Abstract: A regioselective acetylation process is provided for converting a 2-methylnaphthalene compound to a 2-acetyl-6-methylnaphthalene compound. The process is conducted under liquid phase conditions using a new complexing agent which is regiospecific for the beta position of naphthalene and which is an electron-rich, carbon-based compound. A preferred such agent is hexamethylbenzene. Also provided is a novel method for producing a 2-acetyl-6-methylnaphthalene compound of relative high purity from isomer mixtures by recrystallization from a hydrocarbon solvent, such as n-octane, isooctane, or n-nonane.
Type:
Grant
Filed:
March 1, 1990
Date of Patent:
June 25, 1991
Assignee:
Amoco Corporation
Inventors:
Gary P. Hagen, Gregory E. Schmidt, John M. Weis, Thomas G. Smith
Abstract: A regioselective process is provided for preparing 4-bromo-o-xylene in an isomer mixture of 4-bromo-o-xylene and 3-bromo-o-xylene by combining bromine with o-xylene in liquid sulfur dioxide medium. A bromine to o-xylene mole ratio of about 0.4:1 to about 1:1 is utilized at a temperature in the range of about -20.degree. C. to about 40.degree. C. While preferred temperatures are in the about -15.degree. C. to about -9.degree. C. range, temperatures above about -9.degree. C. can be used by maintaining the reactant solution under pressure. A product isomer mixture can be isolated by vacuum distillation. A 92:8 weight ratio mixture of 4-bromo-o-xylene and 3-bromo-o-xylene is thus obtainable.
Abstract: An oxidative coupling catalyst composition for converting methane to a higher hydrocarbon comprising a mixed oxide of: a) a Group IIIB metal selected from the group consisting of yttrium, scandium and lanthanum; b) a Group IIA metal selected from the group consisting of barium, calcium and strontium; and c) a Group IVA metal selected from the group consisting of tin, lead and germanium and wherein the cationic species are present in the approximate ratio of 1:0.5-3:2-4, respectively, and an improved process employing same.
Type:
Grant
Filed:
July 19, 1989
Date of Patent:
June 18, 1991
Assignee:
Amoco Corporation
Inventors:
Mark P. Kaminsky, Mark S. Kleefisch, George A. Huff, Don M. Washecheck, Aileen E. Alvarado-Swaisgood, Mark K. Barr
Abstract: Novel maleic anhydride catalysts comprising phosphorus-vanadium oxides and phosphorus-vanadium-co-metal oxides wherein said catalysts do not expand under reaction conditions for the manufacture of maleic anhydride and a process for preparing these catalysts are disclosed. The process comprises reacting a vanadium compound with a phosphoryl halide in the presence of water in an atmosphere comprising at least about 0.1% oxygen wherein the molar ratio of water to phosphorus from the phosphoryl halide is in the range of about 2.25:1 to about 3.75:1.
Abstract: A high density, substantially oxide-free metal layer is deposited by spray deposition on a substrate in an atmosphere containing ambient air having an oxygen content above about 0.1% by weight. This is accomplished by directing a supersonic-velocity jet stream of hot gases carrying metal particles at the substrate through an inert gas shroud. The layer is useful as a corrosion barrier and for repairing metal substrates.
Abstract: An apparatus and method capable of automated flow rate measurements of thermoplastic polymers which includes mechanisms for automatically loading a test polymer into a test cavity of a heating block and mechanisms for automatically cleaning the test cavity and a piston rod movable therein. The test cavity can be provided in the heating block or can be defined by a sleeve/die insert which also serves as a sample receiving cavity and which is movable into and out of a heating block for carrying out a rheological test of polymer material received in the sleeve/die insert.
Type:
Grant
Filed:
June 7, 1989
Date of Patent:
May 21, 1991
Assignee:
Amoco Corporation
Inventors:
Jerome J. Marcec, James O. Phillips, Albert T. Grzybowski, Bohdan Grzybowski
Abstract: A method for converting methane to higher molecular weight hydrocarbons wherein hot oxidative coupling reactor effluent is briefly contacted with a C.sub.2 to C.sub.20 alkane quench material to remove part of the heat contained in the raw reactor effluent, and is then further quenched by thermal quenching means to achieve a temperature which discourages retrograde reactions.
Type:
Grant
Filed:
July 6, 1989
Date of Patent:
May 14, 1991
Assignee:
Amoco Corporation
Inventors:
Robert H. Walker, Paul A. Willems, George A. Huff, Lewis E. Grimes, David F. Tatterson, Robert L. Mehlberg
Abstract: Removal of the small amount of lower molecular weight olefins produced by certain isomerization catalysts during the catalytic isomerization of xylene results in reduced xylene loss. Such removal can be conveniently effected by use of a mild hydrogenation catalyst separate from the isomerization catalyst in the process.
Abstract: A process is disclosed for preparing a composition comprising a polybutyl ketone and a hydroxyester of an epoxidized polybutene wherein the epoxide groups of said epoxidized polybutene are at least 70% trisubstituted. Acid compounds are reacted with epoxidized polybutenes to obtain compositions of increased reactivity as compared with polybutyl ketone compounds. These compositions are useful as chemical intermediates to modify such materials as polyesters and polyurethenes, for applications such as coatings, foams, and sealants.
