E-PG PATHSHALA IN EARTH SCIENCE-final Coal Resources PDF

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This document is a template for content writers, focusing on Earth science, specifically coal resources and their properties, formation, and distribution. It includes an outline, with various subtopics, and appears to be academic material.

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E-PG PATHSHALA IN EARTH SCIENCE-final

Content Writers Template

1. Details of Module and its Structure
Module details
Subject Name Earth Science
Paper Name Earth’s Mineral Resources
Module Name/Title Coal Resources
Module Id ES15 – 596.
Pre-requisites Before learning this module, the users should be aware of the origin,
formation, properties, classification, chemical composition,and world
distribution of coal and Indian distribution coal and lignite.

Objectives The objectives of learning this module are to understand
 Importance and properties of coal
 Their origin and formation of coal
Their classification and world distribution and Indian
distribution of coal and lignite.

Keywords Fossil fuel, Peat, Lignite, Sub-bituminous coal, Anthracite,Calorific
Value, Volatile matter, Vitrain, Durain, Clarian, Fusain, Humification,
Coalification

2. Structure of the Module-as Outline : Table of Contents only ( topics covered with their sub-topics)
1.0 Introduction
2.0 Varieties and ranks of coal.
2.1 Peat
2.2 Lignite
2.3 Sub bituminous coal
2.4 Bituminous coal
2.5 Semi anthrasite
2.6 Anthrasite
3.0 Chemical composition of coal
3.1 Moisture content
3.2 Volatile matter content
3.3 Ash content
3.4 Fixed carbon
3.5 Calorific value
4.0 Ultimate analysis of coal
4.1 Sulphur
4.2 Phosphorous
5.0 Visible components of coal
5.1 Vitrian
5.2 Clarian
5.3 Durain
5.4 Fusian
6.0Periods of coal formation
7.0 Stages in coal formation

8.0 Origin of coal
7.1 Evidences in support of insitu theory
7.2 Evidences in support of drift theory
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 9.0 Distribution of Indian coal
10.0 Distribution of coal fields in India
10.1 Coal fields of West Bengal
10.2 Coal fields of Jharkhand r

10.3 Coal fields of Chattisgarh
10.4 Coal fields of odisha
10.0 Lignite deposits of India 10.5 Coal fields of Bihar
11.0 World Coal and Lignite industry 10.6 Coal fields of Madhyapradesh
12.0 World Coal reserves 10.7 Coal fields of Andhrapradesh
13.00 Indian Coal resources
13.1 State-wise resources of Indian coal
14.0 Indian Lignite resources.

3. Development Team
Role Name Affiliation
National Co-ordinator

Subject Co-ordinators Prof. A. Balasubramanian Centre for Advanced Studies
(em: [email protected]) Prof. K. N. Prakash Narasimha Dept of Earth Science
Prof. B. Suresh University of Mysore, Mysore-6
Paper Co-ordinator Prof H.T.Basavarajappa Centre for Advanced Studies
Dept of Earth Science
University of Mysore, Mysore-6
Content Writer/Author(CW) Prof. B.Suresh Centre for Advanced Studies
Dept of Earth Science
University of Mysore, Mysore-6
Content Reviewer (CR) Prof. M.S Sethumadhava Centre for Advanced Studies
Dept of Earth Science
University of Mysore, Mysore-6
Language Editor(LE)

Table of Content

1 Introduction
2 Varieties and ranks of coal.
3 Chemical composition of coal
4 Ultimate analysis of coal
5 Visible components of coal
6 Periods of coal formation
7 Stages in coal formation
8 Origin of coal
9 Distribution of Indian coal
10 Distribution of coal fields in India
11 Lignite deposits of India
12 World Coal and Lignite industry
13 World Coal reserves
14 Indian Coal resources
15 Indian Lignite resources
16 Conclusions

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COAL RESOURCES

Objectives :
The objectives of learning this module are to understand
 Importance and properties of coal
 Their origin and formation of coal
Their classification and world distribution and Indian distribution of coal and lignite.

