304 100 4.0 8.0 10.6 7.74 1.61
B-6610 Idle --- Above Ground
Tank SS304 100 4.0 8.0 10.45 7.7 1.64
B-5403 Aniline Toxic Above Ground
Tank SS304 100 4.0 8.0 10.4 7.75 1.6
B-5404 Diethanolamine Corrosive Above Ground
Tank MS 30 3.188 4.0 5.84 7.78 1.61
B-5405 Aniline Toxic Above Ground
Tank MS 30 3.188 4.0 5.85 7.75 1.57
B-5406 Sodium Hydroxide ~48%
Corrosive Above Ground
Tank MS 30 3.184 4.0 5.78 7.77 1.56
B-5407 Sodium Hydroxide ~ 48%
Corrosive Above Ground
Tank MS 30 3.184 4.0 5.8 7.7 1.57
B-5408 Hydrochloric acid ~ 32%
Corrosive Above Ground
Tank PP+FR
P 24 2.8 3.9 5.81 7.78 1.6
B-5409 Hydrochloric acid ~ 32%
Corrosive Above Ground
Tank PP+FR
P 24 2.8 3.9 5.84 7.75 1.62
Finish Goods Storage Tank Farm Details (Existing)
B-6201 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 20 2.75 3.3 6.34 6.62 1.52
B-6202 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 50 3.5 5.2 6.29 6.63 1.6
B-6203 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 50 3.5 5.2 6.24 6.6 1.6
B-6301 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 20 2.75 3.3 6.3 6.55 1.62
114
B-6302 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 20 2.75 3.3 6.33 6.63 1.57
B-6303 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 20 2.75 3.3 6.31 6.63 1.57
B-6304 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 50 3.5 5.2 6.24 6.64 1.63
B-6305 Tinopal Liquid Non
Hazardous Above Ground
Tank MSRL 50 3.5 5.2 6.23 6.67 1.57
115
Note: Remaining chemical stored in ware house.
Control measures provided for Raw Material Tank Farm:
1 Flame proof electrical fitting & intrinsically safe instruments are installed.
2 Flame arrestor installed on vent pipe with breather valve.
3 Earth fault relay trip installed for Morpholine tanker unloading pump having interlock with grounding of the tanker to make 100% grounding.
4 Road Tanker grounded before unloading for morpholine.
5 Convenient metallic SS hose pipes provided for tanker unloading for better connectivity.
6 Deep in let pipe provided inner side of the solvent tanks.
7 Check list is followed for loading & unloading.
8 Level indicator provided on the tank.
9 Adequate dyke wall is provided.
10 Leakage collection sump and pumping arrangement provided.
11 Fire (Foam / Powder) extinguisher, Foam monitors is provided.
12 F-30 coating provided for storage tanks.
13 Closed handling system is provided.
14 Acid proof tilelining / coating provided for HCL storage dyke wall.
15 Level switch provided for overfill protection
16 Scrubber system installed for HCL storage tank & used during road tanker unloading.
17 Dedicated pumps are provided and located with its close proximity to the respective tank to avoid unintentional mistake of mixing of chemicals.
18 Leakage / Spillage handling kit provided.
19 To avoid chemical exposure, closed handling system is provided.
20 Fire hydrant system provided.
Control measures provided for Finish liquid Tank Farm:
1 Convenient metallic SS hose pipes provided for tanker unloading for better connectivity.
2 Check list is followed for loading & unloading.
3 Level indicator provided on the tank along with auto on/off valve for high level.
4 Adequate dyke wall is provided.
5 Leakage collection sump and pumping arragment provided.
6 Fire extinguisher is provided.
7 F-30 coating provided for storage tanks.
8 Closed handling system is provided.
9 Dedicated pumps are provided and located with its close proximity to the respective tank to avoid unintentional mistake of wrong packing.
10 Leakage / Spillage handling kit provided.
11 To avoid chemical exposure, closed handling system is provided.
12 Fire hydrant system provided with foam & water monitors.
Control measures provided for Warehouse :
1 Fixed electrical fitting is provided. Lighting is installed between racks above the gangways & away from material storage to avoid heating to storage goods.
