Using Group Viii Metal-containing Catalyst With Additional Nonhydrocarbon Agent Patents (Class 585/269)
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Patent number: 6812369Abstract: A composition comprises a hydrogenation catalyst supported on an inorganic support which comprises aluminum, zirconium, and a borate. A process for producing the composition comprises the steps of (1) contacting an aluminum salt, a zirconium salt, and an acidic boron compound under a condition sufficient to effect the production of a solid material comprising aluminum, zirconium, and borate; and (2) combining a hydrogenation catalyst with the inorganic support. Also disclosed is a process for reducing aromatic compounds content in a hydrocarbon-containing fluid which comprises contacting a hydrocarbon-containing fluid, in the presence of a catalyst composition, with hydrogen wherein said catalyst composition comprises a hydrogenation catalyst and an inorganic support wherein said support comprises aluminum, zirconium and a borate.Type: GrantFiled: August 7, 2002Date of Patent: November 2, 2004Assignee: ConocoPhillips CompanyInventor: Lyle R. Kallenbach
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Publication number: 20040181103Abstract: The present invention pertains to a process for effecting aromatics hydrogenation which process comprises contacting a hydrocarbon feedstock which contains 10-80 vol.Type: ApplicationFiled: May 4, 2004Publication date: September 16, 2004Inventors: Robertus Gerardus Leliveld, Ron Staadegaard, Marinus Bruce Cerfontain, Xavier Gilles Gerard Leopold Vanhaeren
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Publication number: 20040030208Abstract: The present invention relates to an improved process for the hydrogenation of aromatics in hydrocarbon feedstocks containing thiopheneic compounds as impurities, the aromatics hydrogenation being conducted in a hydrogenation reactor in the presence of a nickel based catalyst. The improvement comprises operating the hydrogenation reactor at a reaction temperature sufficiently high from the start of a run, that the thiopheneic compounds are decomposed and substantially absorbed into the bulk of the nickel catalyst, thereby substantially extending the life of the catalyst.Type: ApplicationFiled: August 7, 2002Publication date: February 12, 2004Inventors: Paul Benjerman Himelfarb, Charles Eugene Wilson
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Patent number: 6676919Abstract: The invention relates to a method for producing catalysts by immersion coating a metallic support with at least one platinum metal. An aqueous medium which comprises at least one platinum metal complex, at least one reduction agent and at least one complexer and which has a pH value of more than 4 is brought into contact with the metallic support in order to deposit the platinum metal, the platinum metal being deposited in the form of discreet, immobilised particles. The invention also relates to the catalysts obtained using this method and to their use for producing hydrogen peroxide and for hydrogenating organic compounds.Type: GrantFiled: October 4, 2001Date of Patent: January 13, 2004Assignee: BASF AktiengesellschaftInventors: Martin Fischer, Markus Hölzle, Stefan Quaiser, Achim Stammer
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Patent number: 6670515Abstract: A material composed of ultrafine particles, comprising at least a metal element M having catalytic properties and at least a metal element M′ having a standard oxidation potential less than that of M, part at least of M′ atoms being in oxidized form, the average size of the particles being less than 50 nm, at least 80% in number of the particles having an average size less than 10 nm. One particle of the material is constituted by at least a metal element M with oxidation level 0, or by at least a metal element M′ in oxidized form, or by at least a metal element M′ with oxidation level 0, or by the combination of at least two species selected from the three previous species. The material is useful as a catalyst for hydrogenation or coupling reactions.Type: GrantFiled: August 16, 2001Date of Patent: December 30, 2003Assignee: Centre National de la Recherche ScientifiqueInventors: Jean-Marie Dubois, Yves Fort, Olivier Tillement