After attending this lesson the user should be able to understand the Importance and properties of
coal,their origin and formation of coal, their classification and world-wide distribution of coal
including Indian coal and lignite.

1.0 Introduction
Planet Earth has thousands of mineral resources. Minerals are the backbone of civilisation. The
available mineral resources of any country can propel the economic growth. Minerals have shaped
our civilisation from the Stone Age to the modern information age.

Among the naturally occurring mineral resources, we do have mineral fuels including oil and coal
resources. Energy is a key input to the economic growth and for the improved quality of life. Coal
has been used for several hundred years as a fuel. Currently, coal accounts for about 50% of the
commercial energy use and about 24% of total primary energy needs of country. About 70% of the
power generated is from coal and lignite.

1.1 Coal as a fuel
The word ‘Coal’ is derived from the Saxon word ‘Cole’ from the Sanskrit term ‘Kala’ and from the
English term ‘Col’. Coal is considered as a ‘rock’ as it is a natural solid substance forming one of
the units of the earth’s crust. It cannot be strictly considered as a mineral as it is not a homogeneous
substance. Coal is not of inorganic origin. It does not have a definite chemical composition. In
trade and industry, coal is regarded as a ‘mineral’.

Coal is one of the chief ‘fossil fuels’ or ‘mineral fuels. It is an important source of heat and energy.
Coal may be defined as vegetal matter that has been subjected to a variety of geological processes
and has thereby undergone remarkable changes in physical properties as well as in chemical
composition. The changes mainly involve the darkening of color, increase in hardness and
compactness, loss of moisture and volatiles such as CO2 (Carban Di oxide), Hydrogen and Oxygen
and an increase in Carbon content.
The scientific definition of coal is given by E.A.N. Arbea that “Coal is a solid stratified rock
composed mainly of hydrocarbons and capable of being used as a fuel to supply heat or light or
both”.

1.2 Varieties and Ranks of Coals
Initially there were two general varieties of coal as humic coal and saprogenic coal.
The Humic coals are the most important and are mainly formed from the remains of the wood and
bark of the original plants. The saprogenic coals are formed from non-woody matter as leaves,
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spores, enrich of plants and also from organic oozes, algae, fungi. These coals contain less carbon
than normal coal and they are massive and on distillation they give Petroleum eg. Cannel coal. The
saprogenic coals are considered to be transitory stage between true coal and petroleum. Sometimes
they are termed Sapropelites as they are originated from the ‘Sapropeliam’.

1.3 Coal in Earth’s Geological History
Coal deposits are found in sedimentary sequences of Tertiary and Gondwana periods. Scientists
refer to them as tertiary coals and gondwana coals

2.0 Modern classification of coal :
The following varieties of coal were recognized so far based on the extent to which the physical and
chemical changes have proceeded in the transformation of vegetal matter into coals.
a) peat c) Subbituminous coal e) Semi-anthracite
b) Lignite d) Bituminous coal f) Anthracite
2.1 Peat: - Peat represents the first stage in the coal formation. It may be defined as a mass of vegetal
matter that has undergone a varying degree of disintegration and decomposition. It is a compact
fibrous and porous substance varying from light brown to dark brown in colour, in which the remains
of original vegetal matter can be seen. It contains high percentage of moisture up to 85%, 10.4% of
volatile matter, 4.6% fixed carbon and has a calorific value of about 3500 B.Th.U (British Thermal
Units). Peat is not an economic fuel. It is mostly used as a fertilizer or in the manufacture of
fertilizer because of its rich nitrogen content (up to 2%).

Important deposits of peat are found in England, Scotland, Virginia, etc. In India, peat beds are
reported from Palani and Nilgiri Hills of Tamil Nadu and Kashmir. Submerged beds of peat are
recorded from both sides of Hooghly River in Calcutta.

