Abstract: Carbon content of vent and purge gases from hydrotreating is included as charge to synthesis gas generation with resulting efficiencies including decreased need for steam moderation and increased conversion of charge to desired product.
Abstract: A process for the solvent deasphalting of asphaltene-containing hydrocarbons which comprising mixing asphaltene-containing hydrocarbons with a metal compound such as aluminum carbonates or titanium (IV) oxide and also with a solvent such as n-heptane, n-hexane, n-heptane or a mixed n-pentane.n-butanol solvent, to form a mixture which is then allowed to stand still to precipitate and separate the asphaltene therefrom thereby obtaining a deasphalted oil.
Abstract: A method for passivating the adverse catalytic effects of metal contaminants, such as nickel, vanadium and iron, which become deposited on cracking catalyst is disclosed. A passivation promoter selected from the group consisting of cadmium, germanium, indium, tellurium and zinc is deposited on the catalyst and the catalyst is passed through a passivation zone having a reducing atmosphere maintained at an elevated temperature to decrease the adverse catalytic effects of the metal contaminants. The present method is of particular utility where the residence time of the cracking catalyst in the passivation zone is relatively short.
Abstract: Hydrocarbon treating processes such as catalytic cracking and fluid coking are provided in which a perovskite-containing catalytic composition is used as catalyst. The perovskite-containing catalytic composition is produced by interrupting the reaction of perovskite precursors after formation of at least 60 wt. % perovskite and before formation of more than 99 wt. % perovskite from the precursors.
Type:
Grant
Filed:
December 23, 1983
Date of Patent:
June 11, 1985
Assignee:
Exxon Research & Engineering Co.
Inventors:
Kenneth S. Wheelock, Robert C. Schucker
Abstract: Octane and total yield improvement in catalytic cracking of petroleum fractions under cracking conditions can be obtained by adding to conventional cracking catalysts small amounts of an additive catalyst comprising a class of zeolites characterized by a silica to alumina mole ratio greater than 5 and a Constraint Index of 1 to 12 wherein the zeolite additive catalyst is prepared via in-situ crystallization of preformed aggregates.
Abstract: A process for high hydroconversion of petroleum residua containing at least about 25 V % material boiling above 975.degree. F. to produce lower boiling hydrocarbon liquid products and avoid undesirable precipitation of asphaltene compounds. In the process, the feedstock is at least about 80 percent catalytically hydroconverted to material boiling below 975.degree. F. and containing a mixture of gas and liquid fractions, after which the gas fraction is removed while maintaining the resulting liquid fractions temperature above about 730.degree. F. to avoid precipitation of asphaltene compounds which causes operations difficulties in the downstream equipment. Alternatively, the pressure-reduced liquid fraction can be stripped of material boiling below about 650.degree. F. before cooling the liquid to a temperature below about 730.degree. F. to prevent such precipitation of asphaltene compounds in the downstream equipment.
Type:
Grant
Filed:
December 27, 1982
Date of Patent:
June 4, 1985
Assignee:
HRI, Inc.
Inventors:
Michael C. Chervenak, Richard M. Eccles, Govanon Nongbri
Abstract: The invention provides a process of converting shale oil fractions with the catalyst made by beginning the synthesis in the usual way and adding additional trivalent metal ion after crystallization is 20 to 90 percent complete and continuing the crystallization, whereby a zeolite having the same crystal structure throughout, but having different silica-to-alumina molar ratios in the inner core and outer shell is obtained.
Type:
Grant
Filed:
February 22, 1982
Date of Patent:
June 4, 1985
Assignee:
Mobil Oil Corporation
Inventors:
Philip J. Angevine, Gunter H. Kuhl, Sadi Mizrahi
Abstract: A method is provided for reducing the concentration of basic nitrogen compounds in hydrocarbonaceous feedstock fluids used in the refining industry by providing a solid particulate carbonaceous adsorbent/fuel material such as coal having active basic nitrogen complexing sites on the surface thereof and the coal with a hydrocarbonaceous feedstock containing basic nitrogen compounds to facilitate attraction of the basic nitrogen compounds to the complexing sites and the formation of complexes thereof on the surface of the coal. The adsorbent coal material and the complexes formed thereon are from the feedstock fluid to provide a hydrocarbonaceous fluid of reduced basic nitrogen compound concentration. The coal can then be used as fuel for boilers and the like.
Abstract: There is disclosed a process for cracking a metal-containing feed in the presence of a fluid cracking catalyst composition comprising contacting said feed at catalytic cracking conditions with a catalyst composition comprising a zeolitic crystalline aluminosilicate, sepiolite and matrix material, characterized in that the sepiolite is present in non-dispersed form.
Abstract: A process for dewaxing a hydrocarbon feedstock with a relatively high pour point and containing paraffins selected from the group of normal paraffins and slightly branched paraffins and sulfur and nitrogen compounds which comprises subjecting said oil to hydrotreating in a hydrotreating zone operated at hydrotreating conditions sufficient to remove at least a portion of said sulfur and nitrogen compounds and subjecting said hydrotreated oil to catalytic dewaxing by contacting said oil with a catalyst comprising zeolite beta having a silica/alumina ratio of at least 30:1 and a hydrogenation/dehydrogenation component under isomerization conditions.
