IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0551015
(2009-08-31)
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등록번호 |
US-8551323
(2013-10-08)
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발명자
/ 주소 |
- Abdel-Halim, Tayseer A
- Brait, Axel
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
8 |
초록
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Systems and methods for hydroprocessing a heavy oil feedstock are disclosed. The system employs a plurality of contacting zones and at least one separation zone, wherein a solvating hydrocarbon having a normal boiling point less than 538° C. (1000° F.) is employed. In the system, a mixture of heavy
Systems and methods for hydroprocessing a heavy oil feedstock are disclosed. The system employs a plurality of contacting zones and at least one separation zone, wherein a solvating hydrocarbon having a normal boiling point less than 538° C. (1000° F.) is employed. In the system, a mixture of heavy oil feedstock and solvating hydrocarbon is provided to a contact zone along with a slurry catalyst feed in a hydrocarbon diluent. The contacting zone operates at a temperature and pressure near the critical temperature and pressure of the heavy oil and solvating hydrocarbon mixture to convert at least a portion of the heavy oil feedstock to lower boiling hydrocarbons, forming upgraded products.
대표청구항
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1. A process for hydroprocessing a heavy oil feedstock, the process employing a plurality of contacting zones and at least a separation zone, the process comprising: providing a hydrogen containing gas feed;providing a feed mixture comprising a heavy oil feedstock with a solvating hydrocarbon having
1. A process for hydroprocessing a heavy oil feedstock, the process employing a plurality of contacting zones and at least a separation zone, the process comprising: providing a hydrogen containing gas feed;providing a feed mixture comprising a heavy oil feedstock with a solvating hydrocarbon having a normal boiling point less than 538° C. (1000° F.) at a weight ratio of the solvating hydrocarbon to the heavy oil feedstock is in the range of 1:1 to 20:1, the solvating hydrocarbon comprising a mixture of toluene and methyl cyclohexane (MCH) in a ratio ranging from 10:1 to 1:10 of toluene to MCH, and the feed mixture having a critical pressure Pc in the range of 500 to 2000 psi and a critical temperature Tc in the range of 500 to 1000° F.;providing a slurry catalyst feed in a hydrocarbon oil diluent;combining the hydrogen containing gas feed, the mixture of heavy oil feedstock and the solvating hydrocarbon, and the slurry catalyst feed in a first contacting zone at a temperature near Tc and a pressure near Pc to convert at least a portion of the heavy oil feedstock to lower boiling hydrocarbons, forming upgraded products;sending a first effluent stream from the first contacting zone comprising the upgraded products, the slurry catalyst, the hydrogen containing gas, the solvating hydrocarbon, and unconverted heavy oil feedstock to a first separation zone, wherein volatile upgraded products are removed with the hydrogen containing gas as a first overhead stream, and the slurry catalyst and unconverted heavy oil feedstock are removed as a first non-volatile stream;collecting the first overhead stream for further processing; andcollecting the first non-volatile stream for further processing. 2. The process of claim 1, wherein the plurality of contacting zones operate in a parallel mode, and the process further comprising: providing to a second contacting zone, operated at a temperature near Tc and a pressure near Pc, at least a portion of hydrogen containing gas feed, at least a portion of the mixure of heavy oil feedstock and solvating hydrocarbon, and at least a portion of the slurry catalyst feed;combining the at least a portion of hydrogen containing gas feed, the at least a portion of the mixure of heavy oil feedstock and solvating hydrocarbon, and the at least a portion of the slurry catalyst feed in the second contacting zone to convert at least a portion of the heavy oil feedstock to lower boiling hydrocarbons, forming additional upgraded products;sending the first effluent stream and a second effluent stream from the second contacting zone comprising the additional upgraded products, the slurry catalyst, the hydrogen containing gas, the solvating hydrocarbon, and unconverted heavy oil feedstock to the first separation zone, wherein the first overhead stream and the first non-volatile stream are removed for further processing. 3. The process of claim 2, wherein the slurry catalyst feed to the second contacting zone is a different slurry catalyst from the slurry catalyst feed to the first contacting zone. 4. The process of 1, further comprising: adding an additional hydrocarbon oil feed to the first contacting zone, in an amount ranging from 2 to 40 wt. % of the heavy oil feedstock. 