IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0281480
(2002-10-25)
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발명자
/ 주소 |
- Carruthers, James Donald
- Kamenetzky, Eduardo A.
- Achorn, Peter J.
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
9 인용 특허 :
43 |
초록
Catalysts made from a newly discovered phase of aluminum trihydroxide and processes for making such catalysts. This invention also relates to a method for improving the activity of and for regenerating catalysts having a silica-alumina support.
대표청구항
▼
1. A catalyst composition comprising a support produced from an aluminum trihydroxide phase having measurable X-ray diffraction peaks between about 2θ=18.15° and about 2θ=18.50°, between about 2θ=36.1° and about 2θ=36.85°, between about 2θ=39.45°
1. A catalyst composition comprising a support produced from an aluminum trihydroxide phase having measurable X-ray diffraction peaks between about 2θ=18.15° and about 2θ=18.50°, between about 2θ=36.1° and about 2θ=36.85°, between about 2θ=39.45° and about 2θ=40.30°, and between about 2θ=51.48° and about 2θ=52.59°, and a catalytically active amount of metals. 2. The catalyst composition of claim 1 further characterized in that the aluminum trihydroxide phase has measurable X-ray diffraction peaks between about 2θ=27.35° and about 2θ=27.90°, between about 2θ=34.75° and about 2θ=35.48°, and between about 2θ=62.40° and about 2θ=63.80°. 3. The catalyst composition of claim 1 further characterized in that the aluminum trihydroxide phase does not have measurable X-ray diffraction peaks between about 2θ=20.15° and about 2θ=20.65°. 4. The catalyst composition of claim 1 further characterized in that the aluminum trihydroxide phase does not have measurable X-ray diffraction peaks between about 2θ=20.15° and about 2θ=20.65° and between about 2θ=37.35° and about 2θ=37.75°. 5. The catalyst composition of claim 1 further characterized in that the aluminum trihydroxide phase does not have measurable X-ray diffraction peaks between about 2θ=18.70° and about 2θ=18.90°, between about 2θ=20.30° and about 2θ=20.50°, and between about 2θ=40.30° and about 2θ=40.70°. 6. The catalyst composition of claim 1 further characterized in that the aluminum trihydroxide phase has measurable X-ray diffraction peaks between about 2θ=27.35° and about 2θ=27.90°, between about 2θ=34.75° and about 2θ=35.48°, and between about 2θ=62.40° and about 2θ=63.80°; anddoes not have measurable peaks between about 2θ=18.70° and about 2θ=18.90°, between about 2θ=20.15° and about 2θ=20.65°, between about 2θ=37.35° and about 2θ=37.75°, and between about 2θ=40.30° and about 2θ=40.70°. 7. The catalyst composition of claim 1 further comprising a promoter. 8. The catalyst composition of claim 7 wherein the promoter is P 2 O 5 . 9. The catalyst composition of claim 1 wherein the metals are catalytically active transition metals selected from the group consisting of Group VIB and Group VIII metals. 10. The catalyst composition of claim 7 wherein the metals are catalytically active transition metals selected from the group consisting of Group VIB and Group VIII metals and the promoter is P 2 O 5 . 11. The catalyst composition of claim 1 wherein the metals are nickel, cobalt, molybdenum and tungsten. 12. The catalyst composition of claim 1 wherein the metals are nickel, cobalt, molybdenum and tungsten, wherein the catalyst further comprises P 2 O 5 . 13. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 35 wt. % calculated as MoO 3 and cobalt in an amount up to 9 wt. % calculated as CoO, wherein wt. % is based on the total catalyst composition weight. 14. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 35 wt. % calculated as MoO 3 , cobalt in an amount up to 9 wt. % calculated as CoO, said composition further comprising up to 10 wt. % P 2 O 5 , wherein wt. % is based on the total catalyst composition weight. 15. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 35 wt. % calculated as MoO 3 and nickel in an amount up to 7 wt. % calculated as NiO, wherein wt. % is based on the total catalyst composition weight. 16. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 35 wt. % calculated as Mo O 3 , nickel in an amount up to 7 wt. % calculated as NiO, said composition further comprising up to 10 wt. % P 2 O 5 , wherein wt. % is based on the total catalyst composition weight. 17. The catalyst composition of claim 1 wherein the metal is molybdenum in an amount up to 20 wt. % calculated as MoO 3 , wherein wt. % is based on the total catalyst composition weight. 18. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 20 wt. % calculated as MoO 3 and one selected from nickel, cobalt and mixtures thereof in an amount up to 5 wt. % calculated as the oxide, wherein wt. % is based on the total catalyst composition weight. 19. The catalyst composition of claim 1 wherein the metals are molybdenum in an amount up to 20 wt. % calculated as MoO 3 and one selected from nickel, cobalt and mixtures thereof in an amount up to 5 wt. % calculated as the oxide, said composition further comprising up to 10 wt. % P 2 O 5 , wherein wt. % is based on the total catalyst composition weight. 20. The catalyst composition of claim 1 wherein the metals are noble metals in an amount up to 2 wt. % calculated on an elemental basis, wherein wt. % is based on the total catalyst composition weight. 21. The catalyst composition of claim 20 wherein the noble metal is platinum. 22. A process for making a catalyst composition comprising:(a) forming a starting material comprising silica coated amorphous alumina comprising between about 4 wt. % and about 8 wt. % silica, wherein at least about 20 wt. % of said alumina is amorphous, into a shape;(b) wetting the starting material by contact with a chelating agent and an amount of metal compound in a carrier liquid;(c) aging the so-wetted starting material while wet;(d) drying the so-aged starting material at a temperature between about 100° C. and about 230° C. and under conditions to substantially volatilize the carrier liquid; and(e) calcining the so-dried material. 23. A process for improving the catalytic activity of a silica-alumina supported catalyst comprising between about 4 wt. % and about 8 wt. % silica, wherein at least about 20 wt. % of said alumina is amorphous, and a metal or metal compound, comprising:(a) wetting said catalyst by contact with a chelating agent in a carrier liquid;(b) aging the so-wetted catalyst while wet;(c) drying the so-aged catalyst at a temperature between about 100° C. and about 230° C. and under conditions to substantially volatilize the carrier liquid; and(d) calcining the so-dried catalyst. 24. A process for regenerating a previously used silica-alumina supported catalyst comprising between about 4 wt. % and about 8 wt. % silica, wherein at least about 20 wt. % of said alumina is amorphous, and a metal or metal compound, comprising:(a) removing material deposited on said catalyst during its previous use;(b) wetting said catalyst by contact with a chelating agent in a carrier liquid;(c) aging the so-wetted catalyst while wet;(d) drying the so-aged catalyst at a temperature between about 100° C. and about 230° C. and under conditions to substantially volatilize the carrier liquid; and(e) calcining the so-dried catalyst. 25. A process for making a catalyst composition tailored to the treatment of a hydrocarbonaceous material, comprising:(a) determining the concentration of nitrogen-containing compounds in the hydrocarbonaceous material;(b) choosing a starting material comprising silica coated amorphous alumina comprising between about 4 wt. % and about 8 wt. % silica, wherein at least about 20 wt. % of said alumina is amorphous, wherein said alumina has an appropriate concentration of silica so that, when wet-aged at an appropriate wet-aging temperature for an appropriate length of time forms a catalyst precursor, said catalyst precursor comprising a sufficient concentration of a composition comprising an aluminum trihydroxide phase having measurable X-ray diffraction peaks between about 2θ=18. 15° and about 2θ=18.50°, between about 2θ=36.1° and about 2θ=36.85°, between about 2θ=39.45° and about 2θ=40.30°, and between about 2θ=51.48° and about 2θ=52.59°, that a catalyst made from said catalyst precursor will be effective in treating said hydrocarbonaceous material; wherein said appropriate concentration of silica, appropriate wet-aging temperature and appropriate length of time are chosen to be in proportion to the concentration of said nitrogen-containing compounds;(c) forming said starting material into a shape;(d) wetting said starting material by contact with a chelating agent and an amount of metal compound in a carrier liquid;(e) aging the so-wetted starting material while wet at the temperature chosen in (b) for the length of time chosen in (b);(f) drying the so-aged starting material at a temperature between about 100° C. and about 230° C. and under conditions to substantially volatilize the carrier liquid; and(g) calcining the so-dried material.
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