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Contents
1.0 EXECUTIVE SUMMARY .................................................................................................... 3
2.0 INTRODUCTION OF THE PROJECT ............................................................................. 4
2.1 Identification of project & Project Proponent .................................................................. 4
2.2 Nature of Project ..................................................................................................................... 4
2.3 Need of Project...................................................................................................................... 5
2.4 Demand Supply Gap ............................................................................................................. 5
2.5 Employment generation ....................................................................................................... 6
3.0 PROJECT DESCRIPTION ................................................................................................. 6
3.1 Type of Project ...................................................................................................................... 6
3.2 Location................................................................................................................................... 6
3.3 Size or Magnitude of Operations........................................................................................ 6
3.4 Project Description ............................................................................................................... 9
3.5 Water, Energy/Power requirement ................................................................................. 18
3.6 Schematic Representative of feasibility drawing which give information of EIA
Purpose ............................................................................................................................................... 18
4.0 SITE ANALYSIS ................................................................................................................... 20
4.1 Connectivity ........................................................................................................................... 20
4.2 Land Form, Land Use & Land ownership ..................................................................... 20
4.3 Topography: ......................................................................................................................... 20
4.4 Existing Land Use Pattern ................................................................................................. 20
4.5 Existing Infrastructure ......................................................................................................... 21
4.6 Soil Classification ................................................................................................................. 21
4.7 Climatic Conditions: ............................................................................................................. 21
4.8 Social infrastructure Available. ......................................................................................... 22
5.0 PLANNING BRIEF ............................................................................................................ 23
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5.1 Planning concept ................................................................................................................. 23
5.2 Population projection........................................................................................................... 23
5.3 Land Use Planning ............................................................................................................. 23
5.4 Assessment of infra structure Demand ........................................................................... 23
6.0 PROPOSE INFRASTRUCTURE ................................................................................... 23
6.1 Industrial Area (Processing Area) ................................................................................... 23
6.2 Residential Area (Non Processing Area) ...................................................................... 23
6.3 Green Belt.............................................................................................................................. 23
6.4 Social Infrastructure ........................................................................................................... 24
6.5 Connectivity .......................................................................................................................... 24
6.6 Drinking Water ..................................................................................................................... 24
6.7 Sewage ................................................................................................................................. 24
6.8 Industrial Waste Management ......................................................................................... 24
6.9 Power requirement ............................................................................................................. 24
7.0 REHABITATION AND RESETTLEMENT (R & R) PLAN ...................................... 24
8.0 PROJECT SCHEDULED AND PROJECT COST....................................................... 25
9.0 ANALYSIS OF PROPOSAL (FINAL RECOMMENDATIONS)…………………….25
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1.0 EXECUTIVE SUMMARY Indian Oil Corporation Ltd (IOCL) is a premier public sector company in the Oil & Gas
sector and is engaged in the business of refining and retailing of petroleum products
including LPG in the country. It is the leading Indian corporate in the Fortune “Global
500’ listing ranked at the 119th position in the year 2015. IOCL is having about 129 POL
Depot/Terminals, 91 LPG Bottling Plants which serve every nook and corner of the
country. Indane (the trade name of LPG of IOCL) is supplied to the consumers through a
network of about 5,456 distributors (51.8% of the industry).The growth in demand of LPG
for domestic purpose is increasing at a rapid pace. To improve safety standards in
Petroleum Industry, Ministry constituted OISD which establishes standards/practices to be
followed in petroleum sector from time to time.
The latest version of OISD standard for LPG Plant is OISD 144. The OISD 144 has given
stipulation on safety distance to be maintained between different facilities in LPG Plant
and also it gives the minimum safety measures to be taken for LPG Plants. Also OISD 150
will be followed for mounded vessel. The OISD 144/150 is accepted by Industry and
safety council and Govt. of India has advised to implement the same in all LPG Plants
across the country.
