Abstract: A hydrocarbon feed for use in a catalytic conversion process that utilizes a zeolite catalyst, and that contains a catalytically deleterious impurity, is refined by contact with a zeolitic sorbent. The invention is applicable to dewaxing, with an example illustrating reduction by 100.degree. F. of the initial equilibrium (lineout) temperature by the method of this invention. Other reactions include conversions of aromatic hydrocarbons such as alkylation, isomerization and disproportionation.

Abstract: Catalytically dewaxed lubricating base stock oils that have improved resistance to oxidation are produced by pretreating the waxy furfural raffinate with a zeolite sorbent prior to dewaxing with a zeolite catalyst such as ZSM-5, and conducting the dewaxing at a reduced temperature not to exceed about 675.degree.-700.degree. F.

Abstract: There is disclosed a method for decreasing catalyst coking and extending the usable catalyst life by pre-treatment of the catalyst with steam and/or a phosphorus-containing compound. Catalysts benefiting from such pre-treatment comprise crystalline zeolites characterized by a silica to alumina mole ratio of at least 12 and a constraint index, as herein defined, within the approximate range of 1 to 12.

Abstract: This invention provides an integrated process for upgrading a combination of crude petroleum residua, refractory bottoms from catalytic cracking operations, and coal to gasoline and middle distillate products.The process involves dense-gas solvent extraction under supercritical conditions, cracking, and hydroconversion stages.

Abstract: A process is disclosed for the production of high octane gasoline and/or other valuable lower molecular weight products from carbo-metallic oils. Examples include crude oil, topped crude, reduced crude, residua, the extract from solvent de-asphalting and other heavy hydrocarbon fractions. These carbo-metallic oils contain quantities of coke precursors and heavy metal catalyst poisons substantially in excess of what is normally considered acceptable for FCC processing (fluid catalytic cracking) and substantial amounts of sulfur, nitrogen and other troublesome components may also be present. Such carbo-metallic oils are converted to the desired products in a catalytic conversion process. Named "RCC" (Reduced Crude Conversion) after a particularly common or useful carbo-metallic feed, the present process is by no means restricted to reduced crude or to oils of petroleum origin, having utility in the processing of oils from coal, shale and other sources.

Abstract: A process for catalytically cracking a hydrocarbonaceous feedstock employing a dual component catalyst. The process is conducted under catalytic cracking conditions, preferably in a single stage, in the absence of added hydrogen. The dual component catalyst composition comprises a crystalline chromia silicate component and a large pore size crystalline aluminosilicate cracking component.

Abstract: A process for the production of aromatic hydrocarbons which process comprises contacting at elevated temperature and in the vapor phase a C.sub.2 to C.sub.12 aliphatic hydrocarbon feedstock with a catalyst comprising a crystalline aluminosilicate having a silica to alumina molar ratio greater than 12:1 which has been modified by incorporation therein of aluminium either by exchange or impregnation.

Abstract: In a hydrocarbon conversion operation employing a fluidized cracking catalyst wherein the cracking catalyst has been passivated to render contaminating metals thereon substantially inactive thus to avoid undesired reactions and wherein the used catalyst is regenerated and the regeneration step yields catalyst fines and a flue gas and the flue gas and fines are separated in at least two stages a first stage yielding coarse fines and a later stage yielding finer fines the step of treating finer fines to render metals thereon non-leachable or having substantially reduced leachability to render the finer fines usable as land fill which comprises treating the finer fines with a tin and/or indium and/or a compound of tin and/or a compound of indium.

Abstract: An FCC process in which hydrogen produced by water thermolysis adheres to the catalyst and is used in the reaction zone to achieve improved product selectivity and reduced coke production. The catalyst used is a crystalline aluminosilicate cation exchanged with transitional metal cations. The water thermolysis is carried out in the circulating catalyst upstream of the reaction zone at water thermolysis conditions.

Abstract: A process is disclosed for the production of high octane gasoline and/or other valuable lower molecular weight products from carbo-metallic oils. Examples include crude oil, topped crude, reduced crude, residua, the extract from solvent de-asphalting and other heavy hydrocarbon fractions. These carbo-metallic oils contain quantities of coke precursors and heavy metal catalyst poisons substantially in excess of what is normally considered acceptable for FCC processing (fluid catalytic cracking) and substantial amounts of sulfur, nitrogen and other troublesome components may also be present. Such carbo-metallic oils are converted to the desired products in a catalytic conversion process. Named "RCC" (Reduced Crude Conversion) after a particularly common or useful carbo-metallic feed, the present process is by no means restricted to reduced crude or to oils of petroleum origin, having utility in the processing of oils from coal, shale and other sources.

