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A coal breaker is a
coal Coal is a combustible black or brownish-black sedimentary rock, formed as rock strata called coal seams. Coal is mostly carbon with variable amounts of other elements, chiefly hydrogen, sulfur, oxygen, and nitrogen. Coal is formed when ...
processing plant which breaks coal into various useful sizes. Coal breakers also remove impurities from the coal (typically slate) and deposit them into a
culm dump In mining, tailings are the materials left over after the process of separating the valuable fraction from the uneconomic fraction (gangue) of an ore. Tailings are different to overburden, which is the waste rock or other material that overli ...
. The coal breaker is a forerunner of the modern coal preparation plant.Carris, David M. "A Historic Perspective." In ''Designing the Coal Preparation Plant of the Future.'' Barbara J. Arnold, Mark S. Klima, and Peter J. Bethell, eds. Littleton, Colo.: Society for Mining, Metallurgy and Exploration, 2007.
Coal tipple Coal is a combustible black or brownish-black sedimentary rock, formed as rock strata called coal seams. Coal is mostly carbon with variable amounts of other elements, chiefly hydrogen, sulfur, oxygen, and nitrogen. Coal is formed when dea ...
s typically were used at bituminous coal mines, where removing impurities was important but sorting by size was only a secondary, minor concern. Coal breakers were always used (with or without a tipple) at anthracite mines. While tipples were used around the world, coal breakers were used primarily in the
United States The United States of America (U.S.A. or USA), commonly known as the United States (U.S. or US) or America, is a country primarily located in North America. It consists of 50 states, a federal district, five major unincorporated territori ...
in the state of Pennsylvania (where, between 1800 and the mid-20th century, many of the world's known anthracite reserves were located). At least one source claims that, in 1873, coal breaking plants were found only at anthracite mines in Pennsylvania.


Function

The first function of a coal breaker is to break coal into pieces and sort these pieces into categories of nearly uniform size, a process known as breaking.Ketchum, Milo Smith. ''The Design of Mine Structures.'' New York: McGraw-Hill, 1912. The second function of a coal breaker is to remove impurities (such as slate or rock), and then grade the coal on the basis of the percent of impurities remaining. The sorting by size is particularly important for anthracite coal. In order to burn efficiently, air must flow evenly around anthracite. Subsequently, most anthracite coal is sold in uniform sizes. In the 1910s, there were six commercial sizes of coal (with the smallest size having three subsets):International Textbook Company. ''International Library of Technology: A Series of Textbooks for Persons Engaged in the Engineering Professions and Trades.'' Vol. 38. Scranton, Pa.: International Textbook Co., 1903. * Steam – in size (primarily used as steamship fuel). * Broken – in size. * Egg – in size. * Stove – in size (primarily used in home cooking stoves). * Chestnut – in size. * Pea – in size. There were three subsets of "pea coal": ** No. 1 Buckwheat – in size. ** No. 2 Buckwheat – in size. ** No. 3 Buckwheat – in size. Coal pieces smaller than in size were considered "culm," and unable to be separated from the impurities (and thus useless). The grade of coal ranged from a low of 5 percent impurities for steam or broken coal to a high of 15 percent for pea-size coal and its subsets.


Pre-breaker treatment of coal

Coal breakers were located as close to the anthracite mine entrance as possible, so as to minimize the distance the coal had to travel before processing.Greene, Homer. ''Coal and the Coal Mines.'' New York: Houghton, Mifflin and company, 1889. Prior to entering the breaker, the coal would be
crushed Crushed may refer to: * "Crushed" (''Ms. Marvel''), a 2022 episode of the American television series ''Ms. Marvel'' * "Crushed" (Roland Lee Gift song) a 2009 single by Roland Lee Gift * "Crushed" (''The Suite Life of Zack & Cody'' episode), an ...
and sorted in a coal tipple and, if necessary and if water was available, washed. All coal was screened in the tipple as it came out of the mine so that steam-sized or smaller pieces could travel immediately to the coal washer and/or coal breaker. Chunks of coal which were too large were then crushed (sometimes several times) in the tipple until it passed through the screen (e.g., was of acceptable steam size or smaller). Raw coal often contains impurities such as slate, sulphur, ash (or "bone"),
clay Clay is a type of fine-grained natural soil material containing clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4). Clays develop plasticity when wet, due to a molecular film of water surrounding the clay par ...
, or soil, which requires that it be cleaned before shipment to market. Mine workers sampled the coal as it came out of the mine to determine whether the level of impurity recommended washing (if washing was available). Slate, sulphur, and ash have a higher relative density than coal, and will sink in agitated water.Foster, Thomas J. ''Coal Miners' Pocketbook.'' New York: McGraw-Hill Book Publishing Co., 1910. Passing the coal through the tipple was an essential pre-treatment process for coal washing, however, because the impure coal must be of similar sized lumps for coal washing to work. If coal washing was conducted, coal might enter the breaker "wet". This meant the incline of the various belts and conveyors had to be lowered so that the coal did not slide on the belts or move too quickly down chutes. Where coal washing was used, the coal breaker was expanded to handle both "dry" and "wet" coal simultaneously.


