Claims
- 1. In a process for the formation of a catalyst comprised of a Group VI-B or Group VIII metal, or both, composited with alumina in a series of steps which include
- precipitating alumina hydrogel from a solution which contains a hydrous form of alumina in concentration ranging from about 1 to about 5 percent, based on the weight of the solution, and a compound having an anion which forms an alkaline soluble aluminum salt in an alkaline medium, at temperatures ranging from about 15.degree. F. to about 120.degree. F. and pH ranging from about 8 to about 12,
- separating said alumina hydrogel from said alkaline solution,
- contacting said alumina hydrogel with a solution of a water soluble polymer containing from about 2 to about 24 monomer units from the group consisting of (a) polyethylene glycols, (b) polypropylene glycols, and (c) polyethylene amines sufficient to absorb the polymer into the pores of the alumina hydrogel and displace water from the pores until the weight ratio of polymer: alumina within the hydrogel ranges from about 0.5:1 to about 4:1,
- forming a slurry of the polymer containing alumina hydrogel,
- spray drying said slurry of polymer containing alumina hydrogel by countercurrent contact of an atomized spray of the alumina hydrogel with air at temperature sufficient to form granules of boehmite,
- forming a paste from the granules of polymer containing boehmite and water, the paste containing at least about 20 percent by weight of solids, and
- mulling said water soluble polymer containing boehmite paste to provide a substantially homogeneous mass,
- the improvement comprising:
- extruding said polymer containing boehmite paste through a die to form spaghetti-like extrudate shapes by applying a torque ranging from about 25 to about 55 inch pounds,
- sizing and shaping the boehmite,
- contacting and extracting said boehmite shapes with a solvent to separate and remove the water soluble polymer therefrom, and then
- drying and calcining the shapes, and converting the boehmite shapes from which the polymer has been extracted to gamma alumina.
- 2. The process of claim 1 wherein the Group VIB or Group VIII metal, or both, is composited with the alumina by impregnation of the alumina hydrogel with a solvent containing a compound, or compounds, of the Group VIB or Group VIII metal, or both.
- 3. The process of claim 1 wherein the Group VIB or Group VIII metal, or both, is composited with the dried, calcined gamma alumina shapes.
- 4. The process of claim 1 wherein, (a) when the catalyst ranges from about 1/50 inch up to about 1/25 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.5-1.5Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- and (b) when the catalyst ranges from about 1/25 inch up to about 1/8 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 2/g 200-500Pore Volume, cc/g 0.7-1.7Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05400A+ <0.2100A+ <0.1______________________________________
- 5. The process of claim 1 wherein, (a) when the catalyst ranges from about 1/50 inch up to about 1/25 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 225-325Pore Volume, cc/g 0.7-1.1Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1400A+ <0.1100A+ <0.05______________________________________
- and (b) when the catalyst ranges from about 1/25 inch up to about 1/8 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 250-350Pore Volume, cc/g 0.8-1.3Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.01400A+ <0.11000A+ <0.05______________________________________
- 6. The process of claim 1 wherein the extrudate shapes are contacted with solvent to extract the polymer, then dried and calcined to form gamma alumina.
- 7. The process of claim 6 wherein the Group VIB or VIII metal, or both, is composited with the dried, calcined, gamma alumina extrudate shape.
- 8. The process of claim 7 wherein (a) when the catalyst ranges from about 1/50 inch up to about 1/25 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.5-1.5Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- and (b) when the catalyst ranges from about 1/25 inch up to about 1/8 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.7-1.7Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- 9. The process of claim 7 wherein (a) when the catalyst ranges from about 1/50 inch up to about 1/25 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 225-325Pore Volume, cc/g 0.7-1.1Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
- and (b) when the catalyst ranges from about 1/25 inch up to about 1/8 inch particle size diameter, it is characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 250-350Pore Volume, cc/g 0.8-1.3Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
- 10. The process of claim 1 wherein the spaghetti-like extrudate shapes are dried, marumerized to form spheres, contacted with solvent to extract the polymer, dried and calcined to form gamma alumina spheres, which (a) when the spheres range from about 1/50 inch up to about 1/25 inch particle size diameter, are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.5-1.5Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- and (b) when the spheres range from about 1/25 inch up to about 1/8 inch particle size diameter, they are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.7-1.7Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- 11. The process of claim 10 wherein (a) when the spheres range from about 1/50 inch up to about 1/25 inch particle size diameter, they are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 225-325Pore Volume, cc/g 0.7-1.1Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
- and (b) when the spheres range from about 1/25 inch up to about 1/8 inch particle size diameter, are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 250-350Pore Volume, cc/g 0.8-1.3Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
- 12. The process of claim 10 wherein the Group VIB or VIII metal, or both, is composited with the dried, calcined gamma alumina spheres.