The proposed project is expansion one and target time frame for construction and
commissioning of the proposed project is 24 months from the date of granting
Environmental Clearance (EC) and allied approvals.
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SALIENT FEATURES OF THE PROJECT
Sr. No. Points Description 1. Title of the project M/S. INDIAN OIL CORPORATION LIMITED
Construction of additional storage of LPG, Indian Oil Corporation Ltd (M.D.), at Farrukhabad.
2 Site Location Khasra nos: 704,705,706,707,708,709/1,710/1,714,715,818,822,832 Gaisinghpur Village, Farrukhabad Tehsil & District Uttarpradesh
3 Land Acquired Land Area – 32.9Acres Existing Built up area – 9.5Acres Proposed Builtup area – 0.5Acres Open area – 11.0 Acres Greenbelt area – 12.0Acres
4 Cost of the Project Rs.26.43 crores (Approximately) 5 Proposed facilities 2 x 900 MT MSVs
60 TMTPA bottling capacity 6 Existing Capacities 2 × 150 MT & 1 × 660 MT
250 TPD bottling capacity 7 Proposed Air pollution
Control measures D.G. Sets of 2× 500 KVA & 1x250 KVA will be provided with appropriated stack height as per PPCB guidelines
8 Water Requirement Domestic : 9.0KLD Source of Waster: 3nos of Tube wells
9 Waste Water Treatment Waste water generated will be send to Septic Tank followed by soak pit
10 Recycle & Reuse Treated Water from STP will be used for Green Belt Development in the plant premises.
11 Solid & Hazardous Waste Management and Disposal
Used Lubricating oil: 8 MT
12 Green Belt Around 12.0 acres land is for Green Belt 13 No. of employee Existing: 32 nos (Officers – 09nos, Staffs – 23nos)
Proposed: 10nos
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2.0 INTRODUCTION OF THE PROJECT
2.1 Brief Description of Project
Indian Oil Corporation Limited (IOCL) proposes for additional storage of 2 x 900
MT capacity Mounded Storage Vessels and bottling capacity of 60TMTPA at
existing facility situated in Gaisinghpur (V), Farrukhabad (D), Uttar Pradesh to
meet the increasing demand in the state.
2.2 Nature of Project
Oil marketing companies have projected an increase in demand of Liquefied
Petroleum Gas (LPG) due to increase in its domestic use. The demand is likely to
increase substantially over the years to come. Oil PSUs have planned enrollment of
new customers to saturate the demand potential as per directive of the Ministry of
Petroleum and Natural Gas, Government of India.
As per vision 2015 Document of MOP & NG, Govt. of India, the LPG Penetration
has to be increased so as to achieve 75% penetration of LPG.
2.3 Need of Project
Oil marketing companies have projected an increase in demand of Liquefied
Petroleum Gas (LPG) in future due to increase in its domestic use. The demand is
likely to increase substantially over the years to come. Oil PSUs have planned
enrollment of new customers to saturate the demand potential as per directive of
the Ministry of Petroleum and Natural Gas, Government of India.
In line with the requirement envisaged and to ensure fulfillment of demand,
Ministry of Petroleum & Natural Gas has planned that different oil companies
should increase their storage and bottling capacity of LPG. Accordingly Indian Oil
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Corporation Limited (IOCL) proposes to establish the LPG bottling plant and
construction of 2 Nos. of 900 MT Mounded storage vessels each.
2.4 Demand Supply Gap
This LPG bottling plant at Gaisinshpur & Nissai Village, Farrukhabad Tehsil &
District, Uttar Pradesh, is being established to meet the increasing demand in Uttar
Pradesh state, is being established with the purpose of supplying commercial and
domestic LPG to surrounding districts. As per Government of India, MOP &NG’s
vision 2015 to cover 75% population, mainly in rural areas with domestic LPG
connections from current 59%, about 350 TMTPA additional bottling capacity
needs to be added by 2020-21 by IOCL in UP.