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Publication number: 20030114723Abstract: A process for producing cyclohexane by benzene hydrogenation using a hydrogen source that contains impurities, such as carbon monoxide and/or light hydrocarbons, wherein a supported catalyst reduces benzene to cyclohexane and carbon monoxide to methane and water. Alkenes, such as ethylene, are also reduced to their alkane counterparts. Under the disclosed operating conditions, the process proceeds without deactivation of the catalyst, and without the formation of a significant amount of cracking products, such as methylcyclopentane.Type: ApplicationFiled: August 20, 2002Publication date: June 19, 2003Applicant: Huntsman Petrochemical CorporationInventors: John Ronald Sanderson, Terry Lee Renken, Michael Wayne McKinney
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Patent number: 6509510Abstract: Process for hydrogenating aromatic polymers in the presence of catalysts, wherein a metal or mixture of metals from group VIII of the Periodic Table together with a support of silicon dioxide, aluminium dioxide or a mixture thereof is used as the catalyst, and the catalyst pore volume defined by pores of diameters between 100 and 1000 Å, measured by mercury porosimetry, is generally from 100 to 15%, in relation to the total pore volume, measured by mercury porosimetry.Type: GrantFiled: January 16, 2001Date of Patent: January 21, 2003Assignees: Bayer Aktiengesellschaft, Teijin Ltd.Inventors: Volker Wege, Johann Rechner, Eberhard Zirngiebl
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Patent number: 6506953Abstract: There is described a process the hydroalkylation of an aromatic hydrocarbon, particularly benzene, to produce a cycloalkyl-substituted aromatic compound, particularly cyclohexylbenzene, comprising the step of contacting the aromatic hydrocarbon with hydrogen in the presence of a catalyst comprising MCM-68 and at least one metal having hydrogenation activity.Type: GrantFiled: January 24, 2000Date of Patent: January 14, 2003Assignee: ExxonMobil Oil CorporationInventors: Jane Chi-Ya Cheng, Ajit B. Dandekar, Michael Alan Steckel, Hye Kyung Cho Timken
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Patent number: 6500329Abstract: A two stage process useful for cetane upgrading of diesel fuels. More particularly, the invention relates to a process for selective naphthenic ring-opening utilizing an extremely low acidic distillate selective catalyst having highly dispersed Pt. The process is a two stage process wherein the first stage is a hydrotreating stage for removing sulfur from the feed and the second stage is the selective ring-opening stage.Type: GrantFiled: October 16, 2001Date of Patent: December 31, 2002Assignee: ExxonMobil Research and Engineering CompanyInventors: Ying-Yen P. Tsao, Tracy J. Huang, Philip J. Angevine
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Publication number: 20020188161Abstract: A composition comprises a hydrogenation catalyst supported on an inorganic support which comprises aluminum, zirconium, and a borate. A process for producing the composition comprises the steps of (1) contacting an aluminum salt, a zirconium salt, and an acidic boron compound under a condition sufficient to effect the production of a solid material comprising aluminum, zirconium, and borate; and (2) combining a hydrogenation catalyst with the inorganic support. Also disclosed is a process for reducing aromatic compounds content in a hydrocarbon-containing fluid which comprises contacting a hydrocarbon-containing fluid, in the presence of a catalyst composition, with hydrogen wherein said catalyst composition comprises a hydrogenation catalyst and an inorganic support wherein said support comprises aluminum, zirconium and a borate.Type: ApplicationFiled: August 7, 2002Publication date: December 12, 2002Inventor: Lyle R. Kallenbach
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Patent number: 6492525Abstract: The invention concerns novel organometallic complexes comprising cationic heterocyclic carbenes. It also concerns a method for preparing said complexes from dicationic heterocyclic precursor compounds. It further concerns the use as catalysts of said organometallic complexes for a certain number of chemical reactions.Type: GrantFiled: June 21, 2001Date of Patent: December 10, 2002Assignee: Rhodia Fiber & Resin IntermediatesInventors: Guy Bertrand, Lutz Stelzig, Olivier Guerret, Christophe Buron, Heinz Gornitzka, Paolo Burattin
