Exe Summ Aryan Coal Eng

8/20/2019 Exe Summ Aryan Coal Eng

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Rapid EIA Study for Proposed 1200 MW TPS Chapter 10

EXECUTIVE SUMMARY

FOR

PROPOSED 1200 MW (4 X 300 MW) THERMALPOWER PLANT

(SUBMITTED FOR PUBLIC HEARING)

AT VILLAGE: BHUMKA - MUSAMUDHI

TEHSIL: MAJHAULI, DISTRICT: SIDHI

STATE: MADHYA PRADESH

PROPOSED BY

ARYAN COAL BENEFICATIONS PVT. LTD.

June 2009


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CHAPTER-10

EXECUTIVE SUMMARY

INTRODUCTION

Aryan Coal Benefications (P) Ltd who are the leader in the business of Coal

Washing and mining in India is planning to install 1200 MW (4 x 300 MW)

power generation units in Sidhi district, Madhya Pradesh state.

The proposal is covered under category A of the Environmental Impact

Assessment Notification 2006 and requires an Environmental Clearance from

Ministry of Environment and Forest.

The purpose of this Environmental Impact Assessment (EIA) study is to

provide information on the surroundings and the extent of environmental

impact likely to arise on account of the proposed power project program for

4 X 300 MW.

PROJECT LOCATION

The proposed power plant site is located at village Bhumka- Musamudhi,

Tehsil: Majhauli, District: Sidhi, Madhya Pradesh. The project site is accessible

by Kamchar – Musamuri – Parsi road. The nearest town Sidhi is located at 35

km away from project site in north direction. Latitude and Longitudes of four

corners of sites are given below

Corners of project site Latitude Longitude

S-E Corner 24O 7

’ 52' N 81

O 52

’ 7” E

S-W Corner 24O 8

’ 23' N 81

O 51

’ 7” E

N-W Corner- 24O 9’ 16' N 81O 51’ 30” E

N-E Corner 24O 8

’ 25' N 81

O 52

’ 34”E

The project will be developed on 950 acres of land. The proposed project

falls in Survey of India Topo Sheet No. 63 H/16.

PROJECT DESCRIPTION

The project involves Installation of stream of machinery and equipments to

generate 4X300 MW of power. During the establishment of the power plant

four numbers of boilers of 1008 TPH capacity will be installed with four

numbers of turbines of 300 MW capacity. Salient features of project are

given below:


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SALIENT FEATURES FOR PROPOSED POWER PROJECT

Sr. No Particulars For Proposed Power Project

1. Production Capacity 4 X 300 MW

2. Coal Consumption 706 TPH

3. Water Consumption 4400 m3/hr

4. Waste water generation 920 m3/hr

5. Capacity of Boilers 1008 TPH x 4

6. Stack height 275 meters (2 Nos. Twin Flue)

7. Stack diameter at top 3.50 m (approx)

8. Stack emissions (SPM) 150 mg/Nm3

9. Total ash generation 318 TPH

10. Fly ash generation 254 TPH

11. Bottom ash generation 64 TPH

12. Project Cost 5045 crores

DETAILS OF THE PROCESSCoal from the gantry is crushed in a crusher and conveyed to coal storage

bunkers through a system of conveyor belts, crusher and vibrating screens

and is fed to the furnace. The coal burns inside the furnace so as to

maintain a furnace temperature of 880-900°C.

De-mineralised water from the storage tank is pumped to the boiler with the

aid of boiler feed pump. The boiler feed water through an economizer

enters the steam drum, mud drum and water walls where it is heated and

converted to saturated steam. The saturated steam is then heated to a

temperature of 540°C in the super heaters and carried to common steamheader. Hot air from the boiler furnace is drawn by an induced draft fan

through economizer, air heater and ESP and vented out through a chimney

of 275 meters height.

The steam from the main steam header at 150 Kg/cm2 and 540°C

temperature is taken to the turbo–generators. After rotating the turbine the

exhaust steam is condensed in the condensers and the condensed water is

pumped to the de-aerator and fed back to the boilers.

Project Cost: The total cost of project is 5045 Crores

RESOURCE REQUIREMENT

Water: The source of cooling water will be from the Banas which is about 40

km from the proposed site. The irrigation department of MP government has

granted permission for withdrawing of water for the proposed unit. A


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dedicated intake system and pipeline shall be laid for this purpose. Water

requirement for 4 x 300 MW units is 4400 m3/hr.

Fuel: Indian coal of E / F Grade has been considered as main fuel. Coal shall

be transported from Northern Coalfields which are approximately 90 km

through rail –N- road mode of transportation.

Coal requirement for 4 x 300 MW units considering GCV of 3600 kcal/kg & 85

% PLF is as follows.

? Coal requirement per hour: 706 Tonnes

Start-up Fuel

The annual requirement of secondary fuel - LDO/HFO used for cold start up

with initial warm up is estimated to be around 12000 KL/annum. It shall be

stored in 2 tanks of 500 KL with considering 30 days storage.

