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MOHAMMED KABIRUDDIN,
MS-ES
University of Petroleum & Energy Studies
What is Coal Bed Methane???
Coal Bed Methane (CBM) is naturally occurring methane (CH4)
with small amounts of other hydrocarbon and non hydrocarbon
gases contained in coal seams as a result of chemical and physical
processes.
CBM is an environment-friendly clean fuel with properties similar
to natural gas. It is often produced at shallow depths and in most
cases with large volumes of water of variable quality.
Coal Bed Methane
It is called 'sweet gas' because of its lack of hydrogen sulphide.The presence of this gas is well known from its occurrence inunderground coal mining, where it presents a serious safetyrisk.
Coal bed methane, often referred to as CBM, is distinct from atypical sandstone or other conventional gas reservoir, as themethane is stored within the coal by a process calledadsorption. The methane is in a near-liquid state, lining theinside of pores within the coal (called the matrix). The openfractures in the coal (called the cleats) can also contain freegas or can be saturated with water.
Coalbed Adsorption Phenomenon
Reservoir mechanisms
Source: Reeves
Reservoir mechanisms
Source: Reeves
Factors for Exploitation
Porosity plays an important role in building up methane gas
reserves in the coal bed. Unlike the conventional reservoirs, in coal
the methane is not compressed in the pore space (porosity) but
physically attached to the coal at molecular level (micro-porosity).
Micro-porosity makes up about 70 percent of the total porosity in
coal bed and is equivalent to a conventional reservoir having 20
percent porosity, saturated with 100 percent gas. On account of
this difference, coal has higher gas storage capacity than sands
containing petroleum gas.
Reforming Process
Coal is a carbon-rich material that has been formed by the
chemical and thermal alteration of organic debris. During
this process called coalification, a series of by-products are
generated, including water and methane.
With the progress of coal in rank from peat to anthracite,
about 140 m3 of methane is generated per ton of coal.
Reforming Process Methane can be extracted from the coal seams by the
process of desorption according to which the initial
reservoir pressure is reduced, by dewatering, to the critical
desorption pressure. Thereafter, the coal seams release
methane gas as the pressure is reduced.
The abandonment pressure is the lowest pressure at which
no more methane can be produced.
Before an exercise of drilling for the purpose of methane
extraction can be undertaken, an estimate of the reserves of
coal bed methane gas is made.
Exploitation of CBM
The existence of gas in coal has been known for many decades. It isonly in the last decade and a half that this gas has emerged as aviable energy source with coal as both source and reservoir rocks.
In USA, the CBM exploration was first initiated and an energyresource has also been recognized. By 1995, USA has producedabout 2.5 Bcfd (billion cubic feet per day) of CBM from 9000wells, which is about 5 percent of the total gas consumption ofUSA.
In CBM exploration, China is emerging as a major player andAustralia is on the threshold of commercial production.
CBM - Identification of Potential Coal bed Methane
Area
The studies for delineation of blocks for prospecting / exploitation of Coal bed Methane (CBM) have been carried out for
Jharia,
Raniganj,
East Bokaro,
West Bokaro,
North Karanpura and
Sohagpur
Coalfields by Central Mine Planning & Design Institute (CMPDI) at the instance of Ministry of Coal and Directorate General of Hydrocarbons (Ministry of Petroleum & Natural Gas).
Each of the above coalfields has been divided into two categories in regards to prospecting / exploitation of CBM as given below :
"YES AREA" : where CBM operations can be taken-up.
"MAY BE AREA": where coal mining may be taken up.
Hence, these blocks can be released for Coal Bed Methane only in future subject to consent of concerned coal company / CIL.
It would be seen from Table that a total of 1924.42 Sq. Km have been delineated as "Yes Area" which is available for CBM exploration and exploitation in above mentioned coalfields. Based on these studies, Ministry of Petroleum & Natural Gas is likely to invite global bids for exploration / exploitation of CBM in India.
Steps in drilling a CBM gas well
1. Geophysical inputs
Remote sensing imagery
Seismic survey
2. Drilling
Remote sensing imagery
Remote sensing data to identify the major tectonic set-up
which is useful to explore an area of coal bed methane. The
details of major fault trends will help in prioritizing the areas
available for exploration.
Seismic survey
High resolution seismic survey is helpful to know the basin
configuration, its tectonic style, thickness of coal-bearing formation,
lateral continuity and approximate depth of different coal seams.
The sampling interval, geophone, charge size, charge depth, group
interval and shot interval should be carefully chosen through
experiments and the full spectrum of recorded frequencies during
processing of data should be retained. The geophysical inputs may,
however, be required in a unexploited field before taking up an area for
coal bed methane exploration.