5. The process of claim 4, wherein the additional hydrocarbon oil feed is selected from vacuum gas oil, naphtha, medium cycle oil, light cycle oil, heavy cycle oil, solvent donor, and aromatic solvents. 6. The process of 1, for treating a heavy oil feedstock having a TAN of at least 0.1; a viscosity of at least 10 cSt; an API gravity at most 15; at least 0.0001 grams of Ni/V/Fe; at least 0.005 grams of heteroatoms; at least 0.01 grams of residue; at least 0.04 grams C5 asphaltenes; and at least 0.002 grams of MCR per gram of heavy oil feedstock. 7. The process of 1, wherein the slurry catalyst feed has an average particle size of at least 1 micron. 8. The process of 1, wherein the slurry catalyst feed has an average particle size ranging from 1 to 20 microns. 9. The process of 1, wherein the slurry catalyst feed comprises clusters of colloidal sized particles of less than 100 nm in size. 10. The process of 1, wherein the slurry catalyst feed comprises an active metal catalyst at a concentration of greater than 1000 wppm of active metal catalyst to heavy oil feedstock. 11. The process of 1, further comprising providing at least an additive for trapping metals in the heavy oil feed and coke, the additive having a BET surface area of at least 1 m2/g and a total pore volume of at least 0.005 cm3/g. 12. The process of claim 11, wherein the additive comprises carbon black having an average particle size ranging from 1 to 100 microns. 13. The process of 1, wherein a sufficient amount of a hydrogen containing gas feed is provided for the process to have a volume yield of at least 115% in upgraded products comprising liquefied petroleum gas, gasoline, diesel, vacuum gas oil, and jet and fuel oils. 14. The process of 1, for treating a heavy oil feedstock having a TAN of at least 0.1; a viscosity of at least 10 cSt; an API gravity at most 15;at least 0.0001 grams of Ni/V/Fe; at least 0.005 grams of heteroatoms; at least 0.01 grams of residue; at least 0.04 grams C5 asphaltenes; and at least 0.002 grams of MCR. 15. A process for hydroprocessing a heavy oil feedstock, the process employing a plurality of contacting zones and separation zones, including a first contacting zone and a contacting zone other than the first contacting zone, the process comprising: providing a hydrogen containing gas feed;providing a feed mixture comprising a heavy oil feedstock with a solvating hydrocarbon having a normal boiling point less than 538° C. (1000° F.) at a weight ratio of the solvating hydrocarbon to the heavy oil feedstock of at least 1:1, the feed mixture having a critical pressure Pc and a critical temperature Tc;providing a slurry catalyst feed having in a hydrocarbon oil diluent;combining the hydrogen containing gas feed, the mixture of heavy oil feedstock and the solvating hydrocarbon, the slurry catalyst feed in a first contacting zone at a temperature near Tc and a pressure near Pc to convert at least a portion of the heavy oil feedstock to lower boiling hydrocarbons, forming upgraded products;sending a mixture comprising the upgraded products, the slurry catalyst, the hydrogen containing gas, the solvating hydrocarbon, and unconverted heavy oil feedstock to a first separation zone, wherein volatile upgraded products are removed with the hydrogen containing gas and the solvating hydrocarbon from the first separation zone as a first overhead stream, and the slurry catalyst, heavier hydrocracked liquid products, and the unconverted heavy oil feedstock are removed from the first separation zone as a first non-volatile stream, and;sending the first non-volatile stream to a contacting zone other than the first contacting zone with additional hydrogen containing gas feed, which contacting zone is maintained at a temperature near Tc and a pressure near Pc to convert at least a portion of the unconverted heavy oil feedstock to lower boiling hydrocarbons, forming additional upgraded products;sending a mixture comprising the additional upgraded products, the slurry catalyst, the additional hydrogen containing gas, the solvating hydrocarbon, and unconverted heavy oil feedstock to a separation zone other than the first separation zone, whereby additional volatile upgraded products are removed with the additional hydrogen containing gas and the solvating hydrocarbon as an overhead stream, and the slurry catalyst and the unconverted heavy oil feedstock are removed as a second non-volatile stream. 16. The process of claim 15, wherein at least a portion of the second non-volatile stream is recycled to the first contacting zone for use as part of the slurry catalyst feed, and remainder of the second non-volatile stream is removed from the process as a bleed-off stream in an amount sufficient for the process to have a conversion rate of at least 90%. 17. The process of claim 15, wherein a fresh slurry catalyst is fed into a contacting zone other than the first contacting with the additional hydrogen containing gas feed.
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