Land Requirement

The land requirement for the project is as follows

Sr. No. Details Area inAcres

1 Land for power plant excluding ash disposal area. 125

2 Land for Green belt development at plant site. 300

3Land for coal storage yard, Handling and Marshalling Yard and

RoW for transport of materials/water200

4 Land for water reservoir 50

5 Land for Colony & Township and Roads 75

6 Land for Ash Dyke 200

7 Total land required for power plant 950

Infrastructure

At present no rail link is existing for the transportation of coal from mines to

site. The nearest railway siding is at Bhadhura, which is 4 km away.

Company is in the process of obtaining necessary clearance for laying a rail

line to site. Hence infrastructure requirement for transportation for initial

period is limited to roads. Apart from this, facilities for unloading, weighing

and storage will be established at plant site.

BASELINE ENVIRONMENTAL QUALITY

Methodology of the Study

Keeping in view the nature of activities, the process of power plant and

various environmental guidelines, the area covering a radial distance of 10

Km from the centre of the plant site was selected as study area for the


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purpose of EIA study. To establish baseline status of air, water, noise, land,

biological and socio-economic environment in the study area, extensive field

studies were undertaken in and around power plant during the winter season

(December 2008 to February 2009)

Climate

The climate of the area is tropical monsoon type with three distinct seasons

as hot and dry summer/premonsoon (March-May), monsoon (June-October),

and winter (November - February). The climate of the area is dry during the

period of November to the beginning of June while during rainy season the

atmosphere is very humid. The average annual rainfall varies from 1000-

1200 mm, peaks in the months of July and August. May is the hottest month

with the mean daily maximum temperature being about 41°C. January is

generally the coolest month with mean daily maximum temperature at

about 9°C.

Air quality was monitored at eleven numbers of air-quality stations and it

was observed that the levels of SPM, RSPM, SO2 and NOx are well within the

standards prescribed by CPCB. Average values of pollutants concentrations

are given below

Sr. No. Sampling Location Name Average Concentrations of Pollutant in µg/m3

SPM RSPM SO2 NOx

1 Project Site 124 50 6 9

2 Amakholi 118 45 7 12

3 Parasi 123 48 7 104 Ser 134 55 8 11

5 Khajuriha 129 49 7 13

6 Nidhpuri 147 60 9 13

7 Bhumka 135 52 7 11

8 Nigri 137 53 10 14

9 Katai 133 50 6 9

10 Chhamrachh 131 47 8 12

11 Bajbal 113 35 8 12

Noise levels were monitored at ten locations within the study area. The day

time noise levels at all the sampling locations were observed in the range of

47 to 55 dB(A) except at Parasi (63 dB(A)). The night time noise levels werein the range of 40 to 49 dB(A). The levels were well within the permissible

limits for residential areas

Water samples of both surface (5Locations) and ground water (6Locations)

sources, were analyzed and compared with IS: 10500 limits. The water from

surface water source is found to be fit for drinking purposes.


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Biological Environment: The study area mostly comprises of rural area. The

area includes few villages comprising of agricultural and barren land where

most of the vegetation is aggregated on agricultural bunds and forest area.

Common flora and faunal species are found in the study area. No national

park, Sanctuary, elephant/tiger reserve, migratory routes falls within the

study area

Socio Economic Environment: The study area comprises of 45 villages.

Total population of study area is 48,778 approximately. The nearest human

settlement is the village Kamchar, Musmuri and Bhumka. Literacy rate of

study area is 48.8%. The percentage of male and female population is

64.93% and 32.68% respectively. The scheduled Caste and Scheduled tribe

population is 9.30% and 33.36% of the total population respectively.

Economic conditions of people are moderate to poor. Most of the families

are living in kachha house. Toilet facilities are not available in most of the

houses in near by villages of project site.

Waste Water Disposal In the Power Plant: The waste water collected from

cooling tower, boilers, ash handling, domestic waste and D.M. plant to the

tune of 920 m3/hr is collected in neutralization-cum-settling tank and then

to the collection-cum-storage tank from where it is further used for fly ash

wetting, dust suppression in coal yard, as fire hydrant and for gardening.

Land Use Pattern: Location around the project sites studied is scarcely

populated except in some clusters and a part of the terrain is agricultural

land. Scattered villages like, Musamudi, Bhumka are located within the

project area. The land use pattern around 10 Km radial distance of the

power plant is given below

Sr. No. Land UseArea

(Hectares)Area in %

1. Forest 9425 30.0

2. Irrigated Land 5771 18.37

3. Un- irrigated land 8681 27.63

4. Cultivable waste land 2513 8.0

5. Not available for cultivation 5026 16.0

6 Total 31416 100

Soil Quality: The pH of soils was in the range of 6.7 to 7.5. The EC of soils

were in the range of 146 to 348 µS/cm. The CEC analysis of the soil samples


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were in the range of 10.43 to 15.5 meq/100gm. N, P, K values at all the

locations shows that soils are moderate fertile.