Abstract: Cracking catalyst fines from a slurry oil are introduced into a cracking-regeneration loop not together with the highly aromatic, refractory hydrocarbon of the slurry oil but rather with a desirable hydrocarbon, such as a virgin gas oil. The invention has the advantage that the desirable catalyst fines are introduced into the cracking-regeneration loop whereas the highly aromatic oil of this slurry is not or not to a substantial extent introduced into the cracking zone.

Abstract: Raw shale oil containing precipitable inorganic compounds such as iron and arsenic are preheated to below the precipitation temperature and then catalytically hydrocracked in an ebullated bed catalytic reactor. The metal compounds are deposited on the catalyst in the reactor, from which they are withdrawing along with used catalyst which is replaced with fresh catalyst. The reactor effluent is further hydrotreated in a fixed bed catalyst reactor, usually at more severe conditions of 800.degree.-840.degree. F. and 2000-2800 psig, hydrogen partial pressure. The resulting material is phase-separated and distilled to provide jet fuel and diesel oil product meeting commercial and military specifications.

Abstract: An improved process for catalytically hydrodewaxing a petroleum feedstock selected from a petroleum distillate or residual fraction, by contact of the feedstock and hydrogen with a catalyst is disclosed where the catalyst is a synthetic ferrierite zeolite having incorporated therewith at least one metal selected from the group consisting of Group VI B, Group VII B and Group VIII metals.

Abstract: A method is provided for preparing a porous catalyst carrier having a pore volume of at least 0.5 cc/g, a content of micropores in which the pore diameter is between 80 and 150 A. which constitutes at least 70% of the pore volume and a content of macropores which constitutes less than 3% of the pore volume. In the method, a powdered solid comprised of predominantly alpha-alumina monohydrate and sized in the range below 500 microns is treated with a particular amount of a monobasic acid. The acid in the resulting mixture is then at least partially neutralized by admixing with a nitrogen base such as aqueous ammonia. The treated and neutralized feed is converted into a catalyst carrier by shaping as desired, drying, and calcining. Further aspects of the invention are a hydrodesulfurization catalyst prepared using the present carrier and a hydrodesulfurization process for metals-contaminated hydrocarbon feeds using the catalyst.

Abstract: A process is disclosed for the production of high octane gasoline and/or other valuable lower molecular weight products from carbo-metallic oils. Examples include crude oil, topped crude, reduced crude, residua, the extract from solvent de-asphalting and other heavy hydrocarbon fractions. These carbo-metallic oils contain quantities of coke precursors and heavy metal catalyst poisons substantially in excess of what is normally considered acceptable for FCC processing (fluid catalytic cracking) and substantial amounts of sulfur, nitrogen and other troublesome components may also be present. Such carbo-metallic oils are converted to the desired products in a catalytic conversion process. Named "RCC" (Reduced Crude Conversion) after a particularly common or useful carbo-metallic feed, the present process is by no means restricted to reduced crude or to oils of petroleum origin, having utility in the processing of oils from coal, shale and other sources.

Abstract: A process for catalytically cracking a hydrocarbonaceous feedstock employing a dual component catalyst. The process is conducted under catalytic cracking conditions, preferably in a single stage, in the absence of added hydrogen. The dual component catalyst composition comprises an essentially alumina-free crystalline silicate component and a large pore size crystalline alumino-silicate cracking component.

Abstract: Normal aliphatic hydrocarbons in a hydrocarbon feed are selectively cracked or hydrocracked by contacting the feed with a catalyst composition comprising a crystalline acid aluminosilicate of the erionite variety (offretite) having a pore size of about 5 Angstroms and a silicon to aluminum ratio of at least 1.8, said aluminosilicate having been prepared by ion exchange with an aqueous medium containing a source of hydrogen ions or ions capable of conversion thereto, e.g., ammonium ions.

Abstract: A passivation process for decreasing the poisonous effects from contamination by metals that can occur during the catalytic conversion of hydrocarbon feedstocks containing such metals is disclosed. The process employs compositions of organic or aqueous media containing one or more at least partially soluble species of aluminum.

Abstract: A low temperature method of calcining a zeolitic catalyst and the product of the method, the method comprising reducing the water content of the catalyst to less than 1.5 wt. % by contacting the catalyst with a water-miscible organic fluid and thereafter calcining the catalyst at a temperature of less than about 1200.degree. F.

Abstract: A hydrocarbon is catalytically cracked employing a cracking catalyst contacted with a treating agent selected from germanium and germanium compounds.