2.5 Employment generation
There will be a positive impact in creation of direct and indirect employment
opportunities due to LPG Bottling Plant on local socioeconomic profile.
Construction phase: Employment generation as contractual basis and
involvement of unskilled labor will be more.
Operation phase: Indirect Employment generation in handling of cylinder,
transportation of cylinder etc for skilled / semi-skilled labors and drivers.
Existing Employees: 32 Nos (Officers = 09 nos and Staffs = 23nos)
Proposed Employees: 10Nos
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3.0 Project Description
3.1 Type of Project
As per EIA Notification dated 14 Sep 2006 this projects falls under 6B category
i.e. for Isolated storage & handling of hazardous chemicals.
This is expansion of LPG Bottling Plant and will have 2 x 900 MT Mounded
Storage Vessels.
As per the EIA Notification, in the absence of duly constituted SEIAA & SEAC,
category –B project shall be cleared at MoEF&CC, New Delhi.
In this regard, we bring to your kind notice that, SEAC committee of Uttar Pradesh
has been expired; project is filed at MoEF&CC, New Delhi.
3.2 Location
The proposed project will be carried out at Gaisinghpur (V), Farrukhabad (Dt),
Uttar Pradesh which is about 13.4Km form Fatehgarh Railway station.
3.3 Size or Magnitude of Operations.
The total area of LPG Bottling Plant is 32.9 acres at Gaisinghpur (V), Farrukhabad
(D), Uttar Pradesh proposed for additional storage of LPG in 2x900 MT Mounded
Storage Vessel.
There will be no chemical process involved and the operation carried out will be
receipt of LPG in Bulk form in road tankers, storage in mounded bullets and filling
of LPG into cylinders using carousel and associated systems. The cylinders filled
will be checked for quality and then dispatched.
In the Proposed LPG Bottling Plant the storage will be pressurized form in
mounded storage. The mounded storage will be in 2 bullets of 900 MT each with a
total capacity of 1800 MT. The system of mounded storage has been recognized as
one of the safest form of storage of LPG.
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Details on current proposal
LPG Storage Facility (Existing) LPG Bottling capacity (Existing)
2 x 150 MT (Above ground bullets), 1 x
680 MT (Horton Spheres)
250 MTPD
LPG Storage Facility (Expansion) LPG Bottling capacity (Expansion)
2 x 900 MT (Mounded storage vessels) 60 TMTPA
Location Map
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Google Image of 10 Km Radius
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Site Layout
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3.4 Project Description
M/s. Indian Oil Corporation Ltd is operating a LPG cylinder bottling plant at
Khasra nos. 704, 705, 706, 707, 708, 709/1, 710/1, 714, 715, 818, 822, 832,
Gaisinghpur and Nissai, Farrukhabad Tehsil and District.
There will be no chemical process involved and the operation carried out will be
receipt of LPG in Bulk form in road tankers, storage in mounded bullets from
Vadodara, Bina Refineries & Kandla Import Terminal and filling of LPG into
cylinders using carousel and associated systems. The cylinders filled will be
checked for quality and then dispatched by Cylinder stake Trucks.
The process involved can be divided into 4 Stages
Receipt of finished LPG products through bullet trucks.
Storage of LPG products in storage tanks as per OISD norms. Packaging of the LPG into cylinders.
Dispatch of LPG products through Stake Trucks
Fig: Process Description
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LPG BULK STORAGE
It is now proposed to expand the existing LPG Bottling plant by constructing two
No’s of 900MT capacity Mounded Storage Vessel and bottling capacity of which
will be constructed/fabricated to the stringent Oil Industry Safety Directorate’s
OISD norms and BS standards. There will be only one LPG liquid nozzle through
which LPG shall be received and discharged from each bullet.