Impact Assessment: "Environmental Impact" can be defined as any

alteration of environmental conditions or creation of a new set of

environmental conditions, adverse or beneficial, caused or induced by theaction or set of actions under consideration.

IDENTIFICATION OF IMPACTS

Air Environment:

The prediction of impact of stationary sources on the ambient air quality

has been calculated using Oak Ridge Air Quality Index (ORAQI). For

calculating the index, baseline data collected were analyzed and maximum

concentration was determined for three pollutants viz. SPM, SO2 and NOx.

The results on evaluation of Oak Ridge Air Quality Index (ORAQI) show thatthere is no impact on surrounding area.

Air quality modeling has been done to assess the air quality after project

implementation using ISCST3 model. GLC are predicted for SO2 and SPM.

Predicted concentrations at all AAQMS for SO2 and SPM are within the

stipulated AAQMS set by MOEF. Hence, ambient air quality will not be

degraded after the execution of proposed ultra mega power plant

Water Environment: The total water requirement of the Power Plant with

associated facilities will be 4400 m3/hr. The proposed power plant will meet

its process water requirement from Banas river. There will not be any

impact on surface or ground water characteristics due to power plant. The

surface and ground water characteristics of the samples monitored within

the study area are well within the permissible limits.

The treated effluents for discharge would meet the MINAS standards. The

quality of the treated wastewater will be suitable for horticulture/irrigation

Land Use: The proposed Power plant is not expected to change the land

use, soil characteristics and landscape in the region out side the powerplant area.

Noise Environment: The impact of noise generated from the proposed

project on its workers is expected to be insignificant except for the

employees working near compressors, FD fans, PA fans, ID fan, turbines and

Blower. For these sources the workers can be protected using earplugs and


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arranging their duties in cycles. The impact of noise generated due to

proposed project is insignificant on the human settlements in the area.

Biological Environment: The impact on terrestrials and aquatic ecology due

to the proposed the power plant is insignificant. With the green belt

development around the plant as suggested in EMP the terrestrialenvironment of the region will be having positive improvement and will

further mitigate fugitive emissions as well as attenuated noise impact.

Ecology: As the study area does not provide habitation to any rare and

endangered species of flora and fauna, impact on ecology will be mainly due

to removal of green cover. This will be compensated, by the tree plantation

programs being implemented by the management of the Power plant.

Socio-Economics: The impact of the project on socio-economic status of the

region would be predominantly positive, if proper implementations of the

measures suggested in the EMP are made.

Resettlements and Rehabilitation: Musamudi and Bhumka village are comes

under project area of 950 acres. Approximately 66 families will be affected

due to proposed project. Detailed rehabilitation and resettlement plan for

the same has been prepared. Affected peoples will get adequate

compensation as per the RR policy and central government guidelines

Overall Impact: The overall impact of the power plant project is beneficialas the impact on the air, noise, water, land and biological environments are

not very significant and the socio-economic benefits are predominantly

positive.

ENVIRONMENTAL MONITORING PROGRAM

Sr. No.Environmental

attributeLocations Parameters Period and Frequency

1. Ambient AirQuality

plant field

• One at centre

• One Upwind &

• One downwind

Location

Criteria Pollutants:

SO 2, NOx, SPM, PM,

CO

24-hr aver age

sampli ng except for

CO, which wi ll be 8-hr

sampling. (Twice a

week)

2. Stack emission

monitoring

Stacks of operating

plant. SO 2, NOx, SPM, CO

Dail y duri ng

funct i onal phase

3. Drinking water

(potablity

? Dug well wells

core zone

Drinking water

parameters as per

Tw ice in a year dur ing

Functi onal pha se


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Sr. No.Environmental

attributeLocations Parameters Period and Frequency

testing) ? Drinking water

tank, plant

IS 10500.

4. Ambient NoiseMain gate of Site

Nearest village

dB(A) levels

? SPL (dBA)

? Leq (Night +Day)

Leq (day) and Leq (Night) should be

monitor ed once in a

mont h.

5.Treated Effluent

qualityETP of Power Plant

Parameters for

horticulture use -

BOD, pH, S.S,

pathogens

Every month duri ng

funct ional Phase

6. Soil quality Greenbelt area

Organic matter, C,

H, N, Alkalinity,

Acidity, heavy

metals and tracemetal.

Pre -monsoon and

po st-monsoon dur ing

funct ional phase.

7.Ground water

quality4 wells

Drinking water

parameters as per

IS 10500

Once every y ear i n

Apr i l

8

Occuptional

exposure

monitoring

Coal handling

plant, feed cycle

plant, main plant

area

Lung test,

Audiometer test.Once in a six mont h

9 Meteorology

Plant site at

suitable location

Wind speed,

direction, Solar

radiation, relative

humidity,

Cont i nuous on hourly

basis

RISK ASSESSMENT & DISASTER MANAGEMENT PLAN: The risk assessment

helps one in taking care of probable hazards on account of faulty /

defective operations of various plants, machinery, equipment, etc. Such risk

assessment proves helpful in foreseeing the risks involved in various

operations to prevent the likely accidents.

