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Coking

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Kumar
Kumar
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There are 2 types of coking 1. Delayed Coking 2. Fluidized-bed coking Delayed Coking: 1.It is a semi-continuous type of coking. 2.In this heated charge is transferred to large soaking drums where a long residence time is provided to complete the cracking reation. 3.Here the feed is atmospheric residuum. 4.It is introduced into the fractionator and heated 5.The lighter products are removed from the side 6.The remaining bottom products along with the recycle stream from the coking drum, are shifted to the furnance where they are further heated. 7.The outlet temperature of the furnance varies from 480 – 505 (deg C). 8.From the furnace, the heated materials are transferred to one of a pair of coking and soaking drums. 9.The cracking reactions continue in the drum and go to completion after a long time. 10.From the top of the soaking drum, the cracked products go to the fractinator and coke is deposited on the inner surface of the drum. 11.For continuous operation 2 drums are used. When one is in use, the other is being cleaned. The temperature in the coking drum varies from 415 – 450 (deg C) and the pressure from 1.68 to 5.76 atms. 12.The overhead products from the coking drum, go to the fractionator where naptha and gas oil are removed as products.
The preheated fresh feed and recycle material are transferred to the furnance.Recycling carries heat to the furnance and converts further the heavy fractions. Fluidized-Bed Coking: 1.It is continuous process. 2.In this pitch is sprayed into a fluidized-bed of hot coke particles. The use of a fludized bed requires shorter contact time than delayed coking and also coking reactions are carried out at higher temperatures here. 3.The yield of coke is less but the yields of other liquid products are more. 4.In this process 2 vessels are used. First one is a reactor and the second one is a burner. 5.By burning a portion of coke in the burner, heat is generated and this heat is transferred to the reactor by transfer of coke particles from the burner to the reactor. 6.In the reactor, coke particles remain present in the fluidized form. At the bottom of the reactor, steam is introduced to keep the bed fluidized. 7.The pitch coming from the bottom of a vacuum tower, at around 260 to 370 (deg C) is injected directly into the reactor. 8.The temperature in the reactor varies from 480 – 570 (deg C) and the pressure is nearly atmospheric. 9.At these conditions, the incoming feed is partly vapourised and partly deposited on the fluidized coke particles. 10.Since heat is supplied by the circulating coke particles, no further preheat arrangment is required for the feed.
The hot pitch on the surface of fluidized coke particles, breaks and vapourises And leaves as a residue. This residue later on dries to form coke. The vapor products Go to a cyclone, where most of the entrained coke is removed. The temperature in the bed of the burner varies from 590 – 650(deg C). The pressure In the burner varies from 1.34 to 2.7 atmospheres.

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Coking

  • 1. There are 2 types of coking 1. Delayed Coking 2. Fluidized-bed coking Delayed Coking: 1.It is a semi-continuous type of coking. 2.In this heated charge is transferred to large soaking drums where a long residence time is provided to complete the cracking reation. 3.Here the feed is atmospheric residuum. 4.It is introduced into the fractionator and heated 5.The lighter products are removed from the side 6.The remaining bottom products along with the recycle stream from the coking drum, are shifted to the furnance where they are further heated. 7.The outlet temperature of the furnance varies from 480 – 505 (deg C). 8.From the furnace, the heated materials are transferred to one of a pair of coking and soaking drums. 9.The cracking reactions continue in the drum and go to completion after a long time. 10.From the top of the soaking drum, the cracked products go to the fractinator and coke is deposited on the inner surface of the drum. 11.For continuous operation 2 drums are used. When one is in use, the other is being cleaned. The temperature in the coking drum varies from 415 – 450 (deg C) and the pressure from 1.68 to 5.76 atms. 12.The overhead products from the coking drum, go to the fractionator where naptha and gas oil are removed as products.
  • 2.
  • 3. The preheated fresh feed and recycle material are transferred to the furnance.Recycling carries heat to the furnance and converts further the heavy fractions. Fluidized-Bed Coking: 1.It is continuous process. 2.In this pitch is sprayed into a fluidized-bed of hot coke particles. The use of a fludized bed requires shorter contact time than delayed coking and also coking reactions are carried out at higher temperatures here. 3.The yield of coke is less but the yields of other liquid products are more. 4.In this process 2 vessels are used. First one is a reactor and the second one is a burner. 5.By burning a portion of coke in the burner, heat is generated and this heat is transferred to the reactor by transfer of coke particles from the burner to the reactor. 6.In the reactor, coke particles remain present in the fluidized form. At the bottom of the reactor, steam is introduced to keep the bed fluidized. 7.The pitch coming from the bottom of a vacuum tower, at around 260 to 370 (deg C) is injected directly into the reactor. 8.The temperature in the reactor varies from 480 – 570 (deg C) and the pressure is nearly atmospheric. 9.At these conditions, the incoming feed is partly vapourised and partly deposited on the fluidized coke particles. 10.Since heat is supplied by the circulating coke particles, no further preheat arrangment is required for the feed.
  • 4. The hot pitch on the surface of fluidized coke particles, breaks and vapourises And leaves as a residue. This residue later on dries to form coke. The vapor products Go to a cyclone, where most of the entrained coke is removed. The temperature in the bed of the burner varies from 590 – 650(deg C). The pressure In the burner varies from 1.34 to 2.7 atmospheres.