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2017
PRE-FEASIBILITY REPORT OF
MANUFACTURING UNIT OF NEW TECHNICAL
PESTICIDES
LOCATED AT HD-20, 21, 22 &23, UPSIDC INDUSTRIAL AREA, SIKANDRABAD,
DIST-BULANDSHAHR (UP)-203205
Project Proponent M/s Samradhi Crop Chemicals
Submitted to Ministry of Environment & Forests
New Delhi
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Contents 1. Executive Summary ......................................................................................................................... 3
2. Introduction of the project/Background information ....................................................................... 3
3. Project Description .......................................................................................................................... 6
4. Site Analysis ................................................................................................................................... 14
5. Planning Brief ................................................................................................................................ 16
6. Proposed Infrastructure ................................................................................................................. 17
7. Rehabilitation & Resettlement (R&R) Plan ..................................................................................... 17
8. Project Schedule & Cost Estimates ................................................................................................. 17
9. Analysis of proposal (Final Recommendations) .............................................................................. 17
10. Environmental Management Plan .............................................................................................. 18
11. CSR Activities ............................................................................................................................. 20
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1. Executive Summary
The agrochemicals industry is a significant industry for the Indian economy. The Indian
pesticides and insecticide industry is fourth largest in the world and the second in the Asia-
Pacific region only after China. Samradhi Crop Chemicals (SCC) is the leading company
engaged in business of agrochemicals in Indian market.
Samradhi Crop Chemicals (SCC) has proposed a new technical unit at HD-20, 21, 22 &23,
UPSIDC Industrial Area, Sikandrabad, Dist-Bulandshahr (UP)-203205.
As per EIA Notification dated 14.09.2006 and as amended on 01.12.2009, the project falls in
Category „A‟, S. No. - 5(b).
Table 1.1. Project at a Glance
1. Name of the Industry M/s Samradhi Crop Chemicals (SCC)
2. Products to be manufactured&
Capacity
Technical Pesticide (165 MTPA)
3. Total Plot Area 3200 Sq. M
4. Water Requirement 10 KLD
5. Power Requirement 110 KVA to be supplied by UPVVL
DG Sets: 1 No. (90 KVA,)
6. Manpower Requirement 32 Persons
7. Project cost Rs 4 Crores
8. Recurring cost/ annum for
environmental pollution control
measures
Rs. 4 Lac/ Annum
2. Introduction of the project/Background information
a) Identification of project and project proponent
Samradhi Crop Chemicals (SCC) has proposed a new technical unit at HD-20, 21, 22 &23,
UPSIDC Industrial Area, Sikandrabad, Dist-Bulandshahr (UP)-203205. As per the EIA
notification dated 14th September, 2006, as amended till date, the proposed project falls under
category 5(b), Pesticides Industry and Pesticide Specific Intermediates of Activity:
Manufacturing Process, which shall be treated as Category “A”.
Samradhi Crop Chemicals (SCC) is a well-known company in agrochemical industry. Banking
on their rich collective experience of over 10 years, to the farmer community it is simply known
as SCC. It has been working extensively with the farming community to help them raise better
and healthy crops.
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b) Brief Description of nature of the project
Proposed project is a Greenfield project consisting of manufacturing units of technical grade
pesticides at HD-20, 21, 22 &23, UPSIDC Industrial Area, Sikandrabad, Dist-Bulandshahr (UP)-
203205.