As far as the power plant is concerned, it involves risk both in constructional

phase and operational phase of the project Hazardous Fuel oils and

Chemical Storage Facilities: The power plant operation involves extensive

use of various lubricants and limited use of fuel oils. The fuel oils usually

used are light diesel oil (LDO), furnace oil (FO), low sulphur heavy stock oil

(LSHS) etc. Necessary risk analysis shall very well be done and the storage

facilities shall be suitably developed. Storages of acids and alkalies viz.

hydrochloric acid, sulphuric acid, caustic soda, etc. should be designed


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properly. Various gases used in power plant should be stored in the suitably

designed cylinders and the cylinders are placed in the proper positions.

Occupational Safety: Since the process do not call for release of any

inflammable or toxic substances, it is considered desirable to provide a safe

working environment to the operational staff. Suitable casings to all the

moving parts will be provided and perfect encasing to the electrical

installation will be made to prevent any electrical accident.

Fire protection System: The power plants which are operating on various

kinds of fossil-fuels such as coal, oil, gas, etc. are prone to fires. The fires

are of various kinds and these need to be quenched by way of resorting to

various protection systems. The plant area shall be provided with smoke

detection system which could detect any kind of smoke likely to arise on

account of fires.

Protective equipments for working personnel: In order to take care of the

working personnel, they would be provided with various protective devices,

which shall broadly comprise respirators (face pieces, walls, sweat traps,

head bands, filters, etc.), goggles, rubber gloves, gum shoes, etc

DISASTER MANAGEMENT PLAN: Disaster is an undesirable occurrence of

events of such magnitude and nature, which adversely affects production

and/or causes damage to environment. Risk assessment forms an integral

part of disaster management and any realistic “Disaster Management Plan”

could only occur through a scientific risk assessment studies and involves 1)Requirement of fire extinguisher at all the fire prone sides. 2) Mock drill

should be carried out periodically for emergency preparedness. 3) Effective

communication systems at all the parts of the plant should be maintained.

Risk Analysis: Risk analysis consists of two parts viz. i) Risk identification

and ii) Risk assessment.

Risk Assessment: Risk assessment techniques are:

1) Hazard and Operatability Study (HAZOP) 2) Fault Tree Analysis (FTA) 3)Monte Carlo Simulation 4) Safety Audits 5) Safety Indices 6) Above risk

assessment techniques are discussed in the subsequent paragraphs.

Hazard and Operatability Study (HAZOP) study involves identification of

Hazards or operatability problem of the process and envisages possible

deviations from normal operating conditions.


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PROCEDURE FOR FIRE / GAS LEAKAGE CONTROL: When fire on account of

gas leakage is noticed, it is desirable to take following measures:

a) Break the nearest fire-glass.

b) Immediately inform to concerned plant control room.

c) Follow the instructions of control room.

d) Act to control the incident as per the instructions.

e) Reach to the assembly point, located at right angle to be wind

direction.

ENVIRONMENTAL MANAGEMENT PLAN: The proposed power plant shall

have two significant phases. The first phase shall be the constructional

phase, and the second phase i.e. operational phase,

EMP for Constructional phase: The constructional phase comprises various

activities which are rather transient in nature and prevail for shorter

duration. The following measures are considered desirable:-

Necessary facilities such as sanitation, water supply, rest rooms, etc. shall

be provided for the construction staff.

The site excavation, blasting, movement of earthen materials, etc. shall be

planned and executed properly to avoid any nuisance / hazard.

The site shall be provided with suitable trenches for draining of the rain

water and construction water effectively. The electrical equipments and

instruments shall be properly and carefully handled. The fuels such as

petrol, diesel, the lubricating oils, various gases, paints, varnishes, etc.

shall be properly stored as per the standard practices.

EMP for Operational phase: Various standard practices have been evolved

to manage the power plant operations efficiently to cause least possible

concern to the environment.

Coal Handling Scheme: In a typical coal based power plant, the stack

emissions are obviously expected to comprise SPM, SO2, NOX. Similarly, the

fugitive emissions on account of coal dust and ash particles are verycommon and rather unavoidable. However, in present power plant

practices, the coal dust emissions are taken care of by way of providing dust

suppressing equipments and sprinkling of water everyday.

Ash handling system: The percentage of ash in coal has a bearing on the

quantum of ash produced. Fly ash is collected in the closed hoppers; the

total quantity of fly ash generated will be about 318 TPH. Fly ash will be


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used for the manufacture of cement and will be transported with the help

of bulkers.

Flue gases: The plant shall be provided with electrostatic precipitators

having high efficiency (above 99.98%) for collection of the fly ash that would

be produced from the process of coal combustion in boiler furnace.

Water Pollution: During operational phase, the likely sources of waterpollution and the measures to be taken for their managements are describedhereunder

Effluents from water treatment plant: The effluents from cation/anion

resins are combined with the filter back wash in the neutralizing pit and by

way of giving additional treatment as may be necessary, the effluents are

treated to make them hazard free.