2.2 Lignite: It is also called as ‘brown coal’ because of its characteristic brown colour. It is
generally woody in nature. It contains a high proportion of moisture (25-45%). It burns with a long
brown flame and it has a low heating power.
Lignite is used for distillation, combustion, briquetting and gasification (manufacture of gas). Some
lignite’s are hard compact as in the case of Nyveli Lignite. Lignites are utilized for generating
thermal power and also in the manufacture of fertilizers. The calorific value ranges from 11,000 to
12,500 B.Th.U/lb (British Thermal Units per period).

2.3 Sub-bituminous Coal: It is a dull black coal which is intermediate in grade between lignite and
bituminous coal. It is practically free of woody matter or plant materials. Some of Lower Gondwana
coals and of Eocene coals are of this type.

2.4 Bituminous Coal: This term is derived from the word ‘bitumen’, through it does not contain
bitumen’s. It is a common commercial rank coal. It is dense, compact and black in color and free
from vegetable material. Usually, it is laminated with alternate dull and bright bands. It burns with a
smoky yellow flame similar to that of bitumen. It exhibits dull to resinous luster. It breaks along
vertical joints called ‘cleats’ giving rise to rectangular or cubical blocks.

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Bituminous coals are considered as all purpose coals and because of its excellent heating quality it is
most extensively used as fossil fuel in the world. It is used for steam raising and heating purposes.
Bituminous coals are also used for the production of gas and coke. Bituminous coals are classified
into High volatile and Low-volatile coals.

2.5 Semi-anthracite: It is harder than bituminous coal. It burns with a short yellow flame at first and
then with a blue flame.

2.6 Anthracite: It is a hard coal with jet black (Iron black) color and semi-metallic luster. It does not
soil the finger and breaks with conchoids fracture. It burns with short blue flames without smoke.
Hardness varies from 2.75-3 and specific gravity from 1.27-1.7.gm/cc. It has a high heating value. It
is used exclusively for domestic heating purposes wherever available. It has no coking property and
it is not as common as the bituminous coals.

3.0 Chemical Composition of coal
Chemically, coal consists of a mixture of complex organic compounds along with small amounts of
inorganic mineral matter and moisture. Carbon, hydrogen and oxygen are the principle constituents
of coal, along with small amounts of nitrogen and sulphur.
The proportion of these elements is as shown in Table-1 from wood to Anthracite (According to
Clarke).
C H O N
Wood 49.65 6.23 43.20 0.92
Peat 55.44 6.28 35.50 1.72
Lignite 72.95 5.24 20.50 1.31
Bituminous 84.24 5.55 8.69 1.52
Coal 93.50 2.81 2.72 0.97
Anthracite

It is seen from the table that there is a steady increase of Carbon and a corresponding decrease in
Oxygen from wood to Anthracite. Hydrogen also decreases very gradually and Nitrogen content
remains constant.

The chemical composition of coal is determined either by the ‘Proximate analysis’ or by the
‘Ultimate analysis’. The proximate analysis, consist of determination of the following:

3.1 Moisture Content: Presence of Moisture in coal may be coming due to absorbed water on the
external surface of coal or in pores of coal and it is called free water. It is also present as dissolved
water or as water resulting from the decomposition of organic compounds and it is termed as
inherent/hydroscopic moisture. The inherent moisture can be roughly taken as a measure of the rank
of coal. The Tertiary coals have relatively high moisture content than the Gondwana coals.

3.2 Volatile matter: The volatile matter obtained during the analysis of coal, consists of combustible
gases, hydrogen, carbon monoxide, methane and hydrocarbon. It also includes tar-vapours and
incombustible gases, like carbon dioxide and water vapour. Coals with volatile matter less than
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17% or more than 40% are not good coking coals. Therefore the volatile matter controls the coking
property and determines the rank of coal.

3.3 Ash Content: The amount of ash content in coal varies widely with reference to different coals.
It is below 2% or it may be high as 20-30%. Assam coals contain 8% of ash; Gondwana coals
contain up to 10% of ash content. Coals that have high ash content are generally regarded as low
grade coals.

3.4 Fixed Carbon: The carbon that has not combined with any other element of coal is referred to as
fixed carbon. The amount of fixed carbon increase with the rank of coal and it is highest in
Anthracite.