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Patent number: 6482997Abstract: In a catalyst process involving a conversion reaction for organic compounds, e.g. hydrogenations, the catalyst contains at least one support and at least one metal, and is characterized in that it has particles of an average size greater than approximately 1 nm, and more than 80% of particles, the size of which is comprised in the range D±(D.0.2) where D represents the average size of the particles. The catalyst is prepared in a colloidal suspension, in aqueous phase, of the metal oxide or metals to be supported, then depositing this suspension on a support, and optionally reducing the oxide thus supported.Type: GrantFiled: November 30, 2000Date of Patent: November 19, 2002Assignee: Institut Francais du PetroleInventors: Carine Petit-Clair, Blaise Didillon, Denis Uzio
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Patent number: 6462244Abstract: A hydrogenation catalyst which is sulfur tolerant and which includes from about 0.1 to about 1 percent platinum by weight and from 0.2 to about 2 percent by weight palladium on a predominantly theta alumina carrier. Also disclosed is a process for the manufacture and use of the hydrogenation catalyst.Type: GrantFiled: October 2, 2001Date of Patent: October 8, 2002Assignee: Sũd-Chemie Inc.Inventors: Dinah C. Huang, William M. Faris, P. Donald Hopkins, Paul Jerus
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Patent number: 6451198Abstract: A process for transforming a gas oil cut into a dearomatized fuel with a high cetane number comprises at least one first, deep desulphurization and deep denitrogenation step in which the gas oil cut and hydrogen are passed over a catalyst comprising a mineral support, at least one group VIB metal or metal compound, at least one group VIII metal or metal compound, and phosphorous or at least one phosphorous compound, and at least one subsequent second step, dearomatization, in which the desulphurized and denitrogenated product from the first step is passed with hydrogen over a catalyst comprising a mineral support and at least one group VIII noble metal or noble metal compound.Type: GrantFiled: March 22, 2001Date of Patent: September 17, 2002Assignee: Institut Francais du PetroleInventors: Frédéric Morel, Henri Delhomme, Nathalie George-Marchal
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Patent number: 6444865Abstract: Catalyst comprising from 0.1 to 15% by weight of a noble metal selected from one or more of platinum, palladium, and iridium, from 2 to 40% by weight of manganese and/or rhenium supported on an acidic carrier, these weight percentages indicating the amount of metal based on the total weight of carrier. Use of this catalyst in a process wherein a hydrocarbon feedstock comprising aromatic compounds is contacted with the catalyst at elevated temperature and pressure in the presence of hydrogen. Process for the preparation of this catalyst, which process comprises incorporating the catalytically active metals into the carrier followed by drying and calcining.Type: GrantFiled: August 1, 2000Date of Patent: September 3, 2002Assignee: Shell Oil CompanyInventors: Guy Barre, Taous Grandvallet Mahtout
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Patent number: 6441242Abstract: Benzylacetone can be prepared by hydrogenating benzylideneacetone in the presence of a palladium catalyst on activated carbon and/or a palladium catalyst on aluminum oxide.Type: GrantFiled: September 5, 2001Date of Patent: August 27, 2002Assignee: Haarmann & Reimer GmbHInventors: Walter Kuhn, Hans-Ulrich Funk, Gerhard Senft
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Patent number: 6432868Abstract: The invention concerns a catalyst comprising at least two group VIII metals, chlorine, fluorine, and at least one amorphous oxide matrix. The catalytic composition is such that the fluorine content is 1.5% by weight or more of the total catalyst mass. The invention also concerns the use of this catalyst in hydrogenating aromatic compounds contained in feeds comprising sulphurated compounds.Type: GrantFiled: November 9, 2000Date of Patent: August 13, 2002Assignee: Institut Francais du PetroleInventors: Nathalie Marchal-George, Slavik Kasztelan