Various drains in the plant area: The storm water (rain water) collectedfrom the open areas is let through the open channels and conveyed to the

storm water drain which in turn lets out the water into a suitable low lying

area. For this purpose, suitable slope shall be provided to avoid any type of

flooding in the power plant. The roof top rainwater harvesting will be done

to recharge the underground water.

Noise Pollution: The power plant process involves various machineries and

equipments and while in operation, these machineries tend to produce

noise, which is rather unavoidable. Efforts are always made to maintain

minimal possible noise levels on all these accounts. The endeavours would

be aimed at maintaining the noise levels below 85-90 dB(A) or even lesser at

a distance of about 1.5 meters from the equipment, using stable foundation

for machines and appropriate noise absorbing sheets in control cabins.

Sewage disposal: The disposal of the domestic sewage from the plant would

be through the closed drainage system sewage treatment plant.

Biological Environmental Management Plan: Efforts shall be made to avert

any adverse impact on flora and fauna in the area of proposed plant or at

least to minimise the impact to the possible extent. To this effect, Greenbelts (30 meter width) shall be suitably developed around the boundary of

the power plant with selected locally grown plant species.

Socio-economic Environment: In order to provide employment to the local

people, efforts shall be made to employ the work force from the

surrounding area. Various social activities to be undertaken by the project

shall be confirming to the local needs and these activities shall be planned


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in coordination with local representatives of the public, government

officials.

IMPACTS ON LAND ENVIRONMENT: To minimize disruption of soil and for

conservation of topsoil, the topsoil should be taken out and stacked

separately and stockpile it. Topsoil should be utilized for landscapingactivity. Other measures, which would be followed to prevent soil erosion

and contamination include: 1) Maximize use of organic fertilizer for

landscaping and green belt development. 2) Selection of the plant species

should be on the basis of their adaptability to the existing geographical

conditions and the vegetation composition of the region. 3) The species

should be fast growing and providing optimum penetrability. 4) The species

should form a dense canopy. 5) Trees with high foliage density, leaves with

larger leaf area and hairy on both the surfaces.


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Rapid EIA Study for Proposed 1200 MW TPS Annexures

ANNEXURE I: COAL HANDLING SCHEME


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ANNEXURE II: BOTTOM ASH HANDLING


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ANNEXURE III: FLY ASH HANDLING


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ANNEXURE IV: DM PLANT


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Rapid EIA Study for proposed 1200 MW TPS Annexures

ANNEXURE V: AMBIENT AIR QUALITY MONITORING RESULTS [TOR POINTNO. 12]

Location: Project Site

Date SPM (µg/m3) RPM(µg/m 3)

SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)

24 hrs. Concentrations

1.12.2008 97 36 5 5 BDL BDL

2.12.2008 120 43 6 11 BDL BDL

8.12.2008 105 46 4 9 BDL BDL

9.12.2008 119 55 5 7 BDL BDL

15.12.2008 123 52 4 9 BDL BDL

16.12.2008 133 58 6 7 BDL BDL

22.12.2008 119 61 5 10 BDL BDL

23.12.2008 128 63 6 8 BDL BDL

29.12.2008 131 66 5 6 BDL BDL

30.12.2008 137 46 6 9 BDL BDL

5.1.2009 138 48 6 7 BDL BDL

6.1.2009 120 51 4 6 BDL BDL

12.1.2009 135 55 6 11 BDL BDL

13.1.2009 124 48 4 8 BDL BDL

19.1.2009 116 40 6 12 BDL BDL

20.1.2009 131 49 8 11 BDL BDL

26.1.2009 135 51 6 8 BDL BDL

27.1.2009 123 57 5 10 BDL BDL

3.2.2009 119 57 6 5 BDL BDL

4.2.2009 104 43 7 11 BDL BDL

10.2.2009 136 50 6 8 BDL BDL

11.2.2009 137 45 7 10 BDL BDL

17.2.2009 117 54 5 8 BDL BDL

18.2.2009 122 42 6 8 BDL BDL

24.2.2009 126 42 5 8 BDL BDL

25.2.2009 132 43 5 9 BDL BDL

Maximum 138 66 8 12

Minimum 97 36 4 5

Average 124 50 6 9

98

th

Percentile 138 65 8 12


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ANNEXURE II (CONTD…)

Location: Amakholi (A2)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 120 39 7 10 BDL BDL