3.5 Calorific Values: Calorific value is also known as the heat-raising capacity or value of coal. It
can be expressed in terms of calories in the metric system or in terms of British Thermal units
(B.Th.U) according to the English system.
A calorie (a unit of heat) is the heat required to raise the temperature of 1kg of water from 15 to 16
degree Celsius.
British thermal unit is the heat required to raise the temperature of one pound of water from 62
degree Fahrenheit to 63 degree F or B.Th.U. =0.252 calories.

4.0 Ultimate Analysis of coal:
It refers to the estimation of the proportion of ash, carbon, hydrogen, nitrogen oxygen, sulphur and
phosphorus. The high percent of oxygen is very undesirable because it reduces the heating value and
affects the coking property of coal.

Sulphur is present in all coals and it occur as organic phosphorous representing the constituent of the
original plants or it may be present as the inorganic calcium phosphate derived from the intrusive
magma. In India, the coal fields of Damodar valley, Phosphorous is derived mostly from highly
phosphatic mica-lamprophyre dykes and sills.

Table-2: Average Chemical Composition of Various ranks of coal (After Moore)
Rank Moisture Volatile Fixed carbon Ash content Calorie
matter value
Lignite 34.55 35.34 22.91 7.20 3939
Sub- 24.28 27.63 44.84 3.25 5209
bituminous 3.24 27.13 62.52 7.11 7733
Bituminous 3.38 8.47 76.65 11.50 7309
Semi- 2.80 1.60 88.21 7.83 7388
Anthracite
Anthracite

It is seen that in the series of humic coals from lignite to anthracite, both moisture content and
volatile matter decreases progressively and fixed carbon will be increased from Lignite to Anthracite.
Peat and lignite are low-rank coals and Bituminous and Anthracite are high rank coals.
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5.0 Visible Components of Coal
Coal is not homogenous throughout its mass but it is composed of a number of bands or layers.
There are two types of bands as Bright bands and Dull bands. Indepth examination shows that
each of these bands show the presence of two distinct components which are distinguished by their
physical characters. The notable bands of the coals are a)vitrain, b)Clarian, c)Durian, d)Fusain.

5.1 Vitrain – is the principal bright component of coal having a jet black color with a brilliant and
glassy surface. It occurs in thin bands or laminae. It breaks with conchoidal fracture. It shows
vitreous luster.
5.2 Clarian – It is also bright component of coal but it is less brighter than Vitrain. It occurs as bands
of variable thickness arranged parallel to bedding plane. It exhibits silky luster and a smooth striated
surface when broken.
5.3 Durian – It is the ‘dull’ component of coal with a dull grayish black color and occurs as thick
bands. It is hard and breaks with irregular and rough lusterless surface.
5.4 Fusain – It is also called ‘mineral charcoal’ and it is the soft black powdery component of coal.
It occurs as patches or flat wedges. This is very friable material and charcoal.

6.0 Periods of coal formation
As mentioned earlier, there are two or three principle periods of coal formation in the Earth’s
History.
The first and most important period of coal formation was during Carboniferous to Permian times.
The coal forming processes have first started in the North –Western part of the world during
carboniferous period and gradually proceeded South-Easten, so that the coal seams of Northern-
Hemisphere, particularly North America and Europe are of Carboniferous age and coal seams of
Siberia, Eastern Asia, India and Australia are of Permian age. The major coal fields of the world,
characterized by high rank coals, belong to the carboniferous and Permian periods.

The second geological period of coal formation was during upper cretaceous to Miocene times,
found in Italy, Austria, Hungary, Japan, Indonesia and India. They are commonly referred to as
Tertiary coals. All lignite deposits were formed in this period.

The third geological period which is a less important period of coal formation is Quaternary or Post-
tertiary times. All known peat deposits of the world were formed during this time.
The major coal fields of the world have originated either in Swamps or in brackish or fresh water
basins starting with, abundant plant material which might have drifted into these basins or grew
insitu in swamps.