History and technology

Prior to 1830,
bituminous Asphalt, also known as bitumen (, ), is a sticky, black, highly viscous liquid or semi-solid form of petroleum. It may be found in natural deposits or may be a refined product, and is classed as a pitch. Before the 20th century, the term ...
and anthracite coal received little processing. The individual miner would use a sledgehammer to break up large lumps of coal, then use a rake whose teeth were set two inches apart to collect the larger pieces of coal for transport to the surface.Korson, George Gershon. ''Black Rock: Mining Folklore of the Pennsylvania Dutch.'' Manchester, N.H.: Ayer Publishing, 1950. Smaller lumps of coal were considered nonmarketable and left in the mine. Beginning about 1830, surface processing of coal began. Lumps of coal were placed on plates of perforated cast iron and men known as "breakers" would hammer on the coal until it was in lumps small enough to fall through the holes. The coal fell into a second screen, where it was shaken (by hand, animal, steam, or water power) and the smaller lumps sorted. This "broken and screened" coal was worth much more than lump coal. Although bituminous coal had been widely burned as fuel since ancient times, anthracite coal did not come into widespread use until the 1820s. Shortly after the start of the 19th century, experiments in the
United States The United States of America (U.S.A. or USA), commonly known as the United States (U.S. or US) or America, is a country primarily located in North America. It consists of 50 states, a federal district, five major unincorporated territori ...
showed that if anthracite coal lumps were more uniform in size and air flowed more evenly around the fuel, anthracite would burn hotter, more cleanly, and for a longer period of time than bituminous coal.Swank, James Moore. ''Introduction to a History of Ironmaking and Coal Mining in Pennsylvania.'' Philadelphia: James Moore Swank, 1878; Scharf, John Thomas and Westcott, Thompson. ''History of Philadelphia, 1609-1884.'' Vol. 3. Philadelphia: L.H. Everts, 1884. Jesse Fell was the first to successfully burn anthracite coal on an open air grate. His method and 'discovery' in Wilkes-Barre, PA in 1808 led to the widespread use of coal as the fuel source that helped to foster America's industrial revolution. Anthracite coal began to be widely used in
Wales Wales ( cy, Cymru ) is a country that is part of the United Kingdom. It is bordered by England to the east, the Irish Sea to the north and west, the Celtic Sea to the south west and the Bristol Channel to the south. It had a population in ...
in 1813 and
France France (), officially the French Republic ( ), is a country primarily located in Western Europe. It also comprises of overseas regions and territories in the Americas and the Atlantic, Pacific and Indian Oceans. Its metropolitan area ...
by 1814, and throughout the eastern United States by 1828. Efforts were soon made to discover ways to process anthracite coal to achieve the desired uniformity. The modern coal breaker can be traced to 1844. Joseph Battin, a supervisor at a coal gas manufacturing plant in
Philadelphia Philadelphia, often called Philly, is the List of municipalities in Pennsylvania#Municipalities, largest city in the Commonwealth (U.S. state), Commonwealth of Pennsylvania, the List of United States cities by population, sixth-largest city i ...
,
Pennsylvania Pennsylvania (; ( Pennsylvania Dutch: )), officially the Commonwealth of Pennsylvania, is a state spanning the Mid-Atlantic, Northeastern, Appalachian, and Great Lakes regions of the United States. It borders Delaware to its southeast, ...
, invented the first coal breaker—two cast iron rollers (one with teeth, one with holes to accept the teeth) through which the coal was crushed before it rolled down a chute and then through an inclined cylindrical screen. The screen had a mesh which was fine toward the front and became progressively less so toward the end. Larger chunks of coal, falling inside the cylinder as it rotated, broke up and eventually passed through the screen. Impurities, which were heavier, tended to exit the breaker at the end of the screen. The sorted coal would then be collected in bins below the screen, and transported to market. A fellow Pennsylvanian, Gideon Bast, licensed the technology from Battin, and erected the first commercial