Coal-Fired Power Generation Handbook. James G. Speight
can, as in the crude oil industry (Speight, 2011b, 2014), be cumulatively summed by the measures 1P, 2P, and 3P, which are inclusive, so include the previous safer measures as (i) 1P reserves – proven reserves consisting of both proved developed reserves plus proved undeveloped reserves), (ii) 2P reserves – consisting of 1P proven reserves plus probable reserves, and (iii) 3P reserves – consisting of the sum of 2P reserves plus possible reserves.
On the other hand, the estimated ultimate recovery of coal (or any resource) is the sum of the proven reserves at a specific time and the cumulative production up to that time.
1.6.2 Inferred Reserves
The term inferred reserves (unproved reserves) is commonly used in addition to, or in place of, potential reserves. The inferred coal reserves are regarded as being of a higher degree of accuracy than the potential reserves and the term is applied to those reserves that are estimated using an improved understanding of seam structure (see Proven reserves – above).
In the United States, inferred reserves (reserve growth) include those resources expected to be added to reserves as a consequence of extension of known fields, through revisions of reserve estimates, and by additions of seams (or coal strata) in discovered coal domains. Also included in this category are resources expected to be added to reserves through application of improved mining techniques.
This category thus includes both the indicated reserves and the inferred reserves described in earlier United States Geological Survey assessment publications. Predictions of reserve growth may refer to coal fields found before a specified year and the analysis of reserve growth in discrete conventional coal accumulations is based on the definitions and reports of the United States Energy Information Administration (EIA). In summary, inferred reserves are assessed by preliminary exploration and are part of probable reserves – the level of their probability assessment is low.
1.6.3 Potential Reserves
Potential reserves (probable reserves, possible reserves) are the additional reserves of coal that are believed to exist in the earth. The data are estimated (usually from geologic evidence) but have not been substantiated by any drilling or coring operations. Other terminology such as probable reserves and possible reserves are also employed but fall into the subcategory of being unproven.
In summary, potential reserves are those contingent reserves that, as of a specified date, are potentially recoverable from known accumulations coal fields but the applied project(s) are not yet considered mature enough for commercial development due to one or more contingencies. Potential reserves may include, for example, projects for which there are currently no viable markets, or where commercial recovery is dependent on technology under development, or where evaluation of the accumulation is insufficient to clearly assess commerciality.
1.6.4 Undiscovered Reserves
One major issue in the estimation of coal (or for that matter any fossil fuel or mineral) resource is the all too frequent use of the term “undiscovered” resources. Caution is advised when using such data, as might be provided to “substantiate” such reserves, as they are very speculative and are regarded as many energy scientists as having little value other than being unbridled optimism. And perhaps, opportunism and/or charlatanism are being applied depending upon the resource under speculation and the potential market for the product.
The differences between the data obtained from these various estimates can be considerable but it must be remembered that any data related to the reserves of natural gas (and, for that matter, related to any other fuel or mineral resource) will always be open to questions related to the degree of certainty (Speight, 2104).
There are three important items that counteract the guesswork applied to undiscovered resources: (a) the actual discoveries of new coal reserves; (b) the development of improved mining technologies for already known coal reserves; and (c) estimates of the coal resource base that are derived from known resource properties where the whole of the resource is not explored.
It should also be remembered that the total resource base of any fossil fuel (or, for that matter, of any mineral) will be dictated by economics (Nederlof, 1988). Therefore, when coal resource data are quoted some attention must be given to the cost of recovering those reserves. And, most important, the economics must also include a cost factor that reflects the willingness to secure total, or a specific degree of, energy independence, including some serious consideration of the very real environmental aspects of coal usage.
On the basis of these definitions, the total recoverable reserves of coal around the world are estimated to be on the order of at 950 billion tons (950 x 109 tons), indicating a reserves-to-production ratio of 126 years (International Energy Agency, 2010; EIA 2010, 2011, 2012a, 2012b). Furthermore, because recoverable reserves are a subset of total coal resources, recoverable reserve estimates for a number of regions with large coal resource bases (notably, China and the United States) could increase substantially as coal mining technology improves and additional geological assessments of the coal resource base are completed.
Although coal deposits are widely distributed, the majority (approximately 79%) of the recoverable reserves of the world are located in five regions: (i) the United States, (ii) Russia, (iii) China, (iv) Europe and Eurasia outside of Russia, and (v) Australia and New Zealand. By rank, anthracite, and bituminous coal account for approximately 47% of the estimated worldwide recoverable coal reserves on a tonnage basis, subbituminous coal accounts for 30%, and lignite accounts for 23%. As these numbers indicate, the United States has a vast supply of coal (approximately 28% of world reserves and more than 1,600 billion tons – 1,600 x 109 tons – of the remaining coal resources. The United States is also the second- largest coal producer in the world (after China) and annually produces more than twice as much coal as India, the third-largest producer of coal (Höök and Aleklett, 2009; EIA, 2010, 2011, 2012a, 2012b).
The quality and geological characteristics of coal deposits are important parameters for coal reserves. Coal is a heterogeneous source of energy, with quality (for example, characteristics such as heat, sulfur, and ash content) varying significantly by region and even within individual coal seams. At upper levels of coal quality are premium-grade bituminous coals, or coking coals, used to manufacture coke for the steelmaking process. Coking coals produced in the United States have an estimated heat content of 26.3 million Btu per ton and relatively low sulfur content of approximately 0.9% by weight. At the other end of the spectrum are reserves of low-Btu lignite – on a Btu basis, lignite reserves show considerable variation (International Energy Agency, 2010; EIA, 2010, 2011, 2012a, 2012b).
1.6.5 Other Definitions
While the definitions presented above are in common use, there are other systems of resource/reserve definition and nomenclature that are similar to the definitions used above (EWG, 2007) and also deserve mention here.
The definition of resources according to the scheme of the World Energy Council
The definition of reserves according to the scheme of the WEC is the proved amount in place, which is the resource remaining in known deposits that has been carefully measured and assessed as exploitable under present and expected local economic conditions with existing available technology. On the other hand the proved recoverable reserves is the tonnage of coal within the proved amount in place that can be recovered in the future under present and expected local economic conditions with existing available technology.
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