7.0 Stages in Coal Formation
The transformation of plant debris to coal occurs mainly in two successive stages, as Bio-
chemical stage and Geo-chemical stage

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7.1 Bio-chemical stage or peat forming stage is called Humification process. The changes brought
about by the activity of bacteria and other microorganisms in the plant debris during this process are
due to decay and decomposition of the chemical substances such as the Lignins, celluloses, proteins,
resins etc. which were originally present in plants. The ultimate produces of such decay are some
humic substances and the result is the transformation of the vegetal debris into a porous fibrous and
friable mass called the peat. This stage is the most important stage because it gives the basic material
i.e. peat which is subsequently transformed into different types of coal.

7.2 Geo-chemical stage or transformation of peat into higher rank coals. This is called coalification
process.
The peat which is formed by humification process is converted into lignite and then to Bituminous
coal and finally into Anthracite. All these happened under the influence of the conditions like
temperature and pressure prevailing at depths in the earth’s crust as well as due to various geological
factors. This process is called coalification process. The series, peat-lignite-Bituminous-Anthracite
is referred to as ‘coalification series’.

8.0 Origin of Coal
Though all verities of coal are originated from vegetable matter, there is a wide divergence of
opinions regarding the mode of accumulation of these plant remains in the water basins to give rise
to coal seams.
So far.two theories have been put forward to explain the origin of coal seams. They are, Insitu
theory and Drift theory.

8.1 Insitu theory : The Insitu theory suggests an ‘insitu’ origin of the coal seams which means that
the vegetal grew at the same place where we now find the coal seams and it is said to be
Autochthonous in origin.
Evidence in support of insitu theory :
1) There are large accumulations of vegetal matter forming in swamps at the present day. Some
of them gave rise to coal seams.
2) The purity of coal seams and uniformity in composition indicates that the deposition of the
vegetal matter in still waters and from nearly the same source material.
3) The numerous tree trunks were found with their roots firmly fixed in the underlying clays that
lie beneath the coal seams. These clays represent the original soils on which the vegetation
grew.
4) The underlying clays are generally poor in alkalies and oxides and these materials have been
extracted and utilized by plants.

8.2 Drift theory: According to this theory the vegetal debris have been transported by water from
their original site of growth to the present site of coal seams. This is said to be Allochthonous in
origin.

Evidence in support of Drift Theory :
1) Large quantities of tree trunks are being transported downstream by present day rivers
particularly in regions of forests.

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 2) Beds of peat have been found in the process of formation at the deltas of some rivers at the
present day.. e.g., Delta of Ganga.
3) The presence of marine fossils.
4) The rocks associated with coal are distinctly sedimentary and coal seams themselves behave
like sedimentary beds.
5) Tree trunks have been found with their tops headed downwards.
6) Absence of clays and coal seams lie directly on sandstones, shale’s or conglomerates.
It is now generally accepted that coal seams of Western Europe are formed by insitu whereas those
of India have been formed by drift.

9.0 Distribution of Coals in India:
The coal deposits of India belong to two principal geological periods-
1) The greatest period of coal formations in the Permian. The important coal-bearing formations
are together known as Damudas (Damuda group) of lower Gondwana system (sequence). The
coals were derived mainly from the Glossopteris flora which flourished in the vast ancient
continent of ‘Gondwana land’ (coal measures of Australia, S. Africa and S. America were
also derived from this flora).
2) Tertiary coals of Eocene to Miocene age in Assam. Himalaya (Lignite) hills of Darjeeling
district in West Bengal, Tamil Nadu, Pondicherry, Kerala, Rajasthan, and Uttarpradesh and
Peat deposits of Tamil Nadu, Jammu and Kashmir of younger Tertiary or (Quaternary) age.
In Kashmir, sub-anthracites of Tertiary age were also reported.
3) In other parts of India, as in Kutch and Assam, coal seams associated with rocks of Mesozoic
Era (Jurassic-Cretaceous) have been found.

