Mesoporous and macroporous catalyst for hydroconversion of residues and preparation method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C10G-045/00
C10G-045/08
B01J-037/03
B01J-037/20
B01J-021/04
B01J-023/00
B01J-027/188
B01J-027/19
B01J-035/10
B01J-037/02
B01J-037/00
B01J-037/08
C10G-065/04
출원번호
US-0318151
(2015-06-09)
등록번호
US-10125327
(2018-11-13)
우선권정보
FR-14 55417 (2014-06-13)
국제출원번호
PCT/EP2015/062820
(2015-06-09)
국제공개번호
WO2015/189194
(2015-12-17)
발명자
/ 주소
Boualleg, Malika
Guichard, Bertrand
출원인 / 주소
IFP Energies nouvelles
대리인 / 주소
Millen White Zelano and Branigan, PC
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
Process of preparing hydroconversion catalyst comprising: a calcined, predominantly alumina, oxide support;a hydrogenating-dehydrogenating active phase comprising group VIB metal, the catalyst having:specific surface area ≥100 m2/g,total pore volume ≥0.75 ml/g,median mesopore diameter by volume ≥18
Process of preparing hydroconversion catalyst comprising: a calcined, predominantly alumina, oxide support;a hydrogenating-dehydrogenating active phase comprising group VIB metal, the catalyst having:specific surface area ≥100 m2/g,total pore volume ≥0.75 ml/g,median mesopore diameter by volume ≥18 nm,mesopore volume ≥0.65 ml/g,macropore volume 15-40% of total pore volume;comprising:a) dissolving acidic aluminum precursor;b) adjusting pH with basic precursor;c) co-precipitating acidic and basic precursors, at least one containing aluminum, to form suspension of alumina gel with a targeted alumina concentration;d) filtration;e) drying to a powder;f) forming;g) thermal treatment to an alumina oxide support;h) impregnating of the hydrogenating-dehydrogenating active phase on the alumina oxide support. Catalyst prepared by this process and use thereof for hydrotreating or hydroconverting heavy hydrocarbon feedstocks.
대표청구항▼
1. Process for the preparation of a hydroconversion catalyst comprising: a calcined, predominantly alumina, oxide support; anda hydro-dehydrogenating active phase comprising at least one metal of group VIB of the periodic table, optionally at least one metal of group VIII of the periodic table and o
1. Process for the preparation of a hydroconversion catalyst comprising: a calcined, predominantly alumina, oxide support; anda hydro-dehydrogenating active phase comprising at least one metal of group VIB of the periodic table, optionally at least one metal of group VIII of the periodic table and optionally phosphorus; said catalyst having: a specific surface area Sbet greater than or equal to 100 m2/g,a total pore volume measured by mercury porosimetry greater than or equal to 0.75 ml/g,a median mesopore diameter by volume greater than or equal to 18 nm,a mesopore volume as measured with a mercury intrusion porosimeter greater than or equal to 0.65 ml/g, anda macropore volume of between 15 and 40% of the total pore volume;said process comprising at least the following stages:a) a stage of dissolution of an acidic aluminum precursor selected from aluminum sulfate, aluminum chloride and aluminum nitrate in water, at a temperature between 20 and 90° C., at a pH between 0.5 and 5, for a duration between 2 and 60 minutes;b) a stage of pH adjustment by adding, to the suspension obtained in stage a), at least one basic precursor selected from sodium aluminate, potassium aluminate, ammonia, sodium hydroxide and potassium hydroxide, at a temperature between 20 and 90° C., and at a pH between 7 and 10, for a duration between 5 and 30 minutes;c) a stage of co-precipitation of the suspension obtained at the end of stage b) by adding, to the suspension, at least one basic precursor selected from sodium aluminate, potassium aluminate, ammonia, sodium hydroxide and potassium hydroxide and at least one acidic precursor selected from aluminum sulfate, aluminum chloride, aluminum nitrate, sulfuric acid, hydrochloric acid and nitric acid, at least one of the basic or acidic precursors comprising aluminum, the relative flow rate of the acidic and basic precursors being selected so as to obtain a pH of the reaction medium between 7 and 10 and the flow rate of the acidic and basic precursor or precursors containing aluminum being controlled so as to obtain a final alumina concentration in the suspension between 10 and 38 g/L;d) a stage of filtration of the suspension obtained at the end of the co-precipitation stage c) in order to obtain an alumina gel;e) a stage of drying said alumina gel obtained in stage d) in order to obtain a powder,f) a stage of forming the powder obtained at the end of stage e) in order to obtain a crude material,g) a stage of thermal treatment of the crude material obtained at the end of stage f) at a temperature between 500 and 1000° C., in the presence or absence of an air flow containing up to 60% by volume of water, in order to obtain an alumina oxide support; andh) a stage of impregnation of the hydro-dehydrogenating active phase on said alumina oxide support. 2. Process according to claim 1, wherein the alumina concentration of the suspension of alumina gel obtained in stage c) is between 13 and 35 g/l. 3. Process according to claim 2, wherein the alumina concentration of the suspension of alumina gel obtained in stage c) is between 15 and 33 g/l. 4. Process according to claim 1, wherein the acidic precursor is aluminum sulfate. 