Abstract: An early meltdown process of wax sweating is provided which enhances the efficiency, quality, product yield, and throughput of wax. In the early meltdown process, slack wax is crystallized. The crystallized was is then sweated while simultaneously draining the liquid drippings from the sweating oven. The congealing point of the liquid drippings are monitored. When the congealing point of the liquid drippings indicate that the melting temperature of the desired wax product has been obtained, sweating and drainage are stopped, and the remaining solid bed of wax in the sweating oven is rapidly melted and subsequently upgraded.
Abstract: A hydrotreating process if provided in which resid and resins are hydrotreated with hydrogen-rich gases in the presence of a hydrotreating catalyst in an ebullated bed reactor.
Type:
Grant
Filed:
July 18, 1989
Date of Patent:
May 7, 1991
Assignee:
Amoco Corportion
Inventors:
James F. Mosby, Lawrence B. Peck, James L. Taylor, William I. Beaton
Abstract: A solid hydrocarbon-insoluble, alpha-olefin polymerization catalyst component with superior activity, stereospecificity and morphology characteristics comprises the product formed by (A) forming a solution of a magnesium-containing species from a magnesium carbonate or a magnesium carboxylate; (B) precipitating solid particles from such magnesium-containing solution by treatment with a transition metal halide and an organosilane; (C) reprecipitating such solid particles from a mixture containing a cyclic ether; and (D) treating the reprecipitated particles with a transition metal compound and an electron donor.
Type:
Grant
Filed:
November 9, 1989
Date of Patent:
May 7, 1991
Assignee:
Amoco Corporation
Inventors:
Gregory G. Arzoumanidis, Nicholas M. Karayannis, Habet M. Khelghatian, Sam S. Lee, Bryce V. Johnson
Abstract: A method for preparing one or more dimethylnaphthalenes from one or more dimethyltetralins, and optionally for preparing one or more other specific dimethylnaphthalenes by isomerization of the aforesaid dimethylnaphthal-dimethylnaphthalene(s) is disclosed.
Type:
Grant
Filed:
February 27, 1989
Date of Patent:
April 30, 1991
Assignee:
Amoco Corporation
Inventors:
David L. Sikkenga, Ian C. Zaenger, Gregory S. Williams
Abstract: Viscous, liquid polybutenes of at least 50 wt. % vinylidene content are disclosed together with a procedure for preparing the compounds using an aluminum chloride-organic nitro compound catalyst.
Abstract: Described are blends of a crystalline poly(aryl ether ketone) and a polyarylate and/or a liquid crystalline polyarylate. These blends exhibit improved mechanical properties and environmental stress rupture resistance.
Abstract: A continuous process for production of maleic anhydride is disclosed wherein maleic anhydride is produced in high yield and catalyst productivity is in the range of from about 0.12 to about 0.18 pounds of maleic anyhdride produced per pound of catalyst per hour. The catalyst comprises vanadium-phosphorus-oxygen and a modifier, preferably molybdenum. The increased catalyst productivity substantially increases production rates without necessity for extensive equipment modification.
Abstract: A process of concurrently dedusting and upgrading particulate laden raw, whole retort oil is provided which comprises the steps of: retorting solid hydrocarbon-containing material such as oil shale to liberate an effluent stream of dust laden hydrocarbons; injecting the dust-laden retort effluent product stream into a catalytic hydrotreater; agitating the product stream in the hydrotreater to constantly maintain the particulates in suspension within the oil; catalytically hydrotreating the agitated product stream in the presence of a hydroprocessing gas at a pressure of from 500 to 3000 psi, a temperature of from 650.degree. to 850.degree. F. and a space velocity of from 0.1 to 6.0 hr.sup.-1, whereby the suspended particulates are agglomerated to facilitate solid-liquid separation and substantial amounts of sulfur and nitrogen contaminants are simultaneously removed from the resulting ungraded oil; and mechanically separating the agglomerated particulates from the upgraded whole oil.
Type:
Grant
Filed:
August 31, 1988
Date of Patent:
April 23, 1991
Assignee:
Amoco Corporation
Inventors:
Jeffrey T. Miller, Albert L. Hensley, Jr.
Abstract: A process for the production of trimellitic anhydride with improved color properties disclosed. This process comprises treating trimellitic anhydride with an activated silicon compound followed by fractionation and at temperatures of about 200.degree. to about 300.degree. C. and a decreasing pressure of about 1 to about 25 mm Hg. Trimellitic anhydride is used in the manufacture of polyesters and polyamides-imides.
Abstract: Disclosed is an improved process for the hydrodemetallization, hydrodesulfurization, hydrodenitrogenation, and hydroconversion of a hydrocarbon feedstock containing asphaltenes, metals and Shell hot filtration solids precursors. The process utilizes a catalyst mixture wherein one component of the mixture is a relatively small pore catalyst and another component is a catalyst that possesses a relatively large amount of macropore volume.
Type:
Grant
Filed:
March 30, 1990
Date of Patent:
April 23, 1991
Assignee:
Amoco Corporation
Inventors:
Frederick T. Clark, Albert L. Hensley, Jr., David Lyzinski, Lawrence B. Peck