Gondwan Sequence (System)
As the Gondwana sequence is the main source of coal in India, a brief of the Geological history is
given here. The name ‘Gondwana’ sequence refers to a very thick (6000-7000 Mtrs) group of distinct
fresh water sedimentary rocks of lacustrine, fluviatile or estuarine origin and ranging in age from
upper carboniferous to lower cretaceous periods.

All the coal seams in India are inter-bedded with usually the sandstones and shale’s of fresh water
origin. The structure of the sedimentary basins in which coal deposits lie indicate that they were lake
basins which occupy rift valleys (faulted valleys).

10.0 Coal Fields of India :

10.1 Coal Fields of West Bengal:
Raniganj Coal Field: This coal field is named after the town of Raniganj which is the mining
centre.
Raniganj coal field is situated mainly in West Bengal and partly in Bihar and it is about 185 kms.
North-West of Calcutta. This coal field is about 1554 Sq.Kms. in area and is one of the largest coal
fields of India. The Gondwana formations in this coal field are extended over an area of 1000 Sq.km.

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The estimated total reserves (insitu) of coal in the Raniganj field according to the committee on
“Assessment of reserves of the coal council of India” are as follows:
1) The proved reserves of Quarriable Coal 376 million tonnes
2) Indicated reserves of Quarriable Coal 44.4 million tonnes
3) Inferred reserves of Quarriable Coal 48.3 million tonnes

10.2 Coal Fields of Jharkhand :
About one-third of the estimated coal reserves are distributed in the coalfields of Jharkhand and
Bihar. Jharkhand is one of the leading producer of mineral wealth in the country.
The total reserves of the coal in Jharkhand is of the order 69128 million tonnes which spread over
Jharia, Bokaro, Rajmahal, Hazaribagh and Chatra areas of prime coking coal in the country. The
availability of prime coking coal in the country is quite meagre.
The State of Jharkhand is endowed with 72.2 Billion Tonnes of coal of all categories. This is
distributed in 12 Major Coalfields.. Jharkhand is the only State which is having prime coking coal
which with or without washing can be directly fed to Coke oven for making metallurgical coke.

Jharia Coal Field: It is the most important productive of the Indian coal fields and is situated in the
heart of the damodar valley mainly along the North of the river in the Dhanbad District of Jharkhand.
This coal field is named after the chief mining center ‘Jharia’ and it is situated about 260 kms N-W
(North-West) of Calcutta. It is covering an area of about 450 sq.kms and extending for a maximum
of about 38 kms. E-W ( East-West) and 19 Km N-S( North-South). The lower Gondwana rocks are
very well developed in this field.
The coal seams of the Jharia coal field exhibit a characteristic banding of alternate bright and dull
layers of coaly matter. The coal seams are superior which is known as ‘Selected grade coal’.

Bokaro Coal Filed: This coal field contains two parts – the East Bokaro coal field (area of 207
Sq.Kms) and West Bokaro Coal field (area of 154 Sq. Kms). All the formations of the lower
Gondwana System from Talchir to Panche series occur in this fields. Usually the coals are of coking
varieties. In west Bokaro Coal field, about 13 coal deposits occur up to a depth of 609 meters in this
field. The coals are high in ash content, low in moisture content and coking varieties.
The Bokaro coal field is situated in the Hazaribagh district and is the second largest coal field in
Jharkhand State and it is named after Bokaro River.

Ramgarh Coal field: This is a small coal field occupying an area of 98 Sq.Kms. in Barkars of
Jharkhand State. About 20 coal seams are reported from this field. The coals in Ramgarh basin are
of high coking variety.

10.3 Coal fields of Chhattisgarh
The state of Chhattisgarh has 16% of the total coal deposits of India. 44483 million tonnes of coal
has been estimated in 12 coalfields of the State located in Raigarh, Surguja, Koriya and Korba
districts. The state ranks 2nd in coal production by contributing over 18% to the total national
production.