- 13. The process of claim 1 wherein the alumina hydrogel is precipitated by combining solutions (a) a first of which contains an alkali metal aluminate and (b) a second of which contains a strong mineral acid or an aluminum salt of a strong mineral acid, the anion portion of which is soluble in the alkaline solution.
- 14. The process of claim 1 wherein silica is added to the solution.
- 15. The process of claim 1 wherein the temperature of precipitation ranges from about 32.degree. F to about 70.degree. F.
- 16. The process of claim 1 wherein the concentration of alumina contained within the solution ranges from about 2 to about 3 percent, based on the weight of the solution.
- 17. The process of claim 1 wherein the pH of the solution ranges from about 9 to about 10.
- 18. The process of claim 1 wherein the precipitated alumina hydrogel is washed at ambient temperature.
- 19. The process of claim 1 wherein the hydrogel is washed at temperatures ranging from about 70.degree. F to about 85.degree. F.
- 20. The process of claim 1 wherein the water soluble polymer contains from about 4 to about 8 monomer units in the total molecule.
- 21. The process of claim 1 wherein the polymer displaces water from the pores of the alumina hydrogel until the weight ratio of polymer:alumina within the hydrogel ranges from about 1:1 to about 2:1.
- 22. The process of claim 1 wherein the polymer containing alumina hydrogel is spray dried at air temperatures ranging from about 250.degree. to about 350.degree. F to form the boehmite, the temperature of the boehmite per se being maintained below about 250.degree. F.
- 23. The process of claim 22 wherein the polymer containing alumina hydrogel is spray dried at air temperatures ranging from about 275.degree. to about 300.degree. F.
- 24. The process of claim 22 wherein the boehmite is formed as a granulated solid of average particle size diameter ranging from about 75 to about 125 microns.
- 25. The process of claim 22 wherein, after the spray drying step, granulated boehmite is formed, and water is added back to the boehmite to form an extrudable homogeneous paste.
- 26. The process of claim 25 wherein the extrudable homogeneous paste contains from about 26 to about 32 weight percent alumina.
- 27. The process of claim 25 wherein the granulated boehmite paste is extruded by applying a torque ranging from about 40 inch-pounds to about 50 inch-pounds, the solids content of the extrudable homogeneous paste is controlled, and the relationship between the solids content of the paste, extrudate diameter and the average spherical size diameter of the spherical particles to be ultimately formed from extrudates are as follows:
- ______________________________________Solids Content Extrudate Average Sphereof the Paste, Diameter, Size Diameter,Wt. % Inches Inches______________________________________30-32 1/55-1/28 1/50-1/2528-30 1/32-1/21 1/25-[1/6] 1/1626-28 1/24-1/12 1/16-1/8______________________________________
- 28. The process of claim 27 wherein the spheres are dried, calcined to form gamma alumina and the Group VIB or VIII metal, or both, is composited with the gamma alumina spheres.
- 29. The process of claim 28 wherein (a) when the spheres range from about 1/50 inch up to about 1/25 inch particle size diameter, they are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.5-1.5Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- and (b) when the spheres range from about 1/25 inch up to about 1/8 inch particle size diameter, are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 200-500Pore Volume, cc/g 0.7-1.7Pore SizeDistributions, cc/g100-200A >0.3200-400A >0.05 400A+ <0.21000A+ <0.1______________________________________
- 30. The process of claim 28 wherein (a) when the spheres range from about 1/50 inch up to about 1/25 inch particle size diameter, they are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 225-325Pore Volume, cc/g 0.7-1.1Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
- and (b) when the spheres range from about 1/25 inch up to about 1/8 inch particle size diameter, are characterized as follows:
- ______________________________________Surface Area, m.sup.2 /g 250-350Pore Volume, cc/g 0.8-1.3Pore SizeDistributions, cc/g100-200A >0.4200-400A >0.1 400A+ <0.11000A+ <0.05______________________________________
RELATED APPLICATIONS
This is a continuation-in-part of application Ser. Nos. 646,490 and 646,491 by Willard H. Sawyer, et al, filed Jan. 5, 1976, now U.S. Pat. No. 4,016,106 and U.S. Pat. No. 4,016,107 issued on Apr. 5, 1977 herewith incorporated by reference. Reference is also made to now Ser. No. 646,492, filed on even date herewith, to which the instant Application is related.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
3900427 |
Riley et al. |
Aug 1975 |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
646490 |
Jan 1976 |
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