coal breaker in Schuylkill County, Pennsylvania, on February 28, 1844. A number of coal processing machines—such as rollers, crushers, washers, and screens—were developed in Europe and later utilized in the United States. By 1866, the coal breaker in the United States had taken the form most recognized today, with multiple stories and numerous screening processes and mechanical sorting devices. The first steam-powered shaking screens were used in the U.S. 1890, and the first steam-powered coal washers installed in 1892. Until about 1900, nearly all anthracite coal breakers were labor-intensive. The removal of impurities was done by hand, usually by boys between the ages of 8 and 12 years old known as
breaker boy A breaker boy was a coal-mining worker in the United StatesHindman, Hugh D. ''Child Labor: An American History.'' Armonk, N.Y.: M.E. Sharpe, 2002. and United Kingdom whose job was to separate impurities from coal by hand in a coal breaker. Altho ...
s.Freedman, Russell. ''Kids at Work: Lewis Hine and the Crusade Against Child Labor.'' Reprint ed. New York: Houghton Mifflin Harcourt, 1998. Batchelor, Bob. ''The 1900s.'' Santa Barbara, Calif.: Greenwood Publishing Group, 2002. Clement, Ferguson and Reinier, Jacqueline S. ''Boyhood in America: An Encyclopedia. Volume 2: American Family.'' Santa Barbara, Calif.: ABC-CLIO, 2001. Black, Brian. ''Nature and the Environment in Nineteenth-Century American Life.'' Santa Barbara, Calif.: Greenwood Publishing Group, 2006. The use of breaker boys began in the U.S. around 1866.Derickson, Alan. ''Black Lung: Anatomy of a Public Health Disaster.'' Ithaca, N.Y.: Cornell University Press, 1998. The breaker boys would sit on wooden seats, perched over chutes and conveyor belts, picking slate and other impurities out of the coal.Miller, Randall M. and Pencak, William. ''Pennsylvania: A History of the Commonwealth.'' State College, Pa.: Penn State Press, 2003. Novak, Michael. ''The Guns of Lattimer.'' Reprint ed. New York: Transaction Publishers, 1996. Breaker boys worked 10 hours a day for six days a week. The work was hazardous. Breaker boys were forced to work without gloves so that they could handle the slick coal better. The slate, however, was sharp, and boys would leave work with their fingers cut and bleeding. Many breaker boys lost fingers to the rapidly moving conveyor belts, while others, moving about the plant, had their feet, hands, arms, and legs amputated when they moved among the machinery and accidentally slipped under the belts or into the gears. Many died when they fell into the gears of the machinery, their bodies only retrieved at the end of the working day. Others were caught in the rush of coal, and crushed to death or smothered. The "dry" coal kicked up so much dust that the breaker boys sometimes wore lamps on their heads to see, and
asthma Asthma is a long-term inflammatory disease of the airways of the lungs. It is characterized by variable and recurring symptoms, reversible airflow obstruction, and easily triggered bronchospasms. Symptoms include episodes of wheezing, co ...
and
black lung disease Coal workers' pneumoconiosis (CWP), also known as black lung disease or black lung, is an occupational type of pneumoconiosis caused by long-term exposure to coal dust. It is common in coal miners and others who work with coal. It is similar to ...
were common. Public outrage against the use of breaker boys was so widespread that in 1885
Pennsylvania Pennsylvania (; ( Pennsylvania Dutch: )), officially the Commonwealth of Pennsylvania, is a state spanning the Mid-Atlantic, Northeastern, Appalachian, and Great Lakes regions of the United States. It borders Delaware to its southeast, ...
enacted a law forbidding the employment of anyone under the age of 12 from working in a coal breaker. But the law was poorly enforced, and many employers and families forged birth certificates or other documents so children could work. Estimates of the number of breaker boys at work in the anthracite coal fields of Pennsylvania vary widely, and official statistics are considered by historians to undercount the numbers significantly. Estimates include 20,000 breaker boys working in the state in 1880, 18,000 working in 1900, 13,133 working in 1902, and 24,000 working in 1907."Install Mechanical Slate Pickers." ''Technical World Magazine.'' September 1906-February 1907. Technological innovations in the 1890s and 1900s such as mechanical and water separators designed to remove impurities from coal significantly reduced the need for breaker boys,"A Great and Efficient Coal Breaker."