2.12.2008 127 46 6 12 BDL BDL

8.12.2008 124 57 8 11 BDL BDL

9.12.2008 102 56 9 12 BDL BDL

15.12.2008 130 54 7 8 BDL BDL

16.12.2008 106 55 6 13 BDL BDL

22.12.2008 140 60 7 13 BDL BDL

23.12.2008 113 60 10 9 BDL BDL

29.12.2008 105 59 7 13 BDL BDL

30.12.2008 116 53 8 13 BDL BDL

5.1.2009 115 47 5 14 BDL BDL

6.1.2009 122 48 6 14 BDL BDL

12.1.2009 125 39 8 12 BDL BDL

13.1.2009 102 48 10 14 BDL BDL

19.1.2009 133 56 8 15 BDL BDL

20.1.2009 112 45 6 13 BDL BDL

26.1.2009 115 47 5 10 BDL BDL

27.1.2009 126 33 5 7 BDL BDL

3.2.2009 126 28 6 12 BDL BDL

4.2.2009 106 42 7 13 BDL BDL

10.2.2009131 39 6 9

BDL BDL

11.2.2009 115 29 8 12 BDL BDL

17.2.2009 106 28 6 13 BDL BDL

18.2.2009 109 34 6 14 BDL BDL

24.2.2009 126 38 7 12 BDL BDL

25.2.2009 122 34 6 10 BDL BDL

Maximum 140 60 10 15

Minimum 102 28 5 7

Average 118 45 7 12

98th Percentile 137 60 10 15


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Location: Parasi (A3)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 123 35 5 10 BDL BDL

2.12.2008 116 43 7 9 BDL BDL8.12.2008 101 46 7 12 BDL BDL

9.12.2008 139 55 8 8 BDL BDL

15.12.2008 134 52 4 7 BDL BDL

16.12.2008 114 57 5 13 BDL BDL

22.12.2008 119 60 5 11 BDL BDL

23.12.2008 123 49 5 12 BDL BDL

29.12.2008 129 54 6 10 BDL BDL

30.12.2008 105 46 6 8 BDL BDL

5.1.2009 132 47 8 9 BDL BDL

6.1.2009 123 50 4 6 BDL BDL

12.1.2009 134 55 6 6 BDL BDL13.1.2009 143 48 9 5 BDL BDL

19.1.2009 110 40 8 10 BDL BDL

20.1.2009 143 49 6 13 BDL BDL

26.1.2009 108 51 9 12 BDL BDL

27.1.2009 118 57 10 10 BDL BDL

3.2.2009 118 57 7 9 BDL BDL

4.2.2009 104 43 5 10 BDL BDL

10.2.2009 136 30 8 9 BDL BDL

11.2.2009 137 45 8 8 BDL BDL

17.2.2009 132 45 6 9 BDL BDL

18.2.2009 121 42 5 11 BDL BDL

24.2.2009 126 41 7 11 BDL BDL

25.2.2009 124 42 5 12 BDL BDL

Maximum 143 60 10 13

Minimum 101 30 4 5

Average 123 48 7 10



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Location: Ser (A4)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 139 46 8 9 BDL BDL

2.12.2008 132 51 6 12 BDL BDL8.12.2008 141 57 8 11 BDL BDL

9.12.2008 144 60 9 11 BDL BDL

15.12.2008 132 61 6 10 BDL BDL

16.12.2008 147 65 5 15 BDL BDL

22.12.2008 121 67 8 13 BDL BDL

23.12.2008 114 65 9 9 BDL BDL

29.12.2008 94 72 10 7 BDL BDL

30.12.2008 110 57 9 7 BDL BDL

5.1.2009 133 64 8 13 BDL BDL

6.1.2009 141 57 7 6 BDL BDL

12.1.2009 147 60 10 13 BDL BDL13.1.2009 148 58 5 8 BDL BDL

19.1.2009 148 69 6 14 BDL BDL

20.1.2009 152 58 10 9 BDL BDL

26.1.2009 110 63 10 11 BDL BDL

27.1.2009 151 59 9 12 BDL BDL

3.2.2009 141 54 8 12 BDL BDL

4.2.2009 145 41 9 16 BDL BDL

10.2.2009 130 46 11 15 BDL BDL

11.2.2009 139 42 9 14 BDL BDL

17.2.2009 125 38 9 14 BDL BDL

18.2.2009 138 39 8 10 BDL BDL

24.2.2009 130 38 8 13 BDL BDL

25.2.2009 139 43 8 12 BDL BDL

Maximum 152 72 11 16

Minimum 94 38 5 6

Average 134 55 8 11



22/28


Location: Khajuriha (A5)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)

24 hrs.Concentrations

1.12.2008 131 42 7 11 BDL BDL

2.12.2008 139 50 6 13 BDL BDL8.12.2008 136 63 8 12 BDL BDL

9.12.2008 112 61 9 14 BDL BDL

15.12.2008 142 59 8 9 BDL BDL

16.12.2008 116 60 6 14 BDL BDL

22.12.2008 147 65 8 14 BDL BDL

23.12.2008 123 66 9 10 BDL BDL

29.12.2008 115 64 8 14 BDL BDL

30.12.2008 127 58 9 14 BDL BDL

5.1.2009 126 52 6 15 BDL BDL

6.1.2009 134 53 7 15 BDL BDL

12.1.2009 136 42 9 13 BDL BDL13.1.2009 111 53 9 16 BDL BDL

19.1.2009 145 61 8 16 BDL BDL

20.1.2009 122 49 6 14 BDL BDL

26.1.2009 125 52 5 11 BDL BDL

27.1.2009 137 37 5 8 BDL BDL

3.2.2009 138 31 6 14 BDL BDL

4.2.2009 116 46 8 14 BDL BDL

10.2.2009 144 43 7 10 BDL BDL

11.2.2009 126 31 9 13 BDL BDL

17.2.2009 116 31 7 14 BDL BDL

18.2.2009 119 37 6 15 BDL BDL

24.2.2009 138 41 8 13 BDL BDL

25.2.2009 134 37 6 11 BDL BDL

Maximum 147 66 9 16

Minimum 111 31 5 8

Average 129 49 7 13



23/28


Location: Nidhpuri (A6)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 152 50 9 10 BDL BDL