2 Electrical fitting tested periodically (i.e. electrical load thermo graphic temperature measurement, mechanical integrity of cables, physical condition of cable & other electrical appliances / installation.)
3 BT reach truck battery charging station is provided in well ventilation area
4 Appropriate passage, gangways provided.
5 Adequate portable fire extinguishers installed at noticeable position & kept easily accessible.
6 Fire hydrant system provided.
116
Fire Alarm System: Automatic fire detection & alarm system consists of Fire Detectors, Addressable Manual Call Points (MCP) & Hooters, somke /heat Detectors (Ware House) are placed at strategic locations and connected by cable to central control panel at ECC (Seurity Office).
7 Emergency exit provided.
8 A warehouse is used exclusively for storage activities. Loose chemical handling not allowed.
9 Chemical segregation is done based on compatibility.
10 In case of maintenance work, Ignition sources controlled by hot work permit system.
11 Natural & Eco ventilator is provided.
12 Proper drainage system is provided for used fire water collection.
13 Lightening arrestor installed and all area of warehouse is fully protected from lightening.
117
ANNEXURE 9
SOCIO - ECONOMIC IMPACTS
1) EMPLOYMENT OPPORTUNITIES
The manpower requirement for the proposed project is expected to generate some permanent
jobs and secondary jobs for the operation and maintenance of plant. This will increase direct /
indirect employment opportunities and ancillary business development to some extent for the
local population. This phase is expected to create a beneficial impact on the local socio-economic
environment.
2) INDUSTRIES
Required raw materials and skilled and unskilled labors will be utilized maximum from the local
area. The increasing industrial activity will boost the commercial and economical status of the
locality, to some extent.
3) PUBLIC HEALTH
The company regularly examines, inspects and tests its emission from sources to make sure that
the emission is below the permissible limit. Hence, there will not be any significant change in the
status of sanitation and the community health of the area, as sufficient measures have been
taken and proposed under the EMP.
4) TRANSPORTATION AND COMMUNICATION
Since the existing factory is having proper linkage for the transport and communication, the
development of this project will not cause any additional impact.
In brief, as a result of the proposed project there will be no adverse impact on sanitation,
communication and community health, as sufficient measures have been proposed to be taken
under the EMP. The proposed project is not expected to make any significant change in the
existing status of the socio - economic environment of this region.
118
ANNEXURE – 10
PROPOSED DRAFT TERMS OF REFERENCE:
1. Project Description
• Justification of project.
• Promoters and their back ground
• Project site location along with site map of 5 km area and site details providing various
industries, surface water bodies, forests etc.
• Project cost
• Project location and Plant layout.
• Water source and utilization including proposed water balance.
• Product spectrum (proposed products along with production capacity) and process
• List of hazardous chemicals.
• Mass balance of each product
• Storage and Transportation of raw materials and products.
2. Description of the Environment and Baseline Data Collection
• Micrometeorological data for wind speed, direction, temperature, humidity and rainfall in 5 km
area.
• Existing environmental status Vis a Vis air, water, noise, soil in 5 km area from the project site.
For SPM, RSPM, SO2, NOx.
• Ground water quality at 5 locations within 5 km.
• Complete water balance
3. Socio Economic Data
• Existing socio-economic status, land use pattern and infrastructure facilities available in the study
area were surveyed.
4. Impacts Identification And Mitigatory Measures
• Identification of impacting activities from the proposed project during construction and
operational phase.
• Impact on air and mitigation measures including green belt
• Impact on water environment and mitigation measures
• Soil pollution source and mitigation measures
• Noise generation and control.
• Solid waste quantification and disposal.
5. Environmental Management Plan
• Details of pollution control measures
• Environment management team
• Proposed schedule for environmental monitoring including post project
119
6. Risk Assessment
• Objectives and methodology of risk assessment
• Details on storage facilities
• Process safety, transportation, fire fighting systems, safety features and emergency capabilities to
be adopted.
• Identification of hazards
• Consequence analysis through occurrence & evaluation of incidents
• Disaster Management Plan.
7. Information for Control of Fugitive Emissions
8. Post Project Monitoring Plan for Air, Water, Soil and Noise.
9. Information on Rain Water Harvesting
10. Green Belt Development plan