Process for upgrading heavy oil using a highly active slurry catalyst composition
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C10B-057/02
C10B-057/00
C10G-051/02
C10G-051/00
출원번호
US-0305377
(2005-12-16)
등록번호
US-7431823
(2008-10-07)
발명자
/ 주소
Farshid,Darush
Reynolds,Bruce
출원인 / 주소
Chevron U.S.A. Inc.
대리인 / 주소
Prater,Penny L.
인용정보
피인용 횟수 :
7인용 특허 :
10
초록▼
The instant invention is directed to a new residuum full hydroconversion slurry reactor system that allows the catalyst, unconverted oil and converted oil to circulate in a continuous mixture throughout an entire reactor with no confinement of the mixture. The mixture is partially separated in betwe
The instant invention is directed to a new residuum full hydroconversion slurry reactor system that allows the catalyst, unconverted oil and converted oil to circulate in a continuous mixture throughout an entire reactor with no confinement of the mixture. The mixture is partially separated in between the reactors to remove only the products and hydrogen, while permitting the unconverted oil and the slurry catalyst to continue on into the next sequential reactor where a portion of the unconverted oil is converted to lower boiling point hydrocarbons, once again creating a mixture of unconverted oil, converted oil, and slurry catalyst. Further hydroprocessing may occur in additional reactors, fully converting the oil. The oil may alternately be partially converted, leaving a highly concentrated catalyst in unconverted oil which can be recycled directly to the first reactor.
대표청구항▼
What is claimed is: 1. A process for the hydroconversion of heavy oils, said process comprising the following steps: (a) providing at least two upflow reactors in series, a first reactor and a second reactor, with a separator in between each reactor; (b) combining a heated heavy oil feed, an active
What is claimed is: 1. A process for the hydroconversion of heavy oils, said process comprising the following steps: (a) providing at least two upflow reactors in series, a first reactor and a second reactor, with a separator in between each reactor; (b) combining a heated heavy oil feed, an active slurry catalyst composition and a hydrogen-containing gas to form a mixture; (c) passing the mixture of step (b) to the bottom of the first reactor, which is maintained at hydroprocessing conditions, including elevated temperature and pressure; (d) removing a vapor stream comprising products, hydrogen, unconverted material and slurry catalyst from the top of the first reactor and passing it to a first separator; (e) in the first separator, removing the products and hydrogen to further processing and passing a liquid bottoms stream, comprising unconverted material and slurry catalyst, to the bottom of the second reactor, which is maintained at slurry hydroprocessing conditions, including elevated temperature and pressure; (f) removing a vapor stream comprising products and hydrogen unconverted material and slurry catalyst from the top of the second reactor and passing it to a second separator; (g) in the second separator, removing the products and hydrogen overhead as a vapor stream to further processing and passing a bottoms stream, comprising unconverted material and slurry catalyst to further processing (h) Wherein the bottoms material of step (g) is recycled to step (b), the mixture of step (b) further comprising recycled unconverted material and slurry catalyst. 2. The process of claim 1, wherein the bottoms material of step (f) is passed to the bottom of a third reactor which is maintained at hydroconversion conditions, including elevated temperature and pressure. 3. The process of claim 1, in which at least one of the reactors is a liquid recirculating reactor. 4. The process of claim 3, in which the recirculating reactor employs a pump. 5. The process of claim 1, in which hydroprocessing conditions employed in each reactor comprise a total pressure in the range from 1500 through 3500 psia and temperature from 700 through 900 F. 6. The process of claim 1, in which the total pressure is preferably in the range from 2000 through 3000 psia and temperature is preferably in the range from 775 through 850 F. 7. The process of claim 1, wherein the separator located between each reactor is a flash drum. 8. The hydroconversion process of claim 1, wherein the heavy oil is selected from the group consisting of atmospheric residuum, vacuum residuum, tar from a solvent deasphlating unit, atmospheric gas oils, vacuum gas oils, deasphalted oils, olefins, oils derived from tar sands or bitumen, oils derived from coal, heavy crude oils, synthetic oils from Fischer-Tropsch processes, and oils derived from recycled oil wastes and polymers. 9. The hydroconversion process of claim 1, wherein the process is selected from the group consisting of hydrocracking, hydrotreating, hydrodesuiphurization, hydrodenitrification, and hydrodemetalization. 10. The process of claim 1, wherein the active slurry catalyst composition of claim 1 is prepared by the following steps: (a) mixing a Group VIB metal oxide and aqueous ammonia to form a Group VI B metal compound aqueous mixture; (b) sulfiding, in an initial reaction zone, the aqueous mixture of step (a) with a gas comprising hydrogen sulfide to a dosage greater than 8 SCF of hydrogen sulfide per pound of Group VIB metal to form a slurry; (c) promoting the slurry with a Group VIII metal compound; (d) mixing the slurry of step (c) with a hydrocarbon oil having a viscosity of at least 2 cSt @212�� F. to form an intermediate mixture; (e) combining the intermediate mixture with hydrogen gas in a second reaction zone, under conditions which maintain the water in the intermediate mixture in a liquid phase, thereby forming an active catalyst composition admixed with a liquid hydrocarbon; and (f) recovering the active catalyst composition. 11. The process of claim 1, in which about 98 wt % of heavy oil feed is converted to lighter products.
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이 특허에 인용된 특허 (10)
Comolli Alfred G. ; Lee Lap-Keung, Catalytic multi-stage process for hydroconversion and refining hydrocarbon feeds.
Van Driesen Roger P. (Titusville NJ) Adams William R. (Upper Montclair NJ) Caspers John (Basking Ridge NJ) Baldasarri Mario (Paramus NJ) Trimble Harold (Panama City Beach FL), Control of bed expansion in expanded bed reactor.
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