c) Need for the Project and its Importance to the Country and or Region
The role of the pesticides in the well-being of human race needs no emphasis. Pesticide usage
has become essential in order to maximize agriculture production and reduce public health
pestilence. The rapid changes in cropping patterns, increased fertilization and adoption of
programs for high yielding varieties have all contributed to increased use of pesticides. Further,
pest problems keep on changing with the changing environment. New physiological kinds evolve
as a result of mutations to withstand new conditions in nature. Many pest species develop
resistant strains when the same Pesticide is used far too often. The problems of pest resurgence
and secondary pest out-breaks crop up with the indiscriminate use of pesticides. These associated
problems offer a great scope for revolutionizing the use of pesticides. However, in India though
the overcall pesticide growth figures may appear impressive, the rate of consumption per hectare
of cultivated land is very low in comparison per hectare of cultivated land is very low in
comparison to other countries. India used 180 g of pesticides/ha. as against 10,790g, 1870 g and
1490 g/ha used in Japan, Europe and U.S.A. respectively. India spent just Rs. 2.15/ha. on
pesticides while Japan and U.S.A spent Rs.110/ha and Rs.35/ha respectively during the same
period. India consumed 12 gm. of pesticides per kg. of fertilizer used against 146 gm. in Japan in
and 19 gm in U.S.A in . This is one of the major factors that can be attributed to low per hectare
yields in our country since the crops and especially the high yielding varieties cannot manifest
their production potential in absence of proper pest protection. That the production potential
remains suppressed for want of protection can be exemplified by considering how in wheat, a
crop comparatively resistant to insect pestilence, we have had a “revolution” where as in paddy
which is one of the most heavily infested crops, we have had no break-through. In case of wheat,
the per hectare yield in India rose from 827 kg.to 1338 kg. Corresponding yields of paddy in
India on the other hand was 1826 kg. as against 6185 kg. 5326 kg. , 5105 kg.and 4000 kg. in
Japan, Egypt, USA and USSR respectively.
Within the country itself, there is a great imbalance between different regions with regard to the
use of pesticides. Of the total of approximately Rs.5000 million spent on pesticides in at the farm
level, south contributed for about 45 per cent of the total consumption in the rest of the country.
d) Demand supply gap
The Indian pesticides industry is characterized by low capacity utilization. The present total
installed capacity is 146,000 tonnes and has a low capacity utilization of< 60%. The industry
suffers from high inventory owing to seasonal and irregular demand on account of monsoons.
The consumption of pesticides in India is low in comparison to other countries. There is a
marked difference in the consumption pattern of pesticides in India vis-à-vis the rest of the world
.Insecticides account for 76% of the total domestic market. On the other hand, herbicides and
fungicides have a significantly higher share in the global market. Crops like cotton, wheat and
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rice to gather account for 70% of total agrochemical consumption. The consumption of
pesticides in India is low in comparison to other countries. The industry suffers from high
inventory (owing to seasonal & irregular demand on account Of monsoons) and long credit
periods to farmers, thus
Making operations' working capital' intensive. India due to its inherent strength of low-cost flow
manufacturing and qualified low-cost manpower is a net exporter of pesticides to countries such
as USA and Some European & African countries Exports formed~37% of total industry turnover
in FY 13.
Since the requirement of Pesticides is increasing @ 10% to 15% every year, there is a huge gap
between the demand and supply
e) Import vs indigenous production
India is the 4th largest producer of pesticides after USA, Japan and China. India is the second
largest producer of pesticides in Asia. The Indian pesticides industry has been growing at 8-9%
p.a. over the past five years (FY07-FY11).Industry size is estimated to be $3.8 billion in FY11
with exports accounting for 50% of the market. Over the XIIth plan period, the segment is
expected to grow at 12-13% p.a. with domestic demand growing at 8-9% p.a. and export demand
at 15-16%p.a.Three broad categories of companies are present in the industry-Multi-National,
Indian including the public sector companies and small sector units. There are about 125
technical grade pesticides manufacturers in the country of which about 60 are in the organized
sector, and 10 are, multinationals. There are about 800 pesticides formulators in the country
.Most Indian technical manufacturers are focused on off patent pesticides.
At present more than 70% requirement is fulfilled by import and there is urgent need to create
indigenous manufacturing facilities to provide better Quality at optimum cost.
f) Export possibility
Global generic market of pesticides was $45 billion. Export opportunities for Indian companies
are immense with Key markets being USA, France, Netherlands, South Africa, and Bangladesh.