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Patent number: 6423664Abstract: The invention concerns a catalyst comprising at least one group VIII metal, at least one additional metal, at least two halogens, including chlorine and fluorine, and at least one amorphous oxide matrix. The catalytic composition is such that the fluorine content is 1.5% by weight or more of the total catalyst mass. The invention also concerns the use of this catalyst in hydrogenating aromatic compounds contained in feeds comprising sulphurated compounds.Type: GrantFiled: November 9, 2000Date of Patent: July 23, 2002Assignee: Institut Francais du PetroleInventors: Nathalie Marchal-George, Slavik Kasztelan
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Patent number: 6344593Abstract: Cyclohexene is prepared by partial hydrogenation of benzene with hydrogen in the presence of water and ruthenium catalyst at elevated temperature and superatmospheric pressure by a continuous process in which benzene is introduced in gaseous form and the resulting cyclohexene is discharged in gaseous form and the catalyst is present in solution or suspension in a liquid, aqueous phase.Type: GrantFiled: July 6, 1995Date of Patent: February 5, 2002Assignee: BASF AktiengesellschaftInventors: Johann Gaube, Frank Doebert
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Patent number: 6307116Abstract: A process for preparing a supported catalyst comprising a transition metal selected from palladium, platinum, nickel, cobalt or copper on an aerogel support, which includes the steps of providing a mixture containing an alkoxide precursor of the aerogel, a chelate complex of the transition metal with a chelating agent having Si(OR)3 anchor groups, and an organic solvent in which the chelate complex is soluble; hydrolyzing the mixture by admixing it with water to form a gel; and converting the gel under supercritical conditions into the transition metal aerogel-supported catalyst. The supported catalyst has an especially homogeneous distribution of the metal component and is suitable, for example, for use as a hydrogenation catalyst.Type: GrantFiled: June 15, 1995Date of Patent: October 23, 2001Inventors: Benoî ;t Heinrichs, Jean-Paul Pirard, René Pirard
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Publication number: 20010027937Abstract: A process, preferably in a counter-current configuration, for selectively cracking carbon-carbon bonds of naphthenic species using a low acidic catalyst, preferably having a crystalline molecular sieve component and carrying a Group VIII noble metal. The diesel fuel products are higher in cetane number and diesel yield.Type: ApplicationFiled: May 16, 2001Publication date: October 11, 2001Inventors: Ying-Yen P. Tsao, Tracy J. Huang, Philip J. Angevine
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Patent number: 6296759Abstract: The invention concems a process for hydrogenation, hydroisomerization and/or hydrodesulfurization of a sulfur contaminant containing hydrocarbon feedstock, wherein the feedstock is contacted in the presence of hydrogen gas with a catalyst, which catalyst comprises platinum, palladium or a combination thereof on a non-crystalline, acidic silica-alumina support, which support is obtained by sol-gel techniques and wherein the ratio of Si to Al is from 1:10 to 200:1.Type: GrantFiled: November 5, 1999Date of Patent: October 2, 2001Assignee: Engelhard CorporationInventors: Marinus Vaarkamp, Bernard Hendrik Reesink, Pieter Hildegardus Berben
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Patent number: 6280608Abstract: This invention relates to a layered catalyst composition, a process for preparing the composition and processes for using the composition. The catalyst composition comprises an inner core such as alpha-alumina, and an outer layer bonded to the inner core composed of an outer refractory inorganic oxide such as gamma-alumina. The outer layer has uniformly dispersed thereon a platinum group metal such as platinum and a promoter metal such as tin. The composition also contains a modifier metal such as lithium. The catalyst composition shows improved durability and selectivity for dehydrogenating hydrocarbons.Type: GrantFiled: May 30, 2000Date of Patent: August 28, 2001Assignee: UOP LLCInventors: Robert H. Jensen, Jeffery C. Bricker, Qianjun Chen, Masaru Tatsushima, Kenji Kikuchi, Masao Takayama, Koji Hara, Isao Tsunokuma, Hiroyuki Serizawa