The following provisions will be provided for proposed expansion project:
No Description Dimensions Area Remarks 1 LPG Bullets 2Nos
3.80mǾ x 28.70M long
150 MT each Existing
1A Horton Spheres 1 no 14mǾ, 660 MT each Existing 1B LPG Mounded
Bullets 2 Nos 7.0m Ǿx54.172m long
900 MT each Proposed
2 Fire water tanks 2 Nos 3700KL each Existing 3 Service water tank 50 KL capacity Existing A Plant sheds 4 LPG pump/Comp.
house 25m x 8m 200Sq.m Existing
5 Cold Repairs shed 11.2m x 16.8m 188.16Sq.m Existing 6 Filled cyls.
Storage shed 14m x 22.4m 345 Sq.m Existing
7 Filling cum empty cyls shed
56m x 30.8m 2217.6Sq.m Existing
8 Truck loading/unloading shed
22.4mx5.6m 180Sq.m Existing
9 TLD shed 8 bays 42m x 16.8m 705.60Sq.m Existing B Non Plant
Building
10 Fire water/Air comp. house
35m x 10m 350Sq.m Existing
11 Elec. Sub station 36m x 8m 304Sq.m Existing 12 Security Kiosk 3.23m x 3.23m 10.433 sq.m Existing 13 Weigh bridge pit 50 MT capacity Existing 14 Car/Scooter shed 30m x 6m 180sq.m Existing 15 Safety
eqpt/general store 10m x 27m 270 sq.m Existing
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16 Workers amenity block/canteen
Double storey 300sq.m Existing
17 Office Building Double storey 360 sq.m Existing 18 S&D block & Ralf
control room Existing
19 Security kiosk at main gate
4.77m x 4.77m 22.752 sq.m Existing
20 Drivers rest room 7 m x 9m 63sq.m Existing C Drive ways Existing 21 Truck parking For 50 truck 7720 sq.m Existing 22 Internal roads -- 10700 sq.m Existing 23 External roads -- 5100 Sq.m Existing 24 Emergency control
center (ECC room) -- -- Existing
25 Assembly point -01 (TT crew)
-- -- Existing
26 Assembly point -02 (Contract labour)
-- -- Existing
27 Assembly point -03 (First aid & External aid)
-- -- Existing
28 STP shed 22m x 12m 264sq.m Proposed
FIRE FIGHTING FACILITIES
Fire fighting system is consisting of Automatic sprinkler system provided in all
LPG handling areas/sheds covered with network of hydrants & monitors as per
requirement of OISD 144.
All LPG storage Vessels, Cylinder Storage/ Filling/ Repair Sheds, LPG Pump
House, TLD are fully covered by medium velocity water spray system.
The main components of the fire water system are:
Fire Water Storage
Fire Water Pumps
Water Sprinkler/ Deluge system.
Fire water distribution piping network inclusive of Hydrant/ Monitor
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Safety data No of monitors Monitors & Hydrant points (alternate) in hydrant ring
@30m. Numbers as per requirement Hydrant points Monitors & hydrant points (alternate) in hydrant ring
@30mtr. Numbers as per requirement Fire Extinguishers
10kg DCP, 75kg DCP & CO2 fire extinguishers as per requirement given in OISD -144
Hand siren As per requirement mentioned in OISD -144 ETB As per requirement mentioned in OISD -144 MCP As per requirement mentioned in OISD -144 Inter Distance for LPG Facilities: Required as per OISD/proposed
LPG Storage vessels
LPG storage vessels (mounded)
Boundary/Property line
Shed LPG
TLD LPG pump House
Fire water pump house
LPG Storage Vessels
As per OISD
-- 30m 15m 30m 30m 15m 60m
Actual -- 102.47m 78.71m 206.2m 91.70m 38m 373.68m LPG Storage Vessels (mounded)
As per OISD
30m -- 15m 30m 30m 15m 60m
Actual 102.47 -- 54.4m 294.75m 206.07m
153.07m
488.75m
Boundary/Property Line
As per OISD
15m 15m -- 30m 30m 30m 60m
Actual 78.71m 54.4m -- 46.96m 69.14m 77.61m
38.82m
Shed LPG As per OISD
30m 30m 30m -- 30m 15m 60m
Actual 206.2m 294.75m 46.96m -- 46.68m 158.4m
134.43m
TLD As per OISD
30m 30m 30m 30m -- 30m 60m
Actual 91.70m 208.07m 69.14m 46.68m -- 44.23m