''New York Times.'' January 6, 1895.
but adoption of the new technology was slow. By the 1910s, the use of breaker boys was finally dropping because of improvements in technology, stricter child labor laws, and compulsory schooling laws.Hindman, Hugh D. ''Child Labor: An American History.'' Armonk, N.Y.: M.E. Sharpe, 2002. The practice of employing children in coal breakers largely ended by 1920 because of the efforts of the
National Child Labor Committee The National Child Labor Committee (NCLC) was a private, non-profit organization in the United States that served as a leading proponent for the national child labor reform movement. Its mission was to promote "the rights, awareness, dignity, well ...
, sociologist and
photographer A photographer (the Greek φῶς (''phos''), meaning "light", and γραφή (''graphê''), meaning "drawing, writing", together meaning "drawing with light") is a person who makes photographs. Duties and types of photographers As in other ...
Lewis Hine Lewis Wickes Hine (September 26, 1874 – November 3, 1940) was an American sociologist and muckraker photographer. His photographs were instrumental in bringing about the passage of the first child labor laws in the United States. Early life ...
, and the
National Consumers League The National Consumers League, founded in 1899, is an American consumer organization. The National Consumers League is a private, nonprofit advocacy group representing consumers on marketplace and workplace issues. The NCL provides government, bu ...
, who educated the public about the practice and succeeded in passing
child labor laws Child labour laws are statutes placing restrictions and regulations on the work of minors. Child labour increased during the Industrial Revolution due to the children's abilities to access smaller spaces and the ability to pay children less wage ...
. The regulation of coal breakers came slowly in the United States. In the
United Kingdom The United Kingdom of Great Britain and Northern Ireland, commonly known as the United Kingdom (UK) or Britain, is a country in Europe, off the north-western coast of the European mainland, continental mainland. It comprises England, Scotlan ...
, the government enacted a law in the mid-19th century requiring that coal breakers be built away from mine entrances.Kashuba, Cheryl A. "Avondale Mine Disaster Claimed 110 Lives."
'' Scranton Times Tribune.'' September 6, 2009.
But in the U.S., neither the federal government nor the states adopted regulation of coal breakers until after many lives had been lost. Two disasters prompted the adoption of legislation. The first occurred on September 6, 1869, when a small explosion at the Avondale mine in
Plymouth, Pennsylvania Plymouth is a borough in Luzerne County, Pennsylvania, United States. It is located west of Wilkes-Barre, along the Susquehanna River. The population was 5,763 as of the 2020 census. History Plymouth was first settled in 1769 by the Susquehann ...
, blew flames up the mine shaft. The wooden breaker built over the mine opening caught fire and collapsed, trapping and killing 110 workers in the mine below.Smith, Robert Samuel. ''The Black Trail of Anthracite.'' Kingston, Pa.: S.R. Smith, 1907.Roberts, Ellis W. ''The Breaker Whistle Blows: Mining Disasters and Labor Leaders in the Anthracite Region.'' Scranton, Pa.: Anthracite Press, 1984. Aurand, Harold W. ''Coalcracker Culture: Work and Values in Pennsylvania Anthracite, 1835-1935.'' Selinsgrove, Pa.: Susquehanna University Press, 2003. No legislative or regulatory action was taken at that time. But in 1871, a fire destroyed the wooden breaker built over a mine opening in
West Pittston, Pennsylvania West Pittston is a borough in the Greater Pittston area of Luzerne County, Pennsylvania, United States. It is located on the Susquehanna River (opposite of Pittston City). In 2020, the population was 4,644. The town once produced mine screens, g ...
, trapping and killing 24 miners. Despite a shift away from wooden construction of coal breakers and opposition from the coal industry, the state of Pennsylvania adopted a law in 1885 requiring that coal breakers be situated at least 200 feet from the opening of any mine.