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Patent number: 6281397Abstract: A catalytic composition effective in the selective hydrogenation of olefinic double bonds, comprising the reaction product between: (A) at least one complex of a transition metal having the following general formula (I): M(R1)(R2)(R3)(R4) (I) wherein: M is selected from titanium and zirconium, preferably titanium; each of the radicals R1, R2, R3 or R4, independently, represents an organic or inorganic group of an anionic nature &sgr;-bound to M, on the condition that at least one, and preferablyat at least two, of these radicals is an organic group; and (B) at least one organometallic compound of magnesium having the following formula (II): Mg(R5)n(R6)(2−n) (II) wherein: R5 or R6 each independently represent an aliphatic or aromatic hydrocarbon group having from 1 to 20 carbon atoms, and “n” is a decimal number between 0 and 2.0.Type: GrantFiled: January 22, 1999Date of Patent: August 28, 2001Assignee: Enichem S.p.A.Inventors: Roberto Santi, Francesco Masi, Gianfranco Longhini
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Patent number: 6281163Abstract: The invention is directed to hydrogenation catalyst particles based on nickel or cobalt and a support, incorporated in a matrix of hardened oil or a derivative thereof, which matrix material is solid at a temperature of 25° C., said particles having an average weight of at least 120 mg and an average height of at least 2.8 mm.Type: GrantFiled: April 18, 1997Date of Patent: August 28, 2001Assignee: Engelhard de Meern B.V.Inventor: Gustaaf J. M. Van Dijk
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Patent number: 6255530Abstract: Six-membered ring carbocycles of the formula (II) can be prepared by ring hydrogenation of aromatic compounds of the formula (I) the definitions for which are given in the description, in a reaction system consisting of two liquid, immiscible phases in which elemental hydrogen is dispersed. The first phase consists of the aromatic compound (I) and, if necessary, a water-immiscible solvent. The second phase is essentially aqueous and comprises, colloidally dispersed therein, a hydrogenation-active metal as hydrogenation catalyst, and auxiliaries for stabilizing the colloidal catalyst. The process is carried out at from 50 to 180° C. and from 1 bar to 400 bar.Type: GrantFiled: February 22, 1999Date of Patent: July 3, 2001Assignee: Bayer AktiengesellschaftInventors: Rolf William Albach, Manfred Jautelat
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Patent number: 6241876Abstract: A process, preferably in a counter-current configuration, for selectively cracking carbon-carbon bonds of naphthenic species using a low acidic catalyst, preferably having a crystalline molecular sieve component and carrying a Group VIII noble metal. The diesel fuel products are higher in cetane number and diesel yield.Type: GrantFiled: June 11, 1999Date of Patent: June 5, 2001Assignee: Mobil Oil CorporationInventors: Ying-Yen P. Tsao, Tracy J. Huang, Philip J. Angevine
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Patent number: 6221239Abstract: A process for transforming a gas oil cut into a dearomatised fuel with a high cetane number comprises at least one first, deep desulphurisation and deep denitrogenation step in which the gas oil cut and hydrogen are passed over a catalyst comprising a mineral support, at least one group VIB metal or metal compound, at least one group VIII metal or metal compound, and phosphorous or at least one phosphorous compound, and at least one subsequent second step, dearomatisation, in which the desulphurised and denitrogenated product from the first step is passed with hydrogen over a catalyst comprising a mineral support and at least one group VIII noble metal or noble metal compound.Type: GrantFiled: January 10, 2000Date of Patent: April 24, 2001Assignee: Institut Francais du PetroleInventors: Frédéric Morel, Henri Delhomme, Nathalie George-Marchal