243.02m
LPG pump House
As per OISD
15m 15m 30m 15m 30m -- 60m
Actual 38m 153.07m 77.61m 158.4m 44.23m -- 327.69m Fire water pump house (Planned)
As per OISD
60m 15m 60m 60m 60m 60m --
Actual 373.68m 488.75m 38.82m 134.43m 243.02m
327.69m
--
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Flow Rate Design:
Medium Velocity sprinkler system with automatic heat detection having remote/
local operated Deluge valve with spray density of Minimum 10.2 LPM/ Sq.M are
provided at all facilities excluding LPG Pump house (i.e., storage Vessels,
Cylinder Storage/ Filling/ Repair Sheds, TLD) where as LPG Pump house is
provided with 20.4 LPM/ Sq.M.
The fire water system in the plant designed to meet the highest fire water flow
requirement of a single largest risk i.e., Filling Shed water requirement plus 288
KL/Hr
Fire Water Storage:
Total2 numbers of fire water tanks with capacity of 3700KL each.
Total fire water storage = 7400 KL
PROPERTIES OF LPG
1. LPG has been identified as 'hazardous chemical' as per Manufacture, Storage
and Import of Hazardous Chemicals Rules, 1989/1994.
2. LPG marketed in India is governed by IS 4576 and test methods by is 1448. IS
4576 defines LPG as a mixture of light hydrocarbons derived from petroleum
which are gaseous at ambient temperature and atmospheric pressure but
may be condensed to the liquid state at normal ambient temperature by the
application of moderate pressure.
3. LPG to be handled at the facility under study will be Propane - Butane mixture,
with small quantities of unsaturated hydrocarbons. LPG is highly flammable,
capable of producing fire and explosion hazards under certain conditions.
4. LPG at atmospheric pressure and temperature is a gas which is 1.5 to 2.0 times
heavier than air. It is easily liquefied under moderate pressure, Since LPG
vapour is heavier than air, it normally settles down at ground level/low lying
areas. This accumulation of LPG vapour gives rise to potential fire and
explosion.
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5. LPG has an explosive limit range of 1.8% to 9.5% by volume of the gas in air.
This is considerably narrower than other common gaseous fuel. Combustion of
LPG increases the volume of products in addition to generation of heat. LPG
requires about 24 to 30 times its own volume of air for complete combustion
and yields 3-4 times its own volume of CO2. The heat of combustion is about
10,500 Kcal/kg.
6. LPG is colorless both in liquid and vapor phase. During leakage, vaporization
of LPG cools the atmosphere and condenses the water vapor contained in it
forming a white fog. This makes possible to see an escape of LPG.
7. LPG has a low viscosity (around 0.3 C.S. at 45°C) and can leak when other
petroleum products cannot. This property demands a high degree of integrity in
the pressurized systems handling LPG to avoid leakage.
8. LPG has a very faint smell and as such for detecting leakage of LPG, ethyl
mercaptan is generally added in the ratio approx 20 part mercaptan per million
liquid LPG (20 ppm).
9. Although it is not poisonous in vapor phase, it suffocates when present in large
concentrations due to displacement of oxygen. Immediately Dangerous to Life
& Health (IDLH) value of LPG is generally taken as 115000 ppm.
HAZARDS OF LPG
LPG is approximately twice as heavy as air when in gas form and will tend to sink
to the lowest possible level and may accumulate in cellars, pits, drains etc.
LPG in liquid form can cause severe cold burns to the skin owing to its rapid
vaporization.