All the products have very high possibilities of Export
g) Domestic/export markets
The Indian pesticides industry grew at a rate of 8-9% over the past five years (fy07-fy11)
.industry size is estimated to be $3.8 billion in FY11
With exports accounting for~50% of the market .Over the XIIth plan period, the segment is
expected to grow at 12-13%per annum with domestic demand growing at 8-9% per annum and
export demand growing at 15-16% per annum. Based on the Export Potential and Potential for
increased penetration in the domestic market, the Indian agrochemical industry target a size of
US $7.7 billion by FY17.
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The technical grade pesticides will be sold to many formulators all over the country. At the same
time export will be done to Middle East, Latin America and south Asian countries
h) Employment Generation (Direct and Indirect) due to the project During the construction phase, around 25 workers and during operational phase around 32
workers (including contractors) will be required. Local skilled and semi-skilled workers will be
engaged during construction phase of the project. Local skilled and semi-skilled workers will be
engaged during construction phase. The positives impact includes enhanced direct employment
for technical/ administrative works and in direct employment opportunities for transporters of
raw materials and finished goods.
3. Project Description (I) Type of Project Interlinked And Interdependent Projects, if any
Proposed Industrial project falls under „section 5(b)‟ for Manufacturing of pesticides and their
intermediates in „Category A‟ as per EIA notification dated 14th September 2006 and its
amendment on 1st December 2009.
(II) Location (map showing general location , specific location, project boundary & project site layout) with coordinates
The geographical location of the project site is:
Latitude: 28°29'0.15"N
Longitude: 77°39'12.02"E
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The satellite view of the site can be reveled from the Figure 1.1.
Figure 1.1 10 Km Google Map of Project Site
(III) Details of alternate sites considered and the basis of selecting the proposed site, particularly the environmental considerations gone in to should be highlighted
The proposed site is located inside the notified industrial area of UPSIDC, Sikandrabad with
availability of all resources for the development of an industry. So, no any alternate examined.
(IV) Size or magnitude of operation
Pesticides are being produced in batch process. The total capacity of the proposed technical
grade pesticide will be 165 .
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Table 1.1 Product List with Capacity
S.
No.
Technical grade
pesticides
Grade Physical state Production in
MTPA
1 Glyphosate Tech. Herbicides Solid 30 MTPA
2 Pretilachlor Tech. Herbicides Liquid 30 MTPA
3 Thiomethoxam Tech. Insecticides Solid 60 MTPA
4 Bifenthrin Tech. Insecticides Solid 15 MTPA
5 Fipronil Tech. Insecticides Solid 15 MTPA
6 Imidacloprid Tech. Insecticides Solid 15 MTPA
Total 165 MTPA
(V) Project description with process details (Schematic diagram/ flowchart showing the project layout, components of project etc. should be given)
Manufacturing process steps of pesticides is described in section below:
Manufacturing Process of each product is given with material balance in annexure 3.
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(VI) Raw material required along, likely source, marketing area of final product/s, mode of transport of raw material and finished product.
Raw material shall be sourced from registered supplier within India and Imported (if required)
based on the need and availability.
Table 1.2 List of Raw material
S.
No.
Raw Material S. No. Raw Material
1 Formaldehyde 20 K2CO3
2 Phosphorous Trichloride 21 Hexane
3 Glycine 22 NaHCO3
4 Sodium Hydroxide 23 5-amino-3-cyno-1-(2,6-dichloro-4-trifluoro
methyl phenyl)-1H-pyrazole
5 Hydrochloric Acid 24 Ethylene Di Chloride (EDC) (Fresh +
Recovered)
6 S phenyl 25 Tri florometthanesulfinyl chloride
7 Chlorine 26 Trmethyl amine hydrochloride
8 Sulfur Dioxide 27 4- DMAP
9 Toluene 28 Ammonia solution
10 DMC 29 Cholormethyl Pyridine (CMP)
11 2,6 Diethyl aniline bromo-2- 30 AIBN
12 Proproxyethane 31 DMF
13 Sodium Carbonate 32 PPN
14 2,6-Diethyl –N-(2-
proxyethyl) Aniline
33 Imidinezole
15 Choro acetyl chloride 34 Potassium Carbonate
16 Triethylamine 35 NaCl
17 MTH Acid 36 Sodium Hypochlorite
18 BPC 37 Methanol
19 DMF
Mode of transportation: Mainly by Road as the project side is well connected to the NH 91.