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Patent number: 6210563Abstract: A process is provided for selectively producing diesel fuel with increased cetane number from a hydrocarbon feedstock. The process includes contacting the feedstock with a catalyst which has a large pore crystalline molecular sieve material component having a faujasite structure and alpha acidity of less than 1, preferably about 0.3 or less. The catalyst also contains a dispersed Group VIII noble metal component which catalyzes the hydrogenation/hydrocracking of the aromatic and naphthenic species in the feedstock.Type: GrantFiled: December 30, 1998Date of Patent: April 3, 2001Assignee: Mobil Oil CorporationInventors: Ying-Yen P. Tsao, Tracy J. Huang, Philip J. Angevine
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Patent number: 6207870Abstract: The invention provides a catalyst including a support, at least one noble metal from group VIII of the periodic table, silicon as a dopant, optionally boron, optionally at least one group VIB element, optionally phosphorous and optionally at least one halogen. The invention also provides a particular preparation of the catalyst. The invention also concerns the use of this catalyst in the hydrotreatment of hydrocarbon-containing feeds, more particularly its use for hydrogenating aromatic compounds in a gas oil cut.Type: GrantFiled: May 6, 1999Date of Patent: March 27, 2001Assignee: Institut Francais du PetroleInventors: Slavik Kasztelan, Samuel Mignard, Virginie Harle, Nathalie Marchal-George
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Patent number: 6203695Abstract: A process for hydrotreating a hydrocarbon feed, comprising subjecting said feed to hydrotreating conditions in the presence of a catalyst comprising an essentially alumina-based extruded support, essentially constituted by a plurality of juxtaposed agglomerates, optionally at least one catalytic metal or a compound of a catalytic metal from group VIB (group 6 of the new periodic table notation) and/or optionally, at least one catalytic metal or a compound of a catalytic metal from group VIII (group 8, 9 and 10 of the new periodic table notation), in which the sum S of the group VIB and VIII metals, expressed as the oxides, is 0% to 50% by weight, and wherein each of these agglomerates is partly in the form of packs of flakes and partly in the form of needles, said needles being uniformly dispersed both about the packs of flakes and between the flakes, in which the alumina agglomerates are obtained by forming a starting alumina originating from rapid dehydration of hydrargillite and in which the amount of alumType: GrantFiled: March 17, 2000Date of Patent: March 20, 2001Assignee: Institut Francais du PetroleInventors: Virginie Harle, Slavik Kazstelan, Frédéric Morel, Stéphane Kressmann, Philippe Courty
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Patent number: 6175046Abstract: There is provided a catalyst that is highly resistant to sulfur and nitrogen compounds and active for hydrogenation and shows a low hydrocracking rate and a long service life as well as a method of converting aromatic hydrocarbons in hydrocarbon oil containing sulfur and nitrogen compounds into saturated hydrocarbons by using such a catalyst. A method of hydrogenating aromatic hydrocarbons in hydrocarbon oil containing 80 wt % or more of a fraction having a boiling point of 170 to 390° C. and said aromatic hydrocarbons is characterized in that the hydrocarbon oil is brought into contact with hydrogen in the presence of a catalyst containing clay minerals having principal ingredients of Si and Mg as carrier and at least one of the VIII-group metals of periodic table as active metal.Type: GrantFiled: May 13, 1998Date of Patent: January 16, 2001Assignee: Nippon Oil Company, LimitedInventors: Toshiyuki Enomoto, Yasuo Nakatsuka, Takashi Ino, Minoru Hatayama
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Patent number: 6153805Abstract: A process for the obtention of low impurity cyclohexane content, practically methylcyclopentane (MCP) free, by catalytic hydrogenation of benzene in gas phase in the presence of group VIII metal catalyzers. The catalytic hydrogenation is performed in the presence of ammonia or nitrogenated organic basis as MCP formation inhibitors, being incorporated in a 0.2 to 100 ppm concentration.Type: GrantFiled: June 18, 1999Date of Patent: November 28, 2000Assignee: YPF S.A.Inventor: Anibal Miguel Jose
