Petroleum coke: Difference between revisions
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'''Catalyst coke''' is coke that has deposited on the [[catalyst]]s used in oil refining, such as those in a [[fluid catalytic cracker]]. This coke is impure and is only used for fuel. |
'''Catalyst coke''' is coke that has deposited on the [[catalyst]]s used in oil refining, such as those in a [[fluid catalytic cracker]]. This coke is impure and is only used for fuel. |
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Its high heat and low [[ash]] content make it a good fuel for power generation in coal fired [[boiler]]s, but petroleum coke is high in [[sulfur]] and low in [[Volatile organic compound|volatile]] content which pose some environmental and technical problems with its combustion. In order to meet current North American emissions standards some form of [[sulfur]] capture is required, a common choice of sulfur recovering unit for burning petroleum coke is the SNOX technology<ref>Schoolbook, Chemistry 2000, Helge Mygind, ISBN 8755909922</ref>, which is based on the well-known [[WSA Process]]. [[Fluidized bed combustion]] is commonly used to burn petroleum coke. [[Gasification]] is increasingly used with this feedstock (often using gasifiers placed in the refineries themselves). |
Its high heat and low [[ash]] content make it a good fuel for power generation in coal fired [[boiler]]s, but petroleum coke is high in [[sulfur]] and low in [[Volatile organic compound|volatile]] content which pose some environmental and technical problems with its combustion. In order to meet current North American emissions standards some form of [[sulfur]] capture is required, a common choice of sulfur recovering unit for burning petroleum coke is the SNOX technology]]<ref>[http://www.energystorm.us/Snox_Process_A_Success_Story-r149018.html The SNOX process is described]</ref><ref>Schoolbook, Chemistry 2000, Helge Mygind, ISBN 8755909922</ref>, which is based on the well-known [[WSA Process]]. [[Fluidized bed combustion]] is commonly used to burn petroleum coke. [[Gasification]] is increasingly used with this feedstock (often using gasifiers placed in the refineries themselves). |
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'''Calcined petroleum coke''', [[CPC]] is the product from [[Calcination|calcining]] petroleum coke. This coke is the product of the [[coker unit]] in a crude [[oil refinery]]. The calcined petroleum coke is used to make [[anode]]s for the [[aluminium]], [[steel]] and [[titanium]] smelting industry. The green coke must have sufficiently low metals content in order to be used as anode material. Green coke with this low metals content is referred to as [[anode grade coke]]. The green coke with too high metals content will not be calcined and is used for burning. This green coke is called [[fuel grade coke]]. |
'''Calcined petroleum coke''', [[CPC]] is the product from [[Calcination|calcining]] petroleum coke. This coke is the product of the [[coker unit]] in a crude [[oil refinery]]. The calcined petroleum coke is used to make [[anode]]s for the [[aluminium]], [[steel]] and [[titanium]] smelting industry. The green coke must have sufficiently low metals content in order to be used as anode material. Green coke with this low metals content is referred to as [[anode grade coke]]. The green coke with too high metals content will not be calcined and is used for burning. This green coke is called [[fuel grade coke]]. |
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Revision as of 09:11, 25 June 2009
Petroleum coke (often abbreviated Pet coke) is a carbonaceous solid derived from oil refinery coker units or other cracking processes.[1] Other coke has traditionally been derived from coal.
Marketable coke is coke that is relatively pure carbon and can be sold for use as fuel (i.e. fuel grade coke), or for the manufacture of dry cells, electrodes (ie anode grade coke). Needle coke, also called acicular coke, is a highly crystalline petroleum coke used in the production of electrodes for the steel and aluminum industries. Catalyst coke is coke that has deposited on the catalysts used in oil refining, such as those in a fluid catalytic cracker. This coke is impure and is only used for fuel.
Its high heat and low ash content make it a good fuel for power generation in coal fired boilers, but petroleum coke is high in sulfur and low in volatile content which pose some environmental and technical problems with its combustion. In order to meet current North American emissions standards some form of sulfur capture is required, a common choice of sulfur recovering unit for burning petroleum coke is the SNOX technology]][2][3], which is based on the well-known WSA Process. Fluidized bed combustion is commonly used to burn petroleum coke. Gasification is increasingly used with this feedstock (often using gasifiers placed in the refineries themselves).
Calcined petroleum coke, CPC is the product from calcining petroleum coke. This coke is the product of the coker unit in a crude oil refinery. The calcined petroleum coke is used to make anodes for the aluminium, steel and titanium smelting industry. The green coke must have sufficiently low metals content in order to be used as anode material. Green coke with this low metals content is referred to as anode grade coke. The green coke with too high metals content will not be calcined and is used for burning. This green coke is called fuel grade coke.
See also
References
- ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "petroleum coke". doi:10.1351/goldbook.P04522
- ^ The SNOX process is described
- ^ Schoolbook, Chemistry 2000, Helge Mygind, ISBN 8755909922