(VII) Resource optimization/ recycling and reuse envisaged in the product
All the solvents used will be recovered and recycled for all products. Energy efficient equipment
will be installed at all locations. Waste water will also be reused after proper treatment. There
will be no discharge from the site.
(VIII) Availability of water its source, Energy/ power requirement and source should be given
a. Water requirement:
Proposed Fresh Water Consumption: 10.00 KLD
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Source: Bore well
The area lies in non notified overexploited area as per CGWA.
Water Balance Daigram
b. Power requirement The total power requirement for the project will be as follows:
Table 1.3. Power Requirement
HaryanaState Electricity Board 110 KVA to be supplied by UP Paschimanchal Vidyut Vitran
Nigam Ltd.
D.G. Set
(Stand By facility)
1 Nos. (90 KVA)
The power requirement of the proposed project will be met with the power supply from UP
Paschimanchal Vidyut Vitran Nigam Ltd. To meet Emergency power requirement of critical
operations for ensuring safety, DG sets will be provided as standby power back up (1 DG set of
90 KVA capacity will be installed).
c. Steam 1 MT capacity boiler (1 no.) will be installed with fuel consumption 12 kg briquettes per day.
d. Fuel Requirement
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The following fuel will be used as mentioned below. The mode of Transport of Fuel to Site will
be Trucks by road.
Table 1.4Fuel Requirements
Fuel Requirement
Pet coke or Wood or Light Diesel Oil 25 litre (DG set will be used as and when
required)
Thermic fluid heater 200 litre per day
e. Manpower Requirement
The total manpower requirement is mentioned below:
Table 1.5Manpower Requirements
S. No. Details Manpower Requirement
1. Manger General 1
2. Manager QC 1
3. Technical expert 1
4. Chemist 2
5. Production Supervisor 2
6. Store Keeper 1
7. Manager Account 1
8. Steno/clerk 2
9. Peon 1
10. Worker 16
11. Guard 4
Total 32
(IX) Quantity of wastes to be generated (liquid & solid) and scheme for their management / disposal
The waste water will be generated from the process, utilities and domestic area. The process
effluent will be treated in ETP (Capacity 10 KL). Also, utilities blowdowns and domestic
sewage will be disposing off in to septic tank followed soak pit.
Permeate from RO will be reused in cooling tower and reject will be treated to achieving
Zero Liquid discharge.
Reverse osmosis or ultrafiltration is used to recover and concentrate active ingredients.
Effluent treatment normally includes flocculation, coagulation, settling, carbon adsorption,
detoxification of pesticides by oxidation (using ultraviolet systems or peroxide solutions),
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and biological treatment. Exhausted carbon from absorption processes may be sent for
regeneration or combustion
a. Solid Wastes The lists of the waste generated in the proposed project are as follows:
Table 1.7 Types of Waste generation
Details Of Hazardous/Solid Waste
S.No. Type Of Waste Sources Quantity
in kg
Disposal Facility
1 Process solid waste
and residue
ETP
29.1 Collection, Storage, Transportation
& Disposal at TSDF Site (CTFD,
UP) Approved By UPPCB
2 Ash from boiler Boiler 36.2 If pet coke/wood is used
3 Process Residue Process 29.1 Collection, Storage and sent to
TSDF.
4 Chemical sludge ETP 34.3 Disposal at TSDF Site (CTFD, UP)
Approved By UPPCB 5 Used Lubricating
Oil
Driving
Units & DG
Set
5.1 Collection, Storage, Transportation
& Disposal By Selling To Registered
Recyclers
The applicable precautions will be taken in storing and handling of hazardous chemicals. All of
the Hazardous wastes will be disposed off as per guidance of State Pollution Control Board, UP.