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Most of the coal deposits are of power grade coal. NTPC & CSEB in Korba are the major producer
of thermal power and new a plant of NTPC has been started in Seepat, Bilaspur. Potential for more
power generation units exist in the State.
South Eastern Coal Fields, also called as SECL, at Korba of Chhattisgarh is an excellent base from
where the mining sector of the state has received major impetus. Since the reserves of tin, iron,
dolomite and other similar elements are spread over the huge geographical space of Chhattisgarh,
hence it is but natural that mining and production cost are quite low, which in turn brings greater
returns economically.

a) North Chhattisgarh Coalfields:
Following are the major coal fields of North Chhattisgharh
1. Tatapani Ramkola coalfield
2. Jhilimili coalfield.
3. Sonhat coalfield
4. Bisrampur coalfield

b). South Chhattisgarh Coalfields:
1. Hasdo-Rampur (Surguja) coalfield
2. Korba coalfield.
3. Mand- Raigarh coalfield

10.4 Coal Fields of Orissa
Out of 57 Gondawana & 14 Tertiary coalfields for the national inventory of coal, Orissa state has
only two coalfields. Yet its share in the reserve is so far established in the country amounts to
24.78% (58.01 B.T).
In Terms of spatial spread of prognostical coal bearing area, the coalfields of the state of Orissa have
about 7.6% area (2723 Sq.Km). This goes to illustrate the high ratio of coal to non coal strata in the
two hitherto known coal bearing basins viz. River coalfield and Talcher coalfield. As a sequel to
which these coalfields have an added advantage of being accorded most favoured coalfields status by
the nature as far as quarriable potentiality is concerned.

10.5 Coal Fields of Bihar
1.Karanapura Coal Field
This is another major coal field of the upper Damodar valley including two separate areas of
Gondwana rocks such as Northern area of about 1230 Sq. Km and known as North Karanapura coal
field and the southern area of about 195 Sq.Km called the South Karanapura Coal Filed, in the Bihar
state. The total area of this coal field is 1, 424 Sq.Km. There are two regions of coal occurrence as
i) Northern Karanapura Coal field
ii) South Karanapura Coal Field

10.6 Coal Field of Madhya Pradesh:
In Madhya Pradesh the most important coal fields are Singrauli Coal Field.

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i) Singrauli Coal Field: This coal filed is situated south of the Son River and occupy an area of
2300 Sq. Km. in Madhya Pradesh. This field contains 140 to 160 mts. thick coal seam
known as Jhingurdh Seam (which is the second thickest seam in the world) lies mainly in the
Sidhi District of Madhya Pradesh with a small area of 80 Sq.Km extending into Mirzapur
district of Uttar Pradesh.
The estimated reserves of coal deposits of the field are the order of 10,851 million tonnes

10.7 Coal fields of Andrapradesh
Pranhita – Godavari Valley
The coal – bearing rocks of this valley extend over an area of 9000 Sq.Kms. The lower Gondwana
rock comprising of Talchirs (61 Meters), Barkars (610 Meters) and Kamthi beds (45m) are well
developed. The Talchir lie unconformity over the vindhayns (lime stone and shales) which lie on
crystalline archaeans.
The Kamthi beds (Sandstones) are well exposed over the most part of this region and Barkars are
few which indicate that Barkars might have eroded before the deposition of Kamthi beds. The
Barkars occupy parts of Adilabad, East Godavari, Kraimnagar, Khammam, Nizamabad, Warangal
and West Godhavari districts. Of all these areas, the coal mining is confined to Singareni, Tandur
and Godhavari Area.

i) Singareni Coal Filed (yellandu)
This coal field forms an outlier of Lower Gondwana rocks occupying an area of 5020 Sq. Km and it
lies within the Khammamett (Khammam) district. This coal field is in the form of a long narrow
strike with a length of 22. 5 Km and 3.2 to 5 Meters width and it is the most important coal
producing field in the Godhavari valley. The coal seams occur in the northern part near Yellanlapad
which is also 185 Kms East of Hyderabad.
About 7 coal seams are recognised in this coal field of which the bottom coal seam is known as
‘King Seam’ which varies in thickness from 1.83 to 2.1 Meters. The coal is of excellent quality of
non-coking variety. Another coal seam which occurs above the King seam is referred to as ‘thick
Seam’ which varies in thickness from 9.7 to 30.4 metre. This ‘Thick Seam’ was also named as the
‘Queen Seam’.