Dry sorters and wet jigs

A number of inventions in the late 19th century and early 20th century led to the use of mechanical devices for separating impurities from coal in coal breakers. Screens and sorters were used for dry coal. Some examples from the beginning of the 20th century are: :* Sorting bars – Sorting bars were iron bars (set in a rectangle 3 to 6 feet wide and 8 to 12 feet long) which were close together where the coal was poured in but which spread progressively further apart, allowing the coal to be roughly separated by the size of each lump. The bars were at an incline, and the heavier slate, ash, and sulphur slid off the bars (and down a chute which delivered it to a culm pile) while the coal fell through. :* Oscillating bars – Sometimes bars moved back and forth (often at 100 to 150 oscillations per minute), which not only tended to move the coal along the bars toward the end but also shake off dirt and slightly crush the larger lumps of coal into smaller pieces. :* Slate pickers – The "Houser slate picker", invented in 1893, passed sorted coal of a uniform size over a corrugated iron plate that tended to force the flat slate upright. The upright slate would be caught between horizontal iron bars suspended over the corrugated plate, the bars suspended high enough over the plate to permit coal to pass beneath them. :* Gravity separators – One example of a gravity separator is the "Herring separator". This separator consisted of an inclined chute with a rough surface, at the end of which was an opening in the bottom of the chute. The heavier slate, ash, and sulphur would slide along the bottom of the chute, picking up friction from the rough surface and falling through the gap in the bottom of the chute, while the lighter coal would have enough velocity to pass over the gap and continue down the chute for further processing. To handle wet coal, coal jigs were used. Coal jigs separated coal from impurities by using gravity. Since the relative density of uniformly sized pieces of coal, slate, ash, dirt, and sulphur vary, pieces of each element will descend through water at different speeds—allowing them to be separated. Some examples of coal jigs from the beginning of the 20th century include: :* The "Luhrig jig" or "piston jig" - The piston jig pulled water down through a fine mesh screen so that the lighter coal rose to the top of the water and the heavier impurities did not. A conveyor belt with a paddle scraped across the top of the water as the piston reached the point of highest pressure and scooped the coal off and down a chute, while the heavier impurities (such as slate) were drawn down against an inclined screen and fell down a chute toward the culm pile. :* The moveable pan or "Stewart jig" - This jig developed after the Luhrig jig, and consisted of a large round tub set at an incline. A perforated metal plate moved up and down about 180 times a minute inside the tub. The movement of the tub created upward water pressure. The lighter coal was pushed toward the top of the tub, where paddles on a conveyor belt scraped it off the top of the water and down a chute for further processing, while the heavier slate tended to stay near the bottom of the tub and slide out an exit gate toward the culm pile. :* Sluice boxes (also known as Scaife trough washers) - Sluice boxes were used to separate small pieces of coal from heavier impurities. Riffles (low ridges set horizontal to the flow of water down the sluice) would capture the heavier impurities while permitting the lighter coal to move on. :* The "Christ coal jig" - Introduced in 1895, the Christ jig was an inclined rectangular box jig. A perforated iron plate moved up and down inside the box at a rapid rate, creating an upward water pressure that allowed slate to sink toward the bottom of the box (and out a culm gate) while the lighter coal tended to float toward the top of the water (where it was scooped off by a conveyor belt and then down a chute for further processing). :* The "Righter coal washer" - Invented just before 1900, the Righter coal washer used a conveyor belt with paddles to pass coal slurry over a finely woven iron screen. Dirt and other small particles of impurities tended to sink to the bottom of the water and pass through the screen into a collection tank, while the lighter coal floated in the water until it exited the washer and was collected by a conveyor. :* The "chestnut coal jig" - This was yet another circular coal jig. Used for lumps of coal which were chestnut size or smaller, the bottom of the jig was a circular tub. A convex (or concave upwards) perforated iron plate moved up and down in the water, creating upward water pressure. The upper part of the jig was a rotating round tub with a spiral shelf running around the inside. The iron plate forced the lighter coal toward the top of the water, where the rotating spiral shelf picked it up and conveyed it to the top of the jig and out a chute. The heavier impurities slid off the iron plate and out a culm gate. :* The Jeffrey-Robinson coal washer - This jig was similar in construction to the chestnut coal jig, but the water reached the top of the upper tub so that both water and coal would be spun out the top of the tub (dropping the coal into a catcher). From 1936 to 1964, the amount of coal processed in wet jigs in the United States rose to 146 million tons per year from 27 million tons per year. Separating, sorting, and jig technology continued to advance in the 20th century. The first compressed air sorter for fine coal (pea and smaller) was installed in the U.S. in 1916. Major innovations in the pneumatic cleaning of coal were made in 1924, 1932, and 1941. In 1935, the first dense-media separator was introduced. In these wet separators, a very dense medium (such as
magnetite Magnetite is a mineral and one of the main iron ores, with the chemical formula Fe2+Fe3+2O4. It is one of the oxides of iron, and is ferrimagnetic; it is attracted to a magnet and can be magnetized to become a permanent magnet itself. With th ...
) is introduced into an agitated mixture of coal and water.Gupta, Ashok and Yan, Denis Stephen. ''Mineral Processing Design and Operation: An Introduction.'' Maryland Heights, Mo.: Elsevier, 2006. The dense media drops to the bottom of the tank, sending water and the lighter material (such as coal) over the top for collection and drying. The first coal processing plant to utilize dense-medium separation widely was established by
Dutch State Mines Koninklijke DSM N.V. (Royal DSM, commonly known as DSM), is a Dutch multinational corporation active in the fields of health, nutrition and materials. Headquartered in Heerlen, at the end of 2017 DSM employed 21,054 people in approximately 50 c ...
in 1945, and by 1950 the technology was in wide use in the U.S.


