Coal-Fired Power Generation Handbook. James G. Speight
the second stage of coalification, after consolidation of the coal by movement of solutions in cracks, fissures, and cavities. Mineral components of plant origin are not easily recognized in coals because they tend to be disseminated on a submicron level. The primary mineral components incorporated during plant deposition tend to be layered with and intimately inter-grown with the organic fraction, whereas the secondary mineral matter tends to be coarsely inter-grown and associated with cleat, fractures, and cavities. Therefore, secondary minerals may be more readily separated (cleaned or washed) from the organic matrix to improve the value of the material.
More information related to coal character and properties is derived from geological studies of coal – which includes a wide variety of topics, including coal formation, occurrence, and properties but which is outside of the purview of this book but is described in detail elsewhere (Speight, 2013).
1.4.1 Lignite
Lignite (brown coal) is the least mature of the coal types and provides the least yield of energy; it is often crumbly, relatively moist, and powdery. It is the lowest rank of coal, with a heating value of 4,000 to 8,300 Btu per pound (ASTM D388) and is mainly used to produce electricity. With increasing rank (i.e., progressing from lignite to subbituminous coal to bituminous coal to anthracite) the moisture content decreases while the carbon content and the energy content both increase.
Lignite contains the lowest level of fixed carbon (25 to 35%) and highest level of moisture (typically 20 to 40% by weight, but can go as high as 60 to 70%) of all of the coal types (Chapters 2, 5). Ash produced from mineral matter during combustion varies up to 50% w/w. Lignite has low levels of sulfur (less than 1% w/w) and mineral matter (approximately 4% w/w), but has high levels of volatile matter (>32% w/w) and produces high levels of air pollution emissions. Because of its high moisture content, lignite may be dried to reduce moisture content and increase calorific fuel value. The drying process requires energy, but can be used to reduce volatile matter and sulfur as well.
Approximately 7% of coal mined in the United States is lignite and it is found primarily in North Dakota (McLean, Mercer, and Oliver counties), Texas, Mississippi (Kemper County), and to a lesser degree, Montana. The top 10 countries that produce brown coal are (ranked from most to least): Germany, Indonesia, Russia, Turkey, Australia, United States, Greece, Poland, Czech Republic, and Serbia.
With the growing concern for the environment due to emissions from coal utilization, lignite could as well be used in the production of combustible gases (including hydrogen) through underground coal gasification processes (Chapters 9, 10).
1.4.2 Subbituminous Coal
Subbituminous coal is often brown in color but more like bituminous coal than lignite. It typically contains less heating value (8,300 to 13,000 Btu per pound) and more moisture and volatile matter than bituminous coals, but lower sulfur levels (ASTM D388).
Subbituminous coal is considered a black coal, although its appearance varies from bright black to dull dark brown. Its consistency ranges from hard and strong to soft and crumbly, because it is an intermediate stage of coal between bituminous and brown coal (lignite). It is widely used for generating steam power and industrial purposes. Sometimes called black lignite, subbituminous coal is not stable when exposed to air and tends to disintegrate.
Subbituminous coal is non-coking and has less sulfur but more moisture (approximately 10 to 45% w/w) and volatile matter (up to 45% w/w) than bituminous coals. The carbon content is 35 to 45% w/w and mineral matter ranges up to 10% w/w. The sulfur content is generally under 2% w/w and the nitrogen content is on the order of 0.5 to 2% w/w. The combustion of subbituminous coal can lead to hazardous emissions that include particulate matter (PM), sulfur oxides (SOx), nitrogen oxides (NOx), and mercury (Hg).
Subbituminous coals produce combustion ash that is more alkaline than other coal ash. This characteristic can help reduce acid rain caused by coal-fired power plant emissions. Adding subbituminous coal to bituminous coal introduces alkaline by-products that are able to bind sulfur compounds released by bituminous coal and therefore reduce acid mist formation.
When subbituminous coal is burned at higher temperatures, its carbon monoxide emissions are reduced. As a result, small combustion units and poorly maintained ones are likely to increase pollution output. People who use subbituminous coal in a home furnace or firebox say that bigger lumps produce less smoke and no clinkers – however, high ash content can be a disadvantage.
Approximately 30% of available coal resources in the United States are subbituminous, a figure that surpasses other countries in its quantity of subbituminous coal resources, with estimated reserves of approximately 300,000 to 400,000 million ton (1 ton = 2,000 lbs) predominantly located in Wyoming, Illinois, Montana, and other locations west of the Mississippi river. Other countries with notable resources include Brazil, Indonesia, and Ukraine.
1.4.3 Bituminous Coal
Bituminous coal is the black, soft rock and the most common coal used around the world. Formed of many thin layers, bituminous coal looks smooth and sometimes shiny. It is the most abundant type of coal found in the United States and has two to three times the heating value of lignite. Bituminous coal contains 11,000 to 15,500 Btu per pound. Bituminous coal is used to generate electricity and is an important fuel for the steel and iron industries.
Bituminous coal lights on fire easily and can produce excessive smoke and soot (particulate matter) if improperly burned. The high sulfur content of the coal contributes to acid rain.
Bituminous coal commonly contains the mineral pyrite, which can serve as a host for impurities such as arsenic and mercury. Combustion of bituminous coal releases traces of mineral impurities into the air as pollution. During combustion, approximately 95% of the sulfur content of bituminous coal is oxidized and released as gaseous sulfur oxides.
Hazardous emissions from bituminous coal combustion include particulate matter (PM), sulfur oxides (SOx), nitrogen oxides (NOx), trace metals such as lead (Pb) and mercury (Hg), vapor-phase hydrocarbon derivatives (such as methane, alkane derivatives, alkene derivatives, and benzene derivatives) and polychlorinated dibenzo-p-dioxin derivatives and polychlorinated dibenzofuran derivatives. When burned, bituminous coal can also release hazardous gases such as hydrogen chloride (HCl), hydrogen fluoride (HF), and polycyclic aromatic hydrocarbon derivatives (typically represented as PAHs or PNAs). Incomplete combustion leads to higher levels of and polycyclic aromatic hydrocarbon derivatives (which are carcinogenic) but burning bituminous coal at higher temperatures reduces its carbon monoxide emissions. Therefore, large combustion units and well-maintained ones generally have lower pollution output. Bituminous coal has slagging and agglomerating characteristics.
Bituminous coal combustion releases more pollution into the air than subbituminous coal combustion, but due to its greater heat content, less of the fuel is required to produce a given output of electricity. Therefore, bituminous, and subbituminous coals produce approximately the same amount of pollution per kilowatt of electricity generated.
Bituminous coal is the most common coal – bituminous coal and subbituminous coal represent (cumulatively) more than 90% of all the coal consumed in the United States. When burned, bituminous coal produces a high, white flame. Bituminous coal includes two subtypes: thermal and metallurgical.
Thermal coal is sometimes called steam coal because it is used to fire power plants that produce steam for electricity and industrial uses. Locomotive trains that run on steam may also be fueled with bit coal (bituminous coal). However, steam coal, which is not a specific rank of coal, is a grade of coal that falls between bituminous coal and anthracite, once widely used as a fuel for steam locomotives. In this specialized use it is sometimes known as sea coal in the United States. Small steam coal (dry small