Coal-Fired Power Generation Handbook. James G. Speight

Coal-Fired Power Generation Handbook

4. High-volatile B bituminous coal – – 13,000–14,000 5. High-volatile C bituminous coal – – 10,500–13,000^c Subbituminous 1. Subbituminous A coal – – 10,500–11,500^c 2. Subbituminous B coal – – 9,500–10,500 3. Subbituminous C coal – – 8,300–9,500 Lignitic – – 1. Lignitic A – – 6,300–8,300 2. Lignitic B – – <6,300

^aCalculated on dry, mineral-matter-free coal.

^bCalculated on mineral-matter-free coal containing natural inherent moisture.

^cCoals with a heating value of 10,500–11,500 btu/lb are classified as high-volatile C bituminous coal if they have agglomerating properties and as subbituminous A coal if they are nonagglomerating.

Table 2.5 Typical properties of coal.

Sulfur content in Coal

Anthracite: 0.6-0.77% w/w

Bituminous coal: 0.7-4.0% w/w

Lignite: 0.4% w/w

Moisture content

Anthracite: 2.8-16.3% w/w

Bituminous coal: 2.2-15.9% w/w

Lignite: 39% w/w

Fixed carbon

Anthracite: 80.5-85.7% w/w

Bituminous coal: 44.9-78.2% w/w

Lignite: 31.4% w/w

Bulk density

Anthracite: 50-58 (lb/ft³), 800-929 (kg/m³)

Bituminous coal: 42-57 (lb/ft3), 673-913 (kg/m³)

Lignite: 40-54 (lb/ft³), 641-865 (kg/m³)

Mineral matter content (as mineral ash)

Anthracite: 9.7-20.2% w/w

Bituminous coal: 3.3-11.7% w/w

Lignite: 4.2% w/w

Subbituminous coal is not as high on the metamorphic scale as bituminous coal and has often been called black lignite. Lignite is the coal that is lowest on the metamorphic scale. It may vary in color from brown to brown-black and the properties of subbituminous coal range from those of lignite to those of bituminous coal. This coal is used primarily as fuel for steam-electric power generation and is also a source of low-boiling aromatic hydrocarbon derivatives that can be used as feedstocks in the chemical industry and in the petrochemical industry.

Lignite (brown coal) is often distinguished from subbituminous coal by having lower carbon content and a higher moisture content. It is the lowest rank coal (peat is not considered to be coal) and used almost exclusively as fuel for electric power generation. Lignite may dry out and crumble in air and is certainly liable to spontaneous ignition and combustion.

The ASTM system is based on proximate analysis in which coals containing less than 31% volatile matter on the mineral-matter-free basis (Parr formula) are classified only on the basis of fixed carbon, i.e., 100% volatile matter (Parr, 1922; Speight, 2013, 2015). Coal is divided into five groups: (i) >98% fixed carbon, (ii) 98% to 92% fixed carbon, (iii) 92% to 86% fixed carbon, (iv) 86% to 78% fixed carbon, and (v) 78% to 69% fixed carbon. The first three groups are anthracites, and the last two are bituminous coals (Speight, 2013, 2015). The subbituminous coals and lignite are then classified into groups as determined by the calorific value of the coals containing their natural bed moisture; i.e., the coals as mined but free from any moisture on the surface of the lumps.

The classification includes three groups of bituminous coals with moist calorific value from above 14,000 Btu/lb (32.5 MJ/kg) to above 13,000 Btu/lb (30.2 MJ/kg); three groups of subbituminous coals with moist calorific value below 13,000 Btu/lb to below 8,300 Btu/lb (19.3 MJ/ kg); and two groups of lignite coals with moist calorific value below 8,300 Btu/lb. The classification also differentiates between consolidated and unconsolidated lignite and between the weathering characteristics of subbituminous coals and lignite.

These test methods used for this classification system are (as already stated) based on proximate analysis and are (Luppens and Hoeft, 1992; Speight, 2013):

Heating value (calorific value), which is the energy released as heat when coal (or any other substance) undergoes complete combustion with oxygen. Moist calorific value is the calorific value of the coal when the coal contains the natural bed moisture (i.e., the moisture content of the coal in the seam prior to mining). The natural bed moisture is often determined as the equilibrium moisture under prescribed standard test method conditions (Chapter 5). In addition, the agglomerating characteristics of coal are used to differentiate between certain adjacent groups.

Volatile matter, which is the portion of a coal sample which, when heated in the absence of air at prescribed conditions, is released as gases and volatile liquids.

Moisture, which is the water inherently contained within the coal and existing in the coal in the natural state in the seam. The moisture is determined as the amount of water released when a coal sample is heated at prescribed conditions but does not include any free water on the surface of the coal; such free water is removed by air-drying the coal sample being tested.

Ash yield, which is the inorganic residue remaining after a coal sample is completely burned and is largely composed of compounds of silica, aluminum, iron, calcium, magnesium and others. The ash may vary considerably from the mineral matter present in the coal (such as clay, quartz, pyrites and gypsum) before being burned.

Fixed carbon value, which is the remaining organic matter after the volatile matter and moisture have been released. It is typically calculated by subtracting from 100 the percentages of volatile matter, moisture and ash. It is composed primarily of carbon with lesser amounts of hydrogen, nitrogen and sulfur. It is often simply described as a coke-like residue. The value is calculated by subtracting moisture, volatile matter, and ash from 100% (Скачать книгу