James G. Speight

Coal-Fired Power Generation Handbook


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101 < 6.1 Anthracite 102 3.1 - 9.0 201 9.1 - 13.5 Dry steam coal Low volatile steam coal 202 13.6 - 15.0 203 15.1 - 17.0 Cooking steam coal 204 17.1 - 19.5 206 19.1 - 19.5 Low volatile steam coal 301 19.6 - 32.0 Prime cooking coal Medium volatile coal 305 19.6 - 32.0 Mainly heat altered coal 306 19.6 - 32.0 401 32.1 - 36.0 Very strongly coking coal High volatile coal 402 > 36.0 501 32.1 - 36.0 Strongly coking coal 502 > 36.0 601 32.1 - 36.0 Medium coking coal 602 > 36.0 701 32.1 Weakly coking coal 702 > 36.0 801 32.1 - 36.0 Very weakly coking coal 802 > 36.0 901 32.1 - 36.0 Non-coking coal 902 > 36.0

      *Volatile matter - dry mineral matter free basis. In coal, those products, exclusive of moisture, given off as gas and vapor determined analytically.

      2.3.6 Coal as an Organic Rock

      Coal, in the simplest sense, consists of vestiges of various organic compounds that were originally derived from ancient plants and have subsequently undergone changes in the molecular and physical structure during the transition to coal (Chapter 1) (Speight, 2013 and references cited therein).

      Some mention will be made of the nomenclature and terminology of the constituent parts of coal, i.e., the lithotypes, the macerals, and the microlithotypes (Stopes, 1919, 1935; Spackman, 1958; Speight, 2013). It is unnecessary to repeat this discussion except to note that this particular aspect of coal science (petrography) deals with the individual components of coal as an organic rock whereas the nomenclature, terminology, and classification systems are intended for application to the whole coal. Other general terms that are often applied to coal include (i) coal rank and (ii) coal grade, which are employed to describe the particular characteristics of coal.

      The kinds of plant material from which the coal originated, the kinds of mineral inclusions, and the nature of the maturation conditions that prevailed during the metamorphosis of the plant material give rise to different coal types. The rank of a coal refers to the degree of metamorphosis; for example, coal that has undergone the most extensive change, or metamorphosis, has the highest rank (determined from the fixed carbon or heating value (Chapters 1, 5, 6). The grade of a coal refers to the amount and kind of inorganic material (mineral matter) within the coal matrix (Chapter 1). Sulfur-containing organic structures are, perhaps, the most significant of the non-hydrocarbon constituents because of the potential to generate sulfur dioxide during combustion.

      2.3.7 A Hydrocarbon Resource

      There have also been attempts to classify coal as one of the hydrocarbon-type resources of the Earth (Figure 2.3) but the term hydrocarbon is used too loosely and extremely generally since coal is not a true hydrocarbon and contains atoms (nitrogen, oxygen, and sulfur) other than carbon and hydrogen – a hydrocarbon (by the true chemical definition) contains carbon and hydrogen only (Fessenden and Fessenden, 1990). Even crude oil, despite the errors of the general nomenclature, is not an assemblage of true hydrocarbon derivatives (because of the occurrence of nitrogen-containing, oxygen-containing, sulfur-containing, and metal-containing species) (Speight, 2014).

Schematic illustration of a classification of the various hydrocarbon and hydrocarbon-producing resources.

      Figure 2.3 Classification of the various hydrocarbon and hydrocarbon-producing resources (Speight, 2013).

      Coal is an extremely complex heterogeneous material that requires several parameters for chemical and physical characterization (Chapters 5, 6) – one single parameter is completely lacking for the true characterization of coal. However, the standard method of characterizing the organic (maceral) and the inorganic (mineral) constituents of coal is known as coal petrography (Speight, 2013 and references cited therein).