TH1678B - Process for increasing product yield, Coke production by retarding method. - Google Patents

Abstract

Process of producing coke by retarding method The feed into the coke furnace is free of conventional heavy duty recirculating agents. By removing this material from the coke furnace feeder, the production of more liquid and less coke is produced. This depends on the new substance being introduced into the production process. Initially, the feedstock for coke production is combined with diluent hydrocarbons that have a lower boiling range than the recirculating agents used to produce conventional heavy coke and. and then brought to the coke furnace Hydrocarbon diluents are The constituents of coke are much less than heavy recirculating agents, where the diluent is normally combined with the new feed and engulfed in the coke furnace.

Claims (9)

1.Process for increasing the yield of products obtained from Coke production by retarding heavy hydrocarbon oil raw materials in coke production departments. This consists of a coke producing furnace, a coke making tank, and a separator from the coke production layer. It is used in the production of coke by the retarding and dissolution method of gaseous hydrocarbon liquids and products, including the process of (a) producing coke by retarding heavy hydrocarbon oils in such coke tanks under conditions which Coke produced by retarding method has no more than 15% volatile matter by weight (b) through the upper vapor from the coke tank into the coke separator. (C) the vapor condensation with the highest boiling point of the above vapors and the removal of them from the treatment; and (d) the addition of hydrocarbons for the dilution range. Boiling below the substance with the highest boiling point in the heavy hydrocarbon oil feedstock before the heavy hydrocarbon oil raw material is heated to a It is used to produce coke in the coke furnace, where the diluted hydrocarbons are added in sufficient quantities to prevent the coke from settling in the coke furnace. Therefore, the retarding coke yield was less than 15 percent volatile matter with less weight. And the liquid yield will increase more than the yield which should be obtained. If the above-mentioned material with the highest boiling point from the above vapor is combined with the said material. 2. Process according to claim 1, in which coke produced by retarding method contains volatile matter from 6 to 12 percent by weight. 3. Process according to claim 1, in which the raw material is combined with the diluted hydrocarbon at the initial stage. Feed to the surge drum for feeding material And then passed directly to the coke furnace Without the addition of any type of hydrocarbon material 4. Process according to claim 1, in which hydrocarbons used for dilution have a boiling range of approximately 232 C (450 ° F) to approximately 399 C (750 ° F). 5. Process according to claim 1, in which hydrocarbons used for dilution have a boiling range of approximately 260 C (510 ° F) to approximately 343 ° F (650 ° F). 6. The process according to claim 1, in which the hydrocarbon used for dilution is a product side stream from the separator obtained from the coke production into layers. 7. Process according to claim 6, in which the said material is selected from those containing reduced-pressure petroleum residue. Petroleum residue obtained by distillation at atmospheric pressure, coal lar pitch, tar sand, bitumen, slurry oil, decant oil, oil shale, crude oil from calcination Rolys or a mixture of those substances. 8. Process according to claim 6, in which heavy fuel oil obtained from the separator obtained from coke production into layers. It will quickly return to the volatile area of the separator layer. Which is in contact with the vapor produced by the coke that comes out and condenses the substance with the highest boiling range. 9. Process according to claim 8, in which hydrocarbons used for dilution are materials that are combined with raw materials only before the said raw material is fed into the coke furnace.