Vaporization can cool equipment so that it may be cold enough to cause cold
burns.
LPG forms a flammable mixture with air in concentrations of between 2% and
10%.
It can, therefore, be a fire and explosion hazard if stored or used incorrectly.
Vapor/air mixtures arising from leakages may be ignited some distance from the
point of escape and the flame can travel back to the source of the leak.
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At very high concentrations when mixed with air, vapor is an anesthetic and
subsequently an asphyxiant by diluting the available oxygen.
A vessel that has contained LPG is nominally empty but may still contain LPG
vapor and be potentially dangerous. Therefore treat all LPG vessels as if they were
full.
However, in case of non existence of any source of fire there will be no occurrence
of hazardous event and the cloud may get diluted to such a level that the mixture is
no longer explosive.
IMPORTANT PROPERTIES OF LIQUIFIED PETROLEUM GAS (LPG)
Sr. No. Property Remark
1. Appearance and Odour Colorless and odorless gas when
pure. Normally marketed with
mercaptan odouring agent.
2. Composition Mixture of commercial propane,
butane and unsaturated
hydrocarbons.
3. Liquid Density 500 to 580 kg/m3 at 15 deg. C
depending on composition.
4. Vapor Density 1.5 To 2.0 times heavier than air.
5. Boiling Point - 50 to -0.5 deg. C.
6. Flammability Limits in Air LFL - 1.9% V/V.
UFL - 9.5% V/V.
7. Permissible Exposure Limit-
OSHA Standard
1000 ppm (1800 mg/m3 )
Different types of combustion reactions associated in case of release of LPG from
the containment are listed in the following sections.
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Escaping jet of LPG from pressure vessels / piping, if ignited, causes a Jet flame.
The jet flame direction and tilt depend on prevailing leakage direction and
velocity. Damage, in case of such type of jet fires, is restricted within plant
boundary. However in case of mounded vessel there will be no question of such
occasion.
There are two more situations of LPG fire. One is Boiling Liquid Expanding
vapour explosion (BLEVE) and unconfined Vapor cloud explosion (UVCE).
BLEVE is not possible in mounded bullet. However, in second case, plants having
a layout as per OISD recommendation, maintaining of safe operating Practice and
other precautionary measures, the above event can be avoided.
SAFETY PHILOSOPHY
LPG is a common material used extensively in households as well as industry. If
its characteristics are understood well and proper precautions as stipulated in
various codes and standards are followed, it is an easy and safe material to handle.
Accordingly, in most of the developed / developing countries, where LPG is
consumed in million tons / year, specific codes and standards are available for
storing and handling of LPG.
LPG INSTALLATIONS - CODES & STANDARDS
Codes and standards which are generally followed for LPG installations are as
follows:
1. NFPA (National Fire Protection Association of USA) Standards
- NFPA-58: Standard for the Storage and Handling of Liquefied
Petroleum Gases
- NFPA-59: LP-Gases at Utility Gas Plants
2. API (American Petroleum Institute) Standards
- API-2510: Design & Construction of LPG installations
3. IP (Institute of Petroleum) Standards.
- IP-9: Liquefied Petroleum Gas - Large Bulk Storage of Pressurized
and Refrigerated LPG
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4. The Static and Mobile Pressure Vessels (Unfired) Rules, 1981 of India
(SMPV Rules)
5. OISD (Oil Industry Safety Directorate) Guidelines
- OISD RP-158: Recommended Practices on Storage and Handling of Bulk
Liquefied Petroleum Gas (LPG), 1997. (This is being followed by Public
Sector Refineries and Oil Industry in India. It is currently a guide and not a
mandatory code or standard).