11.0 Lignite deposit of India
Important deposits of lignite in India are found in Tamil Nadu, Pondicherry, Rajasthan, Kerala,
Manipur, Nagaland, Tripura and Uttar Pradesh. The lignite deposits reserves in India (1983) were
estimated as 2, 906 million tonnes of which 2,590 million tonnes are reported from ‘Nyveli Lignite
field’ in the South Arcot district of Tamil Nadu. Therefore, of all the lignite occurrences the Nyveli
Lignite field is the most important.

Nyveli Lignite filed (Tertiary Coal seams)
This lignite filed is centred around the Nyveli Station and it is 43 Km west of Cuddalore part and
about 241 Km from Madras. The lignite deposits in Nyveli occur in a sequence of clays and
Cuddalore Sandstones of Miocene Age. Lignite occurs as a regular seam with a thickness varying
from 12 to 24 meters in the main field. No out crops of lignite were noticed but only in drill holes the

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lignite was encountered at depth of 43 meters. At present in the Main Quarry the lignite is taken out
from depth of 54.86 meters below the surface.

12.0 World Coal and Lignite Industry: Lignite is not traded to any significant extent in world
markets, because of its relatively low heat content and other problems related to transport and
storage. World coal and lignite consumption is projected to be around 6.8 Billion tonnes in 2020.
Coal use in developing Asia alone is projected to increase by 1.8 Billion tonnes. China and India put
together are projected to account for 29% of the increase in energy consumption. India is expected
to add over 65000 MW (Megewatts) by 2020 based on coal and lignite.

13.0 World Coal Reserves:
Coal is the most abundant amongst the fossil fuels. The latest estimated worldwide coal reserves are
given below in Table
Region Reserves in billion tonnes.
North America 258
Central and South America 22
Western Europe 92
Middle East 2
Africa 55
Asia 292
Former Soviet Union 263

World Total Source: Energy Information 984
Administration(EIA) 2010

14.0 Indian Coal Resources:
The coal resources of India are available in sedimentary rocks of old Gondwana formations of
peninsular India and the younger Tertiary formations of Northern/North-Eastern hilly region. The
total coal resource in India stands at 242 billion tonnes.

State-Wise Resources of Indian Coal : in million tonnes, Shown in Table
States Proved Indicated Inferred Total
Andhrapradesh 8263 6079 2584 16926
Arunachal pradesh 31 40 19 90
Assam 279 27 34 340
Chattisgarh 9373 26191 4411 39973
Jharkhand 35417 30439 6348 72204
Madhyapradesh 7531 8815 2904 19252
Maharashtra 4652 2309 1620 8581
Orissa 15161 30976 14847 60984
West Bengal 11383 11876 4554 27813
Total 92090 116752 37321 246163
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15.0 Indian Lignite Resources;
State-Wise and category –wise Lignite reserves are summarised below: in million tones. In table
State Proved Indicated Inferred Total
Tamil Nadu 2,360.00 9,358.12 18,753.70 30,471.82
Rajasthan 649.89 1,133.09 1,702.01 3,484.99
Gujarat 323.00 465.00 1,027.83 1,815.83
Jammu & Kashmir 20.25 107.59 127.84
Kerala 8.30 100.00 108.30
Total 3,341.19 10,976.46 21,691.13 36,008.7
-

16.0 Conclusions:
Coal is one of the chief ‘fossil fuels’ or ‘mineral fuels. It is an important source of heat and energy.
Coal deposits are found in sedimentary sequences of Tertiary and Gondwana periods
Coal is not homogenous throughout its mass but it is composed of a number of bands or layers.
Though all verities of coal are originated from vegetable matter, there is a wide divergence of
opinions regarding the mode of accumulation of these plant remains in the water basins to give rise
to coal seams. All the coal seams in India are inter-bedded with usually the sandstones and shale’s of
fresh water origin

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