Shift to coal preparation plants

Methods of drying coal through the use of forced-air dryers, heat, and
centrifuge A centrifuge is a device that uses centrifugal force to separate various components of a fluid. This is achieved by spinning the fluid at high speed within a container, thereby separating fluids of different densities (e.g. cream from milk) or ...
s were adopted by American coal companies throughout the 20th century.''Inspector's Guidance Manual.''
Stationary Sources Branch. Air Pollution Control Division. Colorado Department of Public Health and Environment. Denver, Colo.: Colorado Department of Public Health and Environment, June 22, 1998.
As many coal breakers handled heavier loads of coal, wooden buildings were abandoned in favor of structures made entirely of steel or reinforced concrete. In the mid-20th century, "Diester tables"—oscillating table-sized sluices—were widely adopted by the American coal industry, allowing even finer grades of coal to be processed and captured. Other processing devices such as
froth flotation Froth flotation is a process for selectively separating hydrophobic materials from hydrophilic. This is used in mineral processing, paper recycling and waste-water treatment industries. Historically this was first used in the mining industry, wher ...
jigs and disc filtersHalberthal, Josh. "Disc Filters." Solidliquid-Separation.com. No date.
Accessed 2009-09-26.
were also employed. However, changing demand for coal in the post-
World War II World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the vast majority of the world's countries—including all of the great powers—forming two opposing ...
era led to the abandonment and consolidation of many coal breaking plants. Tipples, coal washing plants, and coal breakers were often merged into a single large plant to achieve economies of scale. Automation led to very significant reductions in the number of people needed to run plants, with smaller modular facilities sometimes requiring only a single operator. These coal preparation plants often accepted coal from several mines, and many were built far away from operating mines. By the 1970s, many coal breakers around the world were being shut down in favor of newer, larger coal preparation plants.