Type:
Grant
Filed:
December 2, 1983
Date of Patent:
May 21, 1985
Assignee:
Mobil Oil Corporation
Inventors:
Rene B. LaPierre, Randall D. Partridge, Nai Y. Chen, Stephen S. Wong
Abstract: A process is provided for conducting organic compound conversion over a catalyst comprising a high silica crystalline zeolite which has been treated by contact with aluminum chloride vapor.
Abstract: Petroleum-derived feedstocks are treated at elevated temperatures and pressures in the presence of hydrogen and in contact with a bed of porous catalytic particles. In accordance with the invention, each of the catalytic particles is specially shaped as a cylinder of polylobate cross-section having bluntly rounded, concave, interlobular interstices and in conformity with a selected combination of values of three defining parameters. The particle shape is further characterized as being substantially straight-sided and as having a geometric surface-to-volume ratio in the range of about 40 to about 95 in.sup.2 /in.sub.3. When the catalyst particle cross-section is selected to be circumscribed by a rectangle, the shorter side of the rectangle is about 70% as long as the longer side of the rectangle for all preferred combinations of values of the defining radial parameters.
Abstract: A hydrocarbon conversion catalyst useful for hydrocracking hydrocarbons to more valuable products comprises one or more hydrogenation components supported on a base containing (1) a crystalline aluminosilicate zeolite having activity for cracking hydrocarbons and (2) a dispersion of silica-alumina in an alumina matrix.
Abstract: Passivation of vanadium accumulated on catalyst, e.g. crystalline zeolite hydrocarbon conversion catalyst in the rare earth and/or ammonia exchanged zeolite form, effectively minimizes the degrading characteristics of accumulated vanadium on the catalyst. The passivation is accomplished by impregnating or, preferable, precipitating, rare earths, e.g. lanthanum, onto the catalyst particles before and/or after vanadium accumulation. The process is also applicable to inert sorbent particles, e.g. those used for removing carbon and metals from contaminated hydrocarbons.
Type:
Grant
Filed:
September 15, 1983
Date of Patent:
May 7, 1985
Assignee:
Ashland Oil, Inc.
Inventors:
H. Wayne Beck, Charles F. Lochow, Jr., Charles W. Nibert
Abstract: A process is provided for conducting organic compound conversion over a catalyst composition comprising a specially treated crystalline zeolite having a high initial silica-to-alumina mole ratio, said zeolite having been synthesized from a reaction mixture comprising a diamine as a cation source. The treatment of the zeolite material comprises the sequential steps of reacting the zeolite with a dilute hydrogen fluoride solution, contacting the hydrogen fluoride solution reacted material with aluminum chloride vapor, and then treating the aluminum chloride contacted material to convert it to hydrogen form.
Abstract: Heavy hydrocarbonaceous oil is cracked by hydrogen donor diluent cracking, and pitch from the donor cracking step is recycled. The pitch is catalytically hydrotreated before it is recycled. Hydrotreating the pitch enables complete conversion of the 950.degree. F.+ fraction of heavy hydrocarbonaceous oil to 950.degree. F.- distillate.
Abstract: Viscous asphaltenic crude oils are converted to pumpable liquid oil products in field locations by precipitating and separating asphaltenes, then mildly thermally converting the asphaltenes to mobile asphaltene-conversion products that can be mixed with at least the maltene components of the crude oils to form the pumpable liquid oil products.
Type:
Grant
Filed:
January 26, 1984
Date of Patent:
April 30, 1985
Assignee:
Shell Oil Company
Inventors:
Philip J. Closmann, Monroe H. Waxman, Charles T. Deeds
Abstract: A process for the solvent deasphalting of asphaltene-containing hydrocarbons which comprising mixing asphaltene-containing hydrocarbons with a metal compound such as aluminum sulfate or titanium (IV) oxide and also with a solvent such as n-heptane, n-hexane, n-heptane or a mixed n-pentane.n-butanol solvent, to form a mixture which is then allowed to stand still to precipitate and separate the asphaltene therefrom thereby obtaining a deasphalted oil.
Abstract: A fluid catalytic hydrocarbon conversion process and apparatus in which hot freshly regenerated catalyst is contacted with hydrocarbon feedstock in a gravity flow catalytic reactor. Spent catalyst from the reactor is separated from reactants in a ballistic separator and completely regenerated in a riser regenerator.
Type:
Grant
Filed:
March 23, 1983
Date of Patent:
April 30, 1985
Assignee:
Texaco Inc.
Inventors:
Phillip K. Niccum, Dorrance P. Bunn, Jr.
Abstract: The present invention provides a process for producing iso-paraffins from aromatic hydrocarbons comprising contacting the aromatic hydrocarbon or aromatic hydrocarbon-containing feed with a molten salt system comprising sodium tetrachloroaluminate (NaAlCl.sub.4) and up to about 25 weight percent hydrogen tetrachloroaluminate (HAlCl.sub.4) at a temperature above about 155.degree. C., i.e. that required to maintain the molten state of said mixture, whereby the ring structure is opened and the aromatic compound is rearranged to an iso-paraffin of the same or substantially the same molecular weight.