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Patent number: 6077983Abstract: A method for recovering the activity of a ruthenium catalyst which comprises a step of bringing a ruthenium catalyst decreased in activity by its use in hydrogenation of an unsaturated organic compound into contact with oxygen in a liquid phase, and a step of maintaining the catalyst at a hydrogen partial pressure lower than that at the hydrogenation and a temperature not lower than a temperature lower by 50.degree. C. than the hydrogenation temperature.Type: GrantFiled: April 30, 1998Date of Patent: June 20, 2000Assignee: Asahi Kasei Kogyo Kabushiki KaishaInventors: Mitsuji Ono, Masashi Nonaka
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Patent number: 6042716Abstract: A process for transforming a gas oil cut into a dearomatized fuel with a high cetane number comprises at least one first, deep desulphurization and deep denitrogenation step in which the gas oil cut and hydrogen are passed over a catalyst comprising a mineral support, at least one group VIB metal or metal compound, at least one group VIII metal or metal compound, and phosphorous or at least one phosphorous compound, and at least one subsequent second step, dearomatization, in which the desulphurized and denitrogenated product from the first step is passed with hydrogen over a catalyst comprising a mineral support and at least one group VIII noble metal or noble metal compound.Type: GrantFiled: December 18, 1997Date of Patent: March 28, 2000Assignee: Institut Francais du PetroleInventors: Frederic Morel, Henri Delhomme, Nathalie George-Marchal
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Patent number: 6040263Abstract: A novel non-aqueous catalytic composition comprises at least one quaternary ammonium and/or phosphonium salt in which the anion is selected from the group consisting of tetrafluoroborate, tetrachloroborate, hexafluorophosphate, hexafluoroantimonate, hexafluoroarsenate, trifluorosulphonate, fluorosulphonate, trifluoromethylsulphonate, trifluoroarsenate, dichlorocuprate, trichlorocuprate, tetrachlorocuprate, and trichlorozincate, and at least one complex of a transition metal from groups 8, 9 or 10, i.e., iron, ruthenium, colbalt, rhodium iridium, nickel, palladium and platinum. The catalyst can be used in a process of total or selective hydrogenation of unsaturated compounds such as monoolefins, diolefins, acetylene compounds, aromatic compounds, or polynuclear aromatic compounds. Hydrogenation may be accompanied by isomerisation.Type: GrantFiled: September 15, 1998Date of Patent: March 21, 2000Assignee: Institut Francais du PetroleInventors: Lothar Mussmann, Yves Chauvin, Helene Olivier
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Patent number: 6037513Abstract: There is described a process and a catalyst for the hydroalkylation of an aromatic hydrocarbon, particularly benzene, wherein the catalyst comprises a first metal having hydrogenation activity and a crystalline inorganic oxide material having a X-ray diffraction pattern including the following d-spacing maxima 12.4.+-.0.25, 6.9.+-.0.15, 3.57.+-.0.07 and 3.42.+-.0.07.Type: GrantFiled: July 9, 1998Date of Patent: March 14, 2000Assignee: Mobil Oil CorporationInventors: Clarence D. Chang, Jane C. Cheng, Terry E. Helton, Michael A. Steckel, Scott A. Stevenson
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Patent number: 6013847Abstract: Benzene is hydrogenated using a platinum containing catalyst in the presence of water and an organic chloride.Type: GrantFiled: December 31, 1998Date of Patent: January 11, 2000Assignee: Phillips Petroleum CompanyInventor: Fan-Nan Lin