LPG storage tanks like any other pressurized vessels may be designed as per any
of the following well known international or local codes / standards:
- ASME, Section VIII, Division I
- ASME, Section VIII, Division II
PROCESS FLOW CHART OF LPG BOTTLING PLANT AT FARUKHABAD
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3.5 Water, Energy/Power requirement
The water requirement is fulfill by existing 3nos of tube well of capacity 25m3/hr
within plant premises. Water is to be used during construction and operation
phases. During operation water consumption will be 9.0 KLD for domestic.
Water Requirement & Wastewater Generation
S.No Domestic
water
Industrial Water requirement(KLD)
Domestic sewage
generation
Waste water from
process/ cylinder washing
1 6.0 3.0 4.8 1.6 Total 9.0 6.4
Note: Mock Drills -15KL/6Months
Power Requirement:
The total contracted demand 270 KW connected load is 410 KW and will be
supplied by Uttar pradesh State Electricity board. 1x 500 KVA DG for operation
and 2 x 250 KVA DG for lighting purpose will be maintained as power back up.
3.6 Schematic Representative of feasibility drawing which give
information of EIA Purpose
The EIA study covered an area of 10km radius from proposed project site for
assessing the baseline Environmental conditions. The details of Baseline Data
collection is given below:
Primary Baseline Data
S.No Environmental Attributes
Duration and frequency of sampling and other remarks
1 Meteorology Data Meteorology data was collected on an hourly/3hourly
basis for 1 / 3 months.
2 Ambient Air Quality Twice in a week for 24 hours; for 3 months
3 Ambient Noise Levels Once in the study period
4 Surface Water Quality Monthly Once
5 Ground Water Quality Monthly Once
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6 Soil Quality Once during the study period
7 Terrestrial Ecology Once during the study period
8 Socio-economic Studies Primary and secondary data were collected from the
villagers living within 10 km radius during the study
period.
The number of sampling locations will be finalized based on TOR issued by SEIAA.
Secondary Baseline Data
S.No Environmental Attributes Source of Data Collection
1 One season meteorological data Indian Meteorological Department
2 Cyclone data IMD
3 Geology, geomorphology and
hydrogeology
Geology – Geological Survey of India
(GSI), Government of India (GoI)
4 Land use Through Satellite imageries from NRSA
5 Forest area Department of Forest
6 Physical features Survey of India topo sheets
7 Socio-economic Census of India.
There will be no impact on the environment due to proposed activity as the
proposed activity is bottling of LPG only.
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4.0 Site Analysis
4.1 Connectivity
Plant is well connected by black top road. The nearest railway station is Fatehgarh
Railway station at a distance of 13.0 km from plant.
4.2 Land Form, Land Use& Land ownership
The proposed expansion project will be within the existing premises of 32.9Acrs of
land and acquired vide Ref No- 12A/92-93/DLRC 12th June.1993
4.3 Topography:
The district lies on a plain, varied only by a few gentle undulations and slopes,
sometimes abrupt, which lead down to the river valleys. The highest recorded
elevation is 167 m above sea level at Mohammadabad and the lowest 145.69 m at
Mau Rasulpur in the Trans Ganges flats of Tehsil Farrukhabad.
4.4 Existing Land Use Pattern
Present land use based on remote sensing satellite imageries were collected from
NRSA Bhuvan and interpreted for the district. However, in preparation EIA 10
KM radius of the project site LU/LC will be made using latest satellite imaginary.
S.no Land use Area (Ha)
Built-up land
1 Rural 101.17
2 Urban 26.92
Forest
3 Deciduous 0.62
Agricultural Land
4 Fallow 97.84
5 Crop land 1731.53
6 Plantation 35.74
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Waste Land
7 Salt affected land 48.71
8 Scrub land 30.39
Water Body
10 Inland wetland 7.11
11 River/stream/canals 93.10
12 Water bodies 1.47
Total 2174.6
4.5 Existing Infrastructure Open area. 4.6 Soil Classification
Saline and alkaline soils occur in the district. Soils with salt content exceeding
0.2% are considered to be high salt soils and this concentration is injurious for
plant growth.