5. Process according to claim 1, wherein the basic precursor is sodium aluminate. 6. Process according to claim 1 in which, in stages a), b), c), the aqueous reaction medium is water and said stages are carried out with stirring, in the absence of organic additive. 7. Process according to claim 1, wherein the acidic precursor of stage a) is introduced in a quantity corresponding to 0.5 to 4% by weight of the total alumina formed at the end of stage c). 8. Mesoporous and macroporous hydroconversion catalyst prepared by the process according to claim 1. 9. Mesoporous and macroporous hydroconversion catalyst according to claim 8 having: a specific surface area Sbet greater than 110 m2/g,a median mesopore diameter by volume between 18 nm and 26 nm,a median macropore diameter by volume between 100 and 1200 nm inclusive,a mesopore volume as measured with a mercury intrusion porosimeter greater than or equal to 0.70 ml/g,a total pore volume measured by mercury porosimetry greater than or equal to 0.85 ml/g,a macropore volume between 17 and 35% of the total pore volume, andan absence of micropores. 10. Mesoporous and macroporous hydroconversion catalyst according to claim 9, having a macropore volume between 20 and 30% of the total pore volume. 11. Mesoporous and macroporous hydroconversion catalyst according to claim 8, having a median mesopore diameter by volume determined with a mercury intrusion porosimeter between 19 and 25 nm and a median macropore diameter by volume between 110 and 1000 nm inclusive. 12. Hydroconversion catalyst according to claim 8, in which the group VIB metal content is between 2 and 10% by weight of trioxide of group VIB metal relative to the total weight of the catalyst, the group VIII metal content is between 0.0 and 3.6% by weight of the oxide of group VIII metal relative to the total weight of the catalyst, the content of the element phosphorus is between 0 and 5% by weight of phosphorus pentoxide relative to the total weight of the catalyst. 13. Hydroconversion catalyst according to claim 8, in which the hydro-dehydrogenating active phase is composed of molybdenum or of nickel and molybdenum or of cobalt and molybdenum. 14. Hydroconversion catalyst according to claim 13, in which the hydro-dehydrogenating active phase also comprises phosphorus. 15. Process for hydrotreating a heavy hydrocarbon feedstock selected from atmospheric residues, vacuum residues obtained from direct distillation, deasphalted oils, residues originating from conversion processes, used alone or in a mixture, comprising bringing said feedstock into contact with hydrogen and a hydroconversion catalyst according to claim 8. 16. Hydrotreating process according to claim 15, carried out partly in an ebullating bed at a temperature between 320 and 450° C., under a hydrogen partial pressure comprised between 3 MPa and 30 MPa, at a space velocity between 0.1 and 10 volumes of feedstock per volume of catalyst per hour, and with a ratio of gaseous hydrogen to liquid hydrocarbon feedstock between 100 and 3000 normal cubic meters per cubic meter. 17. Hydrotreating process according to claim 15, carried out at least partly in a fixed bed at a temperature between 320° C. and 450° C., under a hydrogen partial pressure between 3 MPa and 30 MPa, at a space velocity between 0.05 and 5 volumes of feedstock per volume of catalyst per hour, and with a ratio of gaseous hydrogen to liquid hydrocarbon feedstock between 200 and 5000 normal cubic meters per cubic meter. 18. Process for hydrotreating a heavy hydrocarbon feedstock according to claim 17 in a fixed bed comprising at least: a) a stage of hydrodemetallization; andb) a stage of hydrodesulfurization;in which said hydroconversion catalyst is used in at least one of said stages a) and b). 19. Process for hydrotreating a heavy hydrocarbon feedstock according to claim 18, in a fixed bed, wherein said hydroconversion catalyst is used in a first catalyst bed of the hydrodemetallization stage a). 20. Process for hydrotreating heavy hydrocarbon feedstock in an ebullating bed according to claim 16, wherein the feedstock has a cumulative metals content greater than or equal to 50 ppm and said hydroconversion catalyst is used for the reactions of hydrodemetallization. 21. Process according to claim 15, wherein the heavy hydrocarbon feedstock is selected from residues originating from coking, fixed-bed, ebullating-bed or moving-bed hydroconversion processes, used alone or in a mixture.
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이 특허에 인용된 특허 (3)
Threlkel Richard S. (El Cerrito CA), Low macropore resid conversion catalyst.
Ginestra, Josiane M.; Ackerman, Russell C.; Michel, Christian G., Method of making alumina having bimodal pore structure, and catalysts made therefrom.
Baldauf Wolfgang (Dorsten DEX) Rupp Martin (Essen DEX) Bolz Heinz (Gelsenkirchen DEX) Lken Hans-Gerd (Marl DEX) Schuler Joachim (Marl DEX) Nowitzki Bernd (Marl DEX), Nickel/aluminum oxide catalyst, preparation thereof, use thereof and hydrogenation of aromatic hydrocarbons with the aid.
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