2.12.2008 144 56 9 13 BDL BDL8.12.2008 154 62 9 12 BDL BDL

9.12.2008 157 66 10 13 BDL BDL

15.12.2008 144 66 7 11 BDL BDL

16.12.2008 160 71 6 16 BDL BDL

22.12.2008 133 74 9 14 BDL BDL

23.12.2008 125 71 10 10 BDL BDL

29.12.2008 103 79 7 8 BDL BDL

30.12.2008 120 62 10 8 BDL BDL

5.1.2009 145 70 9 14 BDL BDL

6.1.2009 154 62 8 7 BDL BDL

12.1.2009 161 66 10 15 BDL BDL13.1.2009 162 63 6 9 BDL BDL

19.1.2009 162 75 7 15 BDL BDL

20.1.2009 166 63 9 10 BDL BDL

26.1.2009 120 68 8 12 BDL BDL

27.1.2009 165 64 9 14 BDL BDL

3.2.2009 154 59 8 13 BDL BDL

4.2.2009 158 45 10 17 BDL BDL

10.2.2009 142 50 10 16 BDL BDL

11.2.2009 152 45 9 16 BDL BDL

17.2.2009 136 42 10 15 BDL BDL

18.2.2009 151 43 9 11 BDL BDL

24.2.2009 142 41 8 14 BDL BDL

25.2.2009 152 48 9 13 BDL BDL

Maximum 166 79 10 17

Minimum 103 41 6 7

Average 147 60 9 13



24/28


Location: Bhumka (A7)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 132 39 5 11 BDL BDL

2.12.2008 126 47 8 10 BDL BDL8.12.2008 110 50 8 13 BDL BDL

9.12.2008 152 60 9 9 BDL BDL

15.12.2008 147 57 4 8 BDL BDL

16.12.2008 125 63 6 14 BDL BDL

22.12.2008 130 66 5 12 BDL BDL

23.12.2008 135 54 6 13 BDL BDL

29.12.2008 141 59 7 11 BDL BDL

30.12.2008 115 50 7 9 BDL BDL

5.1.2009 144 52 9 10 BDL BDL

6.1.2009 134 55 4 7 BDL BDL

12.1.2009 146 60 7 7 BDL BDL13.1.2009 156 52 6 5 BDL BDL

19.1.2009 120 43 9 11 BDL BDL

20.1.2009 156 54 7 14 BDL BDL

26.1.2009 118 56 8 13 BDL BDL

27.1.2009 129 62 9 11 BDL BDL

3.2.2009 129 62 8 10 BDL BDL

4.2.2009 113 47 6 11 BDL BDL

10.2.2009 148 33 9 10 BDL BDL

11.2.2009 150 49 9 9 BDL BDL

17.2.2009 144 49 7 10 BDL BDL

18.2.2009 133 46 6 12 BDL BDL

24.2.2009 138 45 8 12 BDL BDL

25.2.2009 136 46 6 13 BDL BDL

Maximum 156 66 9 14

Minimum 110 33 4 5

Average 135 52 7 11



25/28


Location: Nigri (A8)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)

24 hrs concentrations

1.12.2008 144 58 9 12 BDL BDL

2.12.2008 142 52 9 12 BDL BDL8.12.2008 155 58 10 13 BDL BDL

9.12.2008 144 61 9 14 BDL BDL

15.12.2008 146 62 8 13 BDL BDL

16.12.2008 121 64 9 14 BDL BDL

22.12.2008 151 66 11 12 BDL BDL

23.12.2008 149 62 11 13 BDL BDL

29.12.2008 149 70 12 15 BDL BDL

30.12.2008 144 62 11 14 BDL BDL

5.1.2009 149 66 12 15 BDL BDL

6.1.2009 132 54 10 16 BDL BDL

12.1.2009 136 64 10 15 BDL BDL13.1.2009 161 60 12 13 BDL BDL

19.1.2009 136 54 10 17 BDL BDL

20.1.2009 149 54 11 15 BDL BDL

26.1.2009 145 58 11 16 BDL BDL

27.1.2009 137 41 9 14 BDL BDL

3.2.2009 135 36 9 13 BDL BDL

4.2.2009 125 44 10 14 BDL BDL

10.2.2009 122 36 8 12 BDL BDL

11.2.2009 135 48 9 13 BDL BDL

17.2.2009 142 50 10 15 BDL BDL

18.2.2009 103 28 8 11 BDL BDL

24.2.2009 108 29 9 13 BDL BDL

25.2.2009 95 51 8 11 BDL BDL

Maximum 161 70 12 17

Minimum 95 28 8 11

Average 137 53 10 14



26/28


Location: Katai (A9)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)

