Coal is formed from the physical and chemical alteration of peat. Peat is composed of plant materials that accumulate in wetlands ( bogs and fens), which break down through the process of peatification. If peats are buried, then the peats can be altered into different ranks of coal through the process of coalification.
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Peat and Peatification. Peat is soillike, partially decayed plant material that accumulates in wetlands. Most people learn that coal is formed in swamps, but this is not completely accurate. The term "swamps" can be applied to many different types of wetlands, but coal only forms from peataccumulating wetlands.
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Types of Coal. The process by which something changes under the effect of pressure and temperature is known as metamorphism in geology. Coal is classified into different types based on the different stages of metamorphism undergone by it. Peat Peat is not coal, but a precursor to it. Peat is partially decomposed plant matter that has a ...
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For the peat to become coal, it must be buried by sediment. Burial compacts the peat and, consequently, much water is squeezed out during the first stages of burial. Continued burial and the addition of heat and time cause the complex hydrocarbon compounds in the peat to break down and alter in a variety of ways.
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Furthermore, studies of coal beds that are in contact with sandstone layers, along with studies of dinosaur tracks where dinosaurs must have walked on top of the peat layers before their burial to eventually form coal beds, demonstrate that peattocoal compaction ratios of between 2 to 1 and 1 to 1 are more Such ratios are also ...
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Pyrite (FeS 2) is the most common sulfide mineral in coal and a major source of the sulfur in can form in peat while the peat is accumulating, or can form in peats from the introduction of sulfate (SO 4) into the peat if the peat was buried by marine waters (such pyrite is called syngenetic or authigenic pyrite).Within the buried peat, the sulfate is reduced to sulfide (S 2), which ...
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Coalification is a chemical process in which hydrogen and oxygen are lost from the original peat fool, increasing the ratio of carbon to other elements. This involves alteration to the remaining molecules of the material, in particular the conversion of lignin to vitrinite. Coalification is not an allornothing process: rather it produces coal ...
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The weight of the sediment caused the peat to become compressed, and the heat and pressure from the overlying sediment caused the peat to undergo chemical changes that transformed it into coal. 4. Time: The process of coal formation took millions of years. Over time, the layers of sediment and plant material were subjected to more and more heat ...
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How coal is formed. Coal is formed when dead plant matter submerged in swamp environments is subjected to the geological forces of heat and pressure over hundreds of millions of years. Over time, the plant matter transforms from moist, lowcarbon peat, to coal, an energy and carbondense black or brownishblack sedimentary rock.
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For the peat to become coal, it must be buried by sediment. Burial compacts the peat and, consequently, much water is squeezed out during the first stages of burial. Continued burial and the addition of heat and time cause the complex hydrocarbon compounds in the peat to break down and alter in a variety of ways.
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This description simplifies the process of "coalification" or the formation of coal and progression through the ranks of coal. It is important to understand coal formation from this simplified perspective to then understand that no two coals are coal within a distinct coal seam will vary based on opportunities for mineral incursions in the peat swamp or exposure to igneous ...
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For peat to become coal, it must be buried by sediment. Burial compacts the peat and consequently much water is squeezed out during the first stages of burial. Continued burial and the addition of heat and time cause the complex hydrocarbon compounds in the peat to break down and alter in a variety of ways.
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Peat exposed to heat and pressure from burial beneath other sediments becomes compressed and chemically changes into lowgrade coals such as lignite. Under further heat and pressure, peat is converted to higher grade coals. The pressure from overlying sediments that bury a peat bed will compact the coal.
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For the peat to become coal, it must be buried by sediment. Burial compacts the peat and, consequently, much water is squeezed out during the first stages of burial. Continued burial and the addition of heat and time cause the complex hydrocarbon compounds in the peat to break down and alter in a variety of ways.
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What process causes peat to become coal? Peat becomes coal after being subjected to pressure from overlying sediments for long periods of time. Water and other organic materials are squeezed out ...
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The formation of coal requires two steps. First, you need a swampy environment where peat can accumulate in lowoxygen conditions that ward off decay. Second, you need to bury the whole mess quite ...
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Introduction. Peat has been used as a form of energy for at least 2 000 years. It was useful as an alternative to firewood for cooking and heating in temperate and boreal regions of Europe, in particular Ireland, England, the Netherlands, Germany, Sweden, Poland, Finland and the USSR. The increasing use of gas and oil as cooking and heating ...
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The process that microbes use to create a methane precursor molecule from coal. Anaerobic microbes live in the pore spaces between coal. They produce enzymes that they excrete into the pore space ...
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Heating causes hydrocarbon compounds (compounds composed of hydrogen, carbon, and oxygen) in the peat to break down and alter in a variety of ways, resulting in coal. In general, moisture and gases (for example, methane, carbon dioxide) are systematically expelled from the peat and resulting coal with increasing burial and heat.
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The process that describes how bituminous coal forms from dead organic material and peat is compaction. Dead organic material, such as plants and trees, accumulates in wetlands and swamps to form peat over a period of thousands of years. As more and more organic material is added, the weight of the layers above causes the peat to become ...
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That peat, which is sometimes a precursor to coal, has its own long history: it is home to insects, fungi, bacteria and even burrowing tree roots, all of which help break down plants in a process ...
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Coal is physically, chemically, and thermally altered peat. Peat is partially decayed plant material, mineral matter, and water, which accumulates in anoxic swamps or mires (peatforming wetlands). Peats generally have organic contents greater than 75%, inorganic mineral contents less than 25%, and water contents of 7590% (Schopf 1966; Jarrett 1983; Clymo 1987; Alpern and deSousa 2002).
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