Process

Ideally, coal breakers were placed so that the top of the breaking plant was equal to or slightly below the mine mouth so that gravity would move the coal to the breaking plant. Where this was not possible, coal would be hoisted to the top of the coal breaking plant. A
boiler A boiler is a closed vessel in which fluid (generally water) is heated. The fluid does not necessarily boil. The heated or vaporized fluid exits the boiler for use in various processes or heating applications, including water heating, centr ...
and boilerhouse would be located nearby to provide power for the hoist, moving screens, jigs, and crushers (although in more modern times this is supplied by electricity), along with an engine house (to house the engine for the hoist), pumps and pumphouse (to supply the coal washing machines with water), and headframe (for the hoist). The typical coal breaking plant was often eight or nine stories tall, sometimes rising 150 feet high or more. In the typical coal breaking plant at the beginning of the 20th century, the coal entered the plant at the upper floor and slid down a gently inclined "picker table" where breaker boys removed obvious impurities such as rocks and large pieces of slate and threw them down chutes to the culm pile. The breakers also removed obviously clean lumps of coal and sent them down a separate "clean coal" chute for crushing. Lumps intermixed with impurities would go down a third chute for crushing and further cleaning. On the second level of a typical breaker, coal would be roughly sorted. The fuel would move over sorting bars, with the various sizes of coal going down different chutes. Each type of roughly sorted coal would next pass over a "slate-picker screen" (sometimes called a "mud screen"), with the round coal falling through the screen and the flat slate passing over the screen to fall down a chute to the culm pile. Coal passing through the slate-picker screen would then be sorted by additional screens. Some of these second screens were composed of flat iron perforated by holes of larger size toward the rear (where the coal entered) and smaller holes toward the front. These flat screens were sometimes shaken back and forth (hence the name "shaking screens"), which not only removed dirt and sulphur from the coal but broke down larger lumps of coal into smaller sizes and sorted it for further cleaning and processing. Other screens were cylindrical, making 10 revolutions per minute and performing the same function as shaking screen. Flat and cylindrical screens could be single-jacketed (a single screen) or double-jacketed (two screens, the first or inner screen having larger openings while the second screen had smaller ones). The third level from the top was the crushing level. Most coal was still lump coal at this stage, and needed to be crushed in order to create smaller, more marketable product. Here, a series of interlocking, toothed crushers or rollers would break lump coal into progressively smaller sizes. On the fourth level down, the coal was further cleaned of impurities. This was originally done primarily by hand, but hand picking was gradually supplanted after 1910 by improved screens and jigs. Although breaker boys worked at all levels of the coal breaker, most of the removal of impurities by hand occurred on this level. (Some picking did occur on the ground level of the coal breaker, where boys would locate good pieces of coal in the culm and return it to the "clean" coal stream.) Some coal might travel to this level directly from second level, if small enough, as at this level the screens and jigs were only capable of handling egg-grade coal and smaller. This area of the coal breaker was also where most dry screens and wet jigs operated. At this level, the use of conveyor belts (with or without paddles or scoops) was necessarily in order to move the smaller grades of coal, with most belts moving at about 33 feet per minute for pea coal and 50 feet per minute for larger grades. Multiple sorting and picking levels might exist in a single coal breaker, depending on the amount of coal to be processed. Coal and culm were received at the ground level. Dry culm was taken away from the coal breaker by conveyor belt or rail car and dumped nearby. Very fine dry culm was sometimes separated from the heavier culm by forced air and blown through tubes to a separate pile. Wet culm was held in settling tanks or behind a coal slurry impoundment dam to allow particulate to settle out of the water. The "clean" coal, emerging from the coal breaker already sorted into its respective sizes, was collected primarily by rail cars and then delivered to market.


See also

*
Huber Breaker The Huber Breaker was a coal breaker and landmark located in the borough of Ashley, Pennsylvania, Ashley, Luzerne County, Pennsylvania, Luzerne County, Pennsylvania. The breaker was built in 1939 to replace the Maxwell Breaker after sustaining da ...
*
St. Nicholas coal breakers St. Nicholas Breaker was a historic coal breaker in Schuylkill County, Pennsylvania. Description St. Nicholas Breaker was located between Mahanoy City and Shenandoah in Schuylkill County, Pennsylvania, in the southern part of the Coal Region. T ...


References


External links


Encyclopedic reference of Pennsylvania's Northern Anthracite Coal Field
Pennsylvania
HDR Images of the abandoned Saint Nicholas Coal Breaker on Flickr
near Mahanoy City, Pennsylvania
Photographs of the Old St. Nicholas Coal Breaker
near Mahanoy City, Pennsylvania

, near Ashley, Pennsylvania {{DEFAULTSORT:Coal Breaker History of coal mining