Drilling
The design and procedure for drilling a coal bed methane gas wellmust achieve the aims of maintaining well control and preventingformation damage.
The primary concerns for drilling are overpressure of gas/waterkicks, high permeability which leads to loss of circulation fluid,formation damage due to the nature of coal and hole sloughing.
The rigs commonly used are portable, self-propelled andhydraulically-driven, having a top head drive. A major problemduring drilling could be the excessive water flow. Drilling withpressure may be hindered due to escape of large quantities of waterthrough the coal seams.
CBM Resource Scenario in India
Total coal resource: 248 billion tons
1. Gondwana Basins contribute about 99% of it
2. Damodar Valley Coalfields contribute 50% of this resource –primary target for CBM Exploration.
3. Estimated CBM resource -0.8 to 1.5 TCM (different sources).
4. ONGC’s preliminary assessment indicate 4 Damodar Valley Coalfields viz. Jharia, Bokaro, North Karanpura and Raniganj to be most prospective.
CBM Potential of India India is among the top ten countries in coal resources, having an
estimated coal reserve of 160 million metric tons, with an estimatedmethane resource of 850 BCM. The Indian coal is mainly confined tothe Permian Gondwana basins and the tertiaries.
Tertiary coals are widespread in Assam, Meghalaya, Arunachal Pradesh,Tamil Nadu, Rajasthan and Gujarat. Tertiary coals are generally foundto be lignitic to sub-bituminous in rank and are generally consideredto be unsuitable for coal bed methane target.
However, tertiary coals in petroliferous basins of Cambay, UpperAssam and Assam–Arakan may be prospective due to reported highergas content, which is probably stored in the coal after generation fromdeeper-lying hydrocarbon source beds or may be of biogenic origin.
What CBM Research Says?
Methane emission studies from working mines of
India reported most of the degree three gassy mines
(> 10 cubic m/ton), are confined in the four Damodar
Valley coal fields, viz. Raniganj, Jharia, Bokaro and North
Karanpura in Bihar andWest Bengal.
In these areas, the thickest bituminous coals are extensively
developed in the Barakar measurers and in Raniganj measures
of Lower and Upper Permian age, respectively.
Conti……….!
The Barakar coal seams are superior to Raniganj coal seams as coalbed methane targets. Based on thickness and burial depth, rankand quality of coal has the greatest coal bed methane potential inIndia.
In India, the Reliance Gas has carried out comprehensivegeologic assessment of coal/lignite basins based onwhich about 20,000 km 2 of area has been identified asprospective for CBM with estimated in place resource ofabout 2000 billion cubic metres.
Conti……….!
The recoverable reserve of about 800 billion cubic metres
and gas production potential of about 105 million metre
cum per day over a period of 20 years has been estimated.
CBM potential is thus about 1.5 times the present natural gas
production in India, which is capable of generating about 19000
MW of electricity. The potential of gas production in India is given
inTable .
World scenario According to the USGS in 2000, the US CBM resource is about
700 trillion cubic feet (tcf), of which they estimated about 100 tcf
to be economic. The US consumes about 22 tcf per year, so CBM
presents the equivalent of at least a 5 year supply to our country.
World-wide estimates of CBM resources range from 6,000 to
24,000 tcf, with the former Soviet Union estimated to have two
thirds of the resource. China’s resource is estimated at about
1,000 tcf.
Worldwide Interest At the moment, almost all of the world’s 7.6 bcm/y production of
coal bed methane comes from the US3, where reserves of coal bedmethane are conservatively estimated at a third of natural gasreserves. Drilling is concentrated in two areas, Alabama’s Blackwarrior, where the coal seams are particularly gas-rich; and NewMexico’s San Juan basin, which is tied into the natural gas grid4.
Australia is likely to be the next producer of commercialquantities of methane: a couple of pilot projects in Queenslandand New South Wales are already well advanced. However, onedrawback in such a huge but sparsely populated territory is findinga market for the gas.
Worldwide Interest
China, the world’s largest coal producer, is sitting on more than 700 tcf(Trillion Cubic feet)of coal bed methane.
The country already has a fairly widespread system of methane drainageand capture, to keep its rather gassy mine safe enough to work in.
But although 60% of drained methane is utilized, most of it is too diluteto be used in anything other than local power plants or factory sites. Thesmaller coal producers of the world are doing their bit for coal bedmethane too.
However, the mature industries and crowded territories of most of themwill keep developments modest. Interest around the world isquickening, and world coal bed methane output is on the first track.