All the necessary measures will be taken as per the MSIHC Rule 1989 &Hazardous Waste
(Management & Handling) Rules, 1989, The Hazardous Wastes (Management, Handling and
Trans-boundary Movement) Rules, 2008 & Rules amended thereof and these will be strictly
followed with. Solid wastes will be sent for disposal to authorized TSDF site.
b. Quantity of Effluent generated and its end use
Total 4.8 KLD to be treated in ETP and 2.0 KLD will be recycled back in the cooling tower.
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DETAILS OF WATER USAGE AND WASTE WATER GENERATION
DETAILS OF WATER USAGE AND WASTE WATER GENERATION
S. No. Area of Consumption Fresh
Water
Quantity,
KLD
Water
Recycled,
KLD
Waste Water
Generation,
KLD
Remarks
1 PROCESS 4.25 -- 2.50 To ETP
2 Domestic 0.75 -- 0.25 To soak pit via
septic tank
3 Gardening 2.0 -- --
4 Boiler 2.0 -- 0.75 Blow down ETP
5 Cooling Tower 2.0 2.0 0.75 --
7 Floor Washing 1.0 0.80 --
TOTAL 10.0 4.0 Total 4.80 KLD
to be treated in
ETP which will
be further used in
floor
washing/cooling
tower and
greenbelt
development.
4. Site Analysis (I) Connectivity
S.N. Particulars Description
1 Village
District
State
UPSIDC Industrial Area, Sikandrabad
Sikandrabad
Bulandshahr
2 Coordinates 28°29'0.15"N , 77°39'12.02"E
3 Most Populated Area Sikandrabad, 5.0 kms, SE direction
4 Surface Water Source within 10 Km No any surface water source
5 Nearest Densely Populated Areas Sikandrabad, 5.0 kms, SE direction
6 Nearest Highway NH-91,0.300km, S
7 Nearest Railway Station Sampla (Broad Gauge) 5.0kms in E
direction
8 Nearest Village Rajarampur, (0.86 km), W
9 Nearest Town Sikandrabad, 5.0 kms, SE direction
10 Nearest Airport Indira Gandhi International Airport –
15
87 Km (E)
11 Nearest Forest No Protected Forest
12 Recorded Sensitive Places There is no sensitive area in the study
area.
13 Historical Places There is no historical area in the study
area.
14 Location of National Parks/ Wildlife
Sanctuary within 10 Km radius of the project
site
There are no National Parks/ Wildlife
Sanctuary in the study area.
(II) Land Form, land use and Land ownership
The general elevation of the area is 686 feet. The area has plain topography and major area
around the project site is dominated by agricultural land.
(III) Topography
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(IV) Existing land use pattern (agriculture, non -agriculture, forest, water bodies (including area under CRZ), shortest distances from the periphery of the project to periphery of the forest, national park, wild life sanctuary, eco sensitive areas, water bodies (distance from the HFL of the river), CRZ. In case of notified industrial area, a copy of the Gazette Notification should be given
The proposed project is coming in the notified UPSIDC Industrial area.
(V) Existing infrastructure The proposed site is a Greenfield project and does not have any existing infrastructure.
(VI) Soil classification Bulandshahr district is characterised by six soil series depending upon their physio-chemical
properties. These soil series are Ganga Khadar Soil Series, Manpur Soil Series, Senta Soil Series,
Kota Soil Series, Aulera Soil Series and Ajeetpur Soil Series. A soil series name generally is
derived from a town or a landmark in or near the area where the soil series was first recognized
(Simonson, 1952). Soil series is a group of soils with similar profiles developed from similar
parent materials under comparable climatic and vegetational conditions.
(VII) Climate data from secondary sources The climate in Bulandshahr is warm and temperate. There is more rainfall in the winter than in
the summer in Bulandshahr. This climate is considered to be Csa according to the Köppen-
Geiger climate classification. The average annual temperature is 25.0 °C in Bulandshahr.