24 hrs Concentrations

1.12.2008 105 35 5 6 BDL BDL

2.12.2008 128 43 6 12 BDL BDL8.12.2008 139 46 5 10 BDL BDL

9.12.2008 127 56 6 8 BDL BDL

15.12.2008 131 53 4 10 BDL BDL

16.12.2008 142 59 6 8 BDL BDL

22.12.2008 127 62 7 11 BDL BDL

23.12.2008 136 64 7 9 BDL BDL

29.12.2008 140 68 5 7 BDL BDL

30.12.2008 146 46 7 10 BDL BDL

5.1.2009 148 48 7 8 BDL BDL

6.1.2009 127 51 4 7 BDL BDL

12.1.2009 144 56 7 12 BDL BDL13.1.2009 132 48 4 9 BDL BDL

19.1.2009 124 39 7 13 BDL BDL

20.1.2009 140 50 9 12 BDL BDL

26.1.2009 144 52 7 9 BDL BDL

27.1.2009 132 58 6 11 BDL BDL

3.2.2009 126 58 6 6 BDL BDL

4.2.2009 110 43 8 12 BDL BDL

10.2.2009 145 50 6 9 BDL BDL

11.2.2009 147 45 7 11 BDL BDL

17.2.2009 125 55 6 8 BDL BDL

18.2.2009 130 42 7 9 BDL BDL

24.2.2009 135 41 5 9 BDL BDL

25.2.2009 141 42 5 10 BDL BDL

Maximum 148 68 9 13

Minimum 105 35 4 6

Average 133 50 6 9



27/28


Location: Chhamrachh (A10)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 119 45 8 13 BDL BDL

2.12.2008 146 52 9 9 BDL BDL8.12.2008 121 53 8 14 BDL BDL

9.12.2008 150 51 7 7 BDL BDL

15.12.2008 155 41 6 11 BDL BDL

16.12.2008 146 45 9 13 BDL BDL

22.12.2008 130 54 6 6 BDL BDL

23.12.2008 121 56 5 12 BDL BDL

29.12.2008 133 55 4 5 BDL BDL

30.12.2008 129 56 6 13 BDL BDL

5.1.2009 126 57 7 13 BDL BDL

6.1.2009 133 64 6 10 BDL BDL

12.1.2009 138 54 8 15 BDL BDL13.1.2009 126 51 9 11 BDL BDL

19.1.2009 135 54 8 14 BDL BDL

20.1.2009 136 47 7 14 BDL BDL

26.1.2009 135 47 8 14 BDL BDL

27.1.2009 122 37 9 13 BDL BDL

3.2.2009 115 34 8 8 BDL BDL

4.2.2009 136 40 10 16 BDL BDL

10.2.2009 127 36 9 15 BDL BDL

11.2.2009 126 37 9 9 BDL BDL

17.2.2009 127 37 8 12 BDL BDL

18.2.2009 133 44 8 7 BDL BDL

24.2.2009 134 39 9 13 BDL BDL

25.2.2009 117 33 8 12 BDL BDL

Maximum 155 64 10 16

Minimum 115 33 4 5

Average 131 47 8 12



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Location: Bajbal (A11)


SO2(µg/m 3)

NOx (µg/m3)

Hg(µg/m3)

Ozone(µg/m3)


1.12.2008 110 48 7 9 BDL BDL

2.12.2008 115 46 7 11 BDL BDL8.12.2008 122 45 8 13 BDL BDL

9.12.2008 114 46 9 13 BDL BDL

15.12.2008 99 50 8 11 BDL BDL

16.12.2008 107 48 6 13 BDL BDL

22.12.2008 90 37 10 12 BDL BDL

23.12.2008 94 32 9 13 BDL BDL

29.12.2008 76 35 5 10 BDL BDL

30.12.2008 81 33 8 11 BDL BDL

5.1.2009 104 36 6 13 BDL BDL

6.1.2009 95 44 11 14 BDL BDL

12.1.2009 90 42 9 13 BDL BDL13.1.2009 109 33 8 14 BDL BDL

19.1.2009 112 29 9 12 BDL BDL

20.1.2009 119 39 8 11 BDL BDL

26.1.2009 107 29 7 12 BDL BDL

27.1.2009 111 32 6 10 BDL BDL

3.2.2009 116 32 7 12 BDL BDL

4.2.2009 125 32 8 12 BDL BDL

10.2.2009 128 29 8 12 BDL BDL

11.2.2009 118 29 9 13 BDL BDL

17.2.2009 126 29 8 13 BDL BDL

18.2.2009 131 31 10 14 BDL BDL

24.2.2009 133 29 11 11 BDL BDL

25.2.2009 128 32 8 11 BDL BDL

Maximum 133 50 11 14

Minimum 76 29 5 9

Average 110 36 8 12


Exe Summ Aryan Coal Eng

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