One exemplary embodiment can be a process for hydrocarbon conversion. The process can include providing a feed to a slurry hydrocracking zone, obtaining a hydrocarbon stream including one or more C16-C45 hydrocarbons from the at least one separator, providing another feed to a hydrocracking zone, an
One exemplary embodiment can be a process for hydrocarbon conversion. The process can include providing a feed to a slurry hydrocracking zone, obtaining a hydrocarbon stream including one or more C16-C45 hydrocarbons from the at least one separator, providing another feed to a hydrocracking zone, and providing hydrogen from a three-stage compressor to the slurry hydrocracking zone and the hydrocracking zone. Moreover, the slurry hydrocracking zone may include a slurry hydrocracking reactor and at least one separator.
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1. A process for hydrocarbon conversion, comprising: A) providing a feed to a slurry hydrocracking zone, wherein the slurry hydrocracking zone comprises: 1) a slurry hydrocracking reactor; and2) at least one separator;B) obtaining a hydrocarbon stream comprising one or more C16-C45 hydrocarbons from
1. A process for hydrocarbon conversion, comprising: A) providing a feed to a slurry hydrocracking zone, wherein the slurry hydrocracking zone comprises: 1) a slurry hydrocracking reactor; and2) at least one separator;B) obtaining a hydrocarbon stream comprising one or more C16-C45 hydrocarbons from the at least one separator;C) providing another feed to a hydrocracking zone; andD) providing hydrogen from a three-stage compressor to the slurry hydrocracking zone and the hydrocracking zone. 2. The process according to claim 1, wherein the hydrocracking zone comprises a hydrocracking reactor, a hot separator, and a cold separator; and providing hydrogen from the cold separator to a recycle gas compressor in the slurry hydrocracking zone. 3. The process according to claim 1, further comprising providing a further feed to a hydrotreating zone. 4. The process according to claim 3, wherein the hydrotreating zone desulfurizes, denitrifies, or saturates the further feed. 5. The process according to claim 4, further comprising providing hydrogen from a second stage of the three-stage compressor to the hydrotreating zone, wherein the hydrotreating zone comprises providing a hydrotreating reactor, a hot separator, and a cold separator. 6. The process according to claim 1, further comprising providing hydrogen from a second stage of the three-stage compressor to a hydrotreating zone, and providing hydrogen from a third stage of the three-stage compressor to the slurry hydrocracking zone and the hydrocracking zone. 7. The process according to claim 1, further comprising providing hydrogen from a first stage of the three-stage compressor to at least one of a naphtha hydrotreating zone and an isomerization zone. 8. The process according to claim 1, wherein the slurry hydrocracking reactor operates at a temperature of about 400-about 500° C. and a pressure of about 3-about 24 MPa. 9. The process according to claim 1, wherein the hydrocracking zone comprises a hydrocracking reactor operating at a temperature of about 290-about 470° C. and a pressure of about 3.5-about 21 MPa. 10. The process according to claim 4, wherein the hydrotreating zone comprises a hydrotreating reactor operating at a temperature of about 290-about 460° C. and a pressure of about 3.0-about 9.0 MPa. 11. The process according to claim 1, wherein the at least one separator comprises a hot separator, a warm separator, and a cold separator. 12. The process according to claim 2, further comprising recycling at least a portion of the hydrogen from the cold separator to the hydrocracking zone. 13. A process for hydrogen distribution for an apparatus, comprising: A) providing a three-stage compressor comprising a first stage, a second stage, and a third stage;B) providing hydrogen from the first stage to at least one of a naphtha hydrotreating zone and an isomerization zone;C) providing hydrogen from the second stage to a hydrotreating zone; andD) providing hydrogen from the third stage to at least one of a slurry hydrocracking zone and a hydrocracking zone. 14. The process according to claim 13, wherein the slurry hydrocracking zone comprises a slurry hydrocracking reactor and at least one separator. 15. The process according to claim 13, wherein the hydrocracking zone comprises a hydrocracking reactor, a hot separator, a cold separator, a hot flash drum, and a cold flash drum, and passing hydrogen from the cold separator to the slurry hydrocracking zone. 16. The process according to claim 13, wherein the hydrotreating zone comprises a hydrotreating reactor, a hot separator, and a cold separator. 17. The process according to claim 13, wherein the slurry hydrocracking zone and the hydrotreating zone comprise respective recycle gas compressors for providing hydrogen to, respectively, a feed to the slurry hydrocracking zone and a further feed to the hydrotreating zone. 18. The process according to claim 13, wherein a first discharge of the first stage operates at a pressure of about 4.0-about 6.0 MPa, a second discharge of the second stage operates at a pressure of about 8.0-about 12.0 MPa, and a third discharge of the third stage operates at a pressure of about 16.0-about 24.0 MPa. 19. The process according to claim 13, further comprising sending one or more hydrocarbons to a separation zone comprising at least one of a separator or a fractionation column. 20. A process for hydrogen distribution for an apparatus, comprising: A) providing a three-stage compressor comprising a first stage, a second stage, and a third stage;B) providing hydrogen from the first stage to at least one of a naphtha hydrotreating zone and an isomerization zone;C) providing hydrogen from the second stage to a hydrotreating zone, wherein the hydrotreating zone comprises: 1) a hydrotreating reactor;2) a hot separator;3) a cold separator; and4) a recycle gas compressor; wherein hydrogen is recycled from the cold separator to the hydrotreating reactor;D) providing hydrogen from the third stage to a slurry hydrocracking zone; wherein the slurry hydrocracking zone comprises: 1) a slurry hydrocracking reactor;2) a hot separator;3) a warm separator;4) a cold separator; and5) a recycle gas compressor, wherein hydrogen is recycled from the slurry hydrocracking zone cold separator to the slurry hydrocracking reactor; andE) providing hydrogen from the third stage to a hydrocracking zone, wherein the hydrocracking zone comprises a hydrocracking reactor, a hot separator, a cold separator, a hot flash drum, and a cold flash drum.
Benham N. Kelly,CAX ; Pruden Barry B.,CAX ; Roy Michel,CAX, Hydrocracking of heavy hydrocarbon oils with conversion facilitated by control of polar aromatics.
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