Precipitation here averages 826 mm.
(VIII) Social infrastructure available There are primary schools, dispensaries, small hospitals, places of worship in nearby area of
the project site.
5. Planning Brief (i) Planning concept (type of
industries, facilities, transportation
etc) Town and Country
Planning/Development authority
Classification.
Proposed project site lies inside the existing
UPSIDC, industrial area. The industrial area is
already having all types of facilities and
transportation facilities. NH-91 is located 0.300 km,
S.
(ii) Land use planning (breakup along
with the green belt etc).
Total Land : 3200.00 m2
Green belt development will be developed in an
area of 1056 m2 (33 %) of the total plot area of
3200 m2.
(iii) Assessment of infrastructure
Demand (Physical & Social).
Assessment of social infrastructure demand will be
done during social survey to be performed at the
time of EIA.
(iv) Amenities/Facilities. The proposed project is in the industrial area hence
basic Amenities like public transport, water supply,
telecommunications, educational institutions,
hospitals etc. are available in nearby area.
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6. Proposed Infrastructure (i) Total Area 3200 m2
(ii) Green Belt. Green belt development will be developed in an
area of 1056 m2 (33 %) of the total plot area of
3200 m2.
(iii) Social Infrastructure. None
(iv) Connectivity (traffic and
Transportation
Road/Rail/Metro/Water ways etc)
Nearest connectivity NH-91 at a distance of 0.300
km (S).
(v) Process / Drinking Water
Management (Source & Supply of
water)
Total water requirement of 10 KLD
Source: Bore well
The area lies in non notified overexploited area as
per CGWA.
(vi) Industrial Waste Management. Industrial Waste will be sent to waste
management facility.
(vii) Solid Waste Management. Solid waste will be sent to TSDF site for safe
disposal
(viii) Power Requirement & Supply /
source.
110 KVA will be obtained from UHVVNL. Also
1 DG sets is to be installed.
7. Rehabilitation & Resettlement (R&R) Plan Not Applicable
8. Project Schedule & Cost Estimates (I) Likely date of start of construction and likely data of completion (Time
Schedule for the project to be given)
The construction is likely to start after getting Environmental Clearance and NOC/CTO from the
EAC and SPCB. The EIA studies are likely to get completed in 14-16 months.
(II) Economic project cost along with analysis in terms of economic viability of the project
The estimated cost of the proposed Project is ~4 crore. The estimated cost towards
Environmental Protection is 4 lac/annum.
9. Analysis of proposal (Final Recommendations) (I) Financial and social benefits with special emphasis on the benefits to the
local people including tribal population, if any, in the area. Project will provide direct & indirect benefit to more than 32 people. The Entrepreneur
Social Responsibility will be fulfilled with the Capital Cost of Rs. 6.0 Lacs and a Recurring
cost of Rs. 60.0 Thousand for the local area development. The CSR activities will be
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identified with the need based assessment during the Social area survey and will be submitted
in the Final EIA/ EMP report.
10. Environmental Management Plan a) Air Pollution Control Gaseous emission from fuel burning, consist of common pollutants like SO2, NO2, and
PM would be discharged into atmosphere through Stack of suitable height.
Green belt will be developed covering >33% of the total project area, around the plant
boundary as dust preventive barrier.
Odor Control System: All the vents of the batch tanks and solvents are connected to
scrubber to absorb any pollutant / odor producing gases and chemicals. Green belt around
the plant boundary will absorb the odor to some extent.
The operation of centrifuging/ filter will be done in closed equipment to avoid any vapors
coming out in the local atmosphere. The vents of centrifuges / filters will be connected to
scrubbers.
The drying of the product is done in a closed type continuous Fluidized Bed dryer/ANFD
to avoid the exposure of any chemicals to human being.
Volatile organic solvents are carefully handled in a closed system, thereby preventing any
discharge of these chemicals into the air.