4.7 Climatic Conditions:
The summer is hot and dry with maximum daily temperature ranging between
38°C to 43°C. The humidity during this season is lowest ranging between 30% to
53% at 08.30 hrs and 18% to 42% at 17.30 hrs. Summer seasons ends by May and
transition period starts. The rainy season commences by late June when south
western monsoon sets in over the State. The humidity gradually increases and
reaches above 80%. August is the peak rainy season. The bulk of annual rainfall
about 85% occurs during monsoon period (June to September). The monsoon
starts retreating from the State in late September or early October. Then
commences another transitional period followed by winter from late November till
February. January is the coldest month of the period. Another transitional period
follows between winter and summer.
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4.8 Social infrastructure Available:
Some of the prominent ones:
1. Mount Litera Zee School -4.92km
2. Central Jail at 10.15kms
3. Radha Soami Stasang Beas -5.0Km
5.0 Planning brief
5.1 Planning concept
IOCL Plan for the following:
Brief Description of facilities No of Bullets 2 x 900 MT Bottling capacity 60TMTPA
5.2 Population projection
The proposed project does not envisage any displacement or population and no
resettlement of population as proposed facility as the plot is within industrial focal
point. Hence there is no impact on this account.
5.3 Land Use Planning
The total area of the plant is 32.9 Ac.
5.4 Assessment of infrastructure Demand
Infrastructure required for the proposed storage will be constructed. The
development shall only lead to positive impact on infrastructure and services.
6.0 Proposed infrastructures
6.1 Industrial Area (Processing Area)
Proposed infrastructure will construct at Gaisinghpur, Farrukhabad, Uttar pradesh.
6.2 Residential Area (Non Processing Area)
IOCL is not proposing to construct any residential facility for proposed project at
the site
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6.3 Green Belt
Around 12.0acres will be developed for green belt
6.4 Social Infrastructure
The proposed site is well connected with road network to village and Mandal
head quarters.
6.5 Connectivity
The proposed site is well connected with black top roads.
6.6 Drinking Water
Drinking water will be met from existing tube wells
6.7 Sewage
The maximum water consumption will be 9.0 KLD of which 6.4KLD will be
waste water generated and is treated using septic tank followed by soak pit.
6.8 Industrial Waste Management
In the proposed LPG Bottling plant, there is no generation of Solid/Liquid waste.
LPG will be stored in mounded vessel. Only waste like paper which can be
recycled, terminal sweepings & viz. and hazardous waste, used batteries and used
lubricating oil & STP sludge in minute quantities which can be disposed to
authorized agencies.
6.9 Power requirement
It will met through Uttar Pradesh state.
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7.0 Rehabilitation and Resettlement (R & R) Plan
The proposed facility does not envisage any displacement of population and no
resettlement of population as the plot is within industrial focal point. Hence there
is no impact on this account.
8.0 Project Scheduled and Project Cost.
The total cost of the Project is Rs.26.43 crores which is scheduled to be completed
in twenty four months from the date of EC from UPSCB and other allied
clearance.
9.0 Analysis of Proposal (Final Recommendations)
There will be creation of indirect employment opportunities to the local people due
to construction of LPG Bottling Plant. There are no tribal people in the proposed
area.
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PRE-FEASIBILITY REPORT
FOR
INDIAN OIL CORPORATION LTD (ADDITIONAL STORAGE OF LPG)
AT KHASARA NOS: 704, 705, 706, 707, 708, 709/1, 710/1, 714, 715, 818, 822, 832
GAISINGH PUR (V),
FARRUKHABAD TEHSIL, FARRUKHABAD (D),
UTTAR PRADESH STATE
Submitted by
M/s. SV ENVIRO LABS & CONSULTANTS ENVIRO HOUSE, BLOCK-B, B-1, IDA, AUTONAGAR,
VISAKHAPATNAM (Dt), ANDHRA PRADESH QCI No: 140, MoEF& NABL Recognized Laboratory