Process emission quality will be maintained as per the following standards:
NH3 < 175 mg/NM3
HCl <20 mg/NM3
SO2 <40 mg/NM3
Cl2 <9 mg/NM3
Adequate systems shall be provided to capture the emissions from process plants &
maintain the emission quality as per recommended guidelines with vent gas scrubber
systemhaving acid &caustic solution, before venting it in to the atmosphere.
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Table 1.11 Name of Equipment
Air Pollution Control Measures
S.
No.
Stack
Attached
to
Fuel Used Quantity
of Fuel
APCM Expected
Pollutants
Efficiency
of APCE
Stack
Height(m)
Flue Gas Stacks
1 Boilers Agrowaste
briquettes
(as per
availability)
1 MT 30 M PM, SO2
&NOx
70-80 % 35
2 Thermic
Fluid
Heater
LDO 200
Lit/day
30 M PM, SO2
&NOx
80-85% 30
3 DG Sets HSD 25 Ltr/day Adequate
Stack Ht.
PM, SO2
&NOx
- 15
Process Stacks / Vents
1 Process
Reactor –
Vents
- - Acid
Scrubber
HCl, HBr,
NH3,
NOx&
HC
99.5 % 35
All the above mentioned air pollution control measures shall be practiced to minimize air
pollution in and around plant.
b) Waste Water Management Out of total water requirement of 10 KLD, 8 KLD of fresh water will be required while the
industrial waste water generated (~ 4.50 KLD) will be treated in the Effluent Treatment Plant
ETP.After treatment (~2.0 KLD) will be recycled back in the cooling tower. The domestic
waste water will be sent to soak pit via septic tank.
c) Noise Environment Installation of the plant machinery will be done after- due consideration to design noise
levels and noise mitigation measures.
The green belt developed helps in reducing noise levels generated due to plant operations.
There will be no major sources of industrial noise; minor noise generated from the
industrial operations will be controlled by proper maintenance.
Proper mitigation measures will be taken in addition to above for the reduction of noise
levels i.e. use of acoustic enclosures and providing personal protective equipment etc. to
the workers.
Periodical monitoring for noise will be carried out on regular basis.
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Proper maintenance, oiling and greasing of machines at regular intervals will be done to
minimize generation of noise at source.
The D.G. sets will be provided with acoustic enclosures.
d) Solid Waste Management Minor quantities of construction waste will be generated in the form of packaging
material and construction waste. Proper care will be taken for handling and reduction of
the solid waste generated during construction phase.
During the operation phase the solid waste is being generated in the form of ETP sludge,
will be TSDF site approved by UPPCB.
The solid waste informs of drums & barrels will be sent to approvedagencies.
e) Green Belt Development/Plantation Green belt development in and around the project site will help in to attenuate the pollution level.
Out of the total plant area of 3200 Sq M, ~ 1056 Sqm(33%) land will be developed as green
belt. Green belt will be developed as per Central Pollution Control Board (CPCB) Norms. The
Avenue plantation will give priority to native species, and the periphery will be devoted to
generation of green belt area.
Green belt development in and around the project site will help in to attenuate the
pollution level.
Native species will be given priority for Avenue plantation.
The periphery will be devoted to generation of green belt area.
f) Hazardous Waste Management
HAZARDOUS WASTES CATEGORY AS PER HAZARDOUS WASTE THE HAZARDOUS
WASTES (MANAGEMENT, HANDLING AND TRANSBOUNDARY MOVEMENT)
RULES, 2008
(As specified under hazardous wastes / management handling rules 1989) amendment rule 2003.
Process wastes/ residue
Chemical sludge containing residue insecticides
Date expired and off-specification insecticides
All above waste are will be collected and stored at separate identified place and suitably disposed
off to authorized agencies.
11. CSR Activities
The project activity and the management will support the local Panchayat by providing of
assistance for the development of public amenities in the region and will help in improving the
overall infrastructure status of the area. Thus the proposed project of SCC will prove beneficial
to the local economy and society and will not lead to any adverse impact on the environment.
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