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Patent number: 5986154Abstract: The invention concerns a process for the hydrogenation of aromatic compounds contained in feeds with an initial boiling point of more than 100.degree. C. and which contain at least 10% by weight of aromatic compounds. It consists of introducing chlorine in a concentration of 0.5-500 ppm by weight with respect to the feed at a temperature of between 200.degree. C. and 450.degree. C., a pressure in the range 1 MPa to 25 MPa, an HSV of between 0.1 h.sup.-1 and 10 h.sup.-1 and a volume ratio of hydrogen to feed of 100-2000. The catalyst used is a noble metal type and contains less than 1% of at least one halogen. Preferably, the catalyst is fluorinated or chlorinated.Type: GrantFiled: June 26, 1998Date of Patent: November 16, 1999Assignee: Institut Francais du PetroleInventors: Samuel Mignard, Virginie Harle, Slavik Kasztelan, Nathalie Marchal-George
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Patent number: 5973218Abstract: A process for producing a cycloolefin by partial hydrogenation of a monocyclic aromatic hydrocarbon with hydrogen in the presence of a ruthenium catalyst, water and a metal sulfate, wherein the hydrogenation is conducted while changing the concentration of the metal sulfate dissolved in an aqueous phase in which the catalyst is present.Type: GrantFiled: June 22, 1998Date of Patent: October 26, 1999Assignee: Asahi Kasei Kogyo Kabushiki KaishaInventors: Keita Ashida, Mineyuki Iwasaki
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Patent number: 5969202Abstract: A method for producing a cycloolefin and a cycloalkane, which method comprises: a step of hydrogenating a monocyclic aromatic hydrocarbon under an acidic condition in the presence of a catalyst composition, (i) wherein said catalyst composition is a slurry which comprises a ruthenium catalyst, water and zinc sulfate, and which is preserved, prior to being used in said hydrogenation reaction, under a high temperature and high pressure hydrogen atmosphere of from 100 to 200.degree. C. and from 1 to 100 atm for 1 hour or more, and (ii) wherein said hydrogenation reaction is conducted under a controlled pressure, while maintaining a phase separated state of: (a) an oil phase comprising, as main components, the starting materials and the products; and (b) a water phase comprising water as a main component, to thereby control a formation molar ratio of the cycloolefin and the cycloalkane to be formed.Type: GrantFiled: April 2, 1998Date of Patent: October 19, 1999Assignee: Asahi Kasei Kogyo Kabushiki KaishaInventors: Keita Ashida, Mineyuki Iwasaki
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Patent number: 5962365Abstract: Aromatic amines are produced by catalytic hydrogenation of nitroaromatic compounds in the gas phase. The catalyst includes palladium and lead on graphite or on a graphite-containing coke support. From 30 to 6000 equivalents of hydrogen for each equivalent of nitro groups are contacted with the catalyst during this process.Type: GrantFiled: June 19, 1997Date of Patent: October 5, 1999Assignee: Bayer AktiengesellschaftInventors: Reinhard Langer, Hans-Josef Buysch, Ursula Pentling
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Patent number: 5954941Abstract: The invention concerns a jet engine fuel having the following characteristics:i) distilling range from 140 to 300.degree. C.;ii) cis-decalin/trans-decalin ratio greater than 0.2;iii) aromatics content less than 22% by volume;iv) sulfur content less than 100 ppm, andv) lower heating value per unit volume greater than 34.65 Mj/liter.Also process for making the same wherein for example a cut from catalytic cracking distilling between 140 and 300.degree.0 C. is subjected to a hydrotreatment step and then to a dearomatization step.Type: GrantFiled: April 28, 1997Date of Patent: September 21, 1999Assignee: Total Raffinage Distribution S.A.Inventors: Sophie Mercier, Michel Laborde, Fran.cedilla.ois-Xavier Cormerais, Michel Thebault
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Patent number: 5905178Abstract: A process for the removal of .alpha.-methyl styrene from admixtures with cumene by hydrogenation in a catalytic distillation hydrogenation to selectively hydrogenate the side chains and produce cumene is disclosed. The crude cumene may be the byproduct of the cumene oxidation to produce phenol. The crude cumene also contains acetone, benzene, ethyl benzene and high and low boiling carbonyls, which are either removed simultaneously with the hydrogenation/distillation or removed first followed by the selective catalytic distillation hydrogenation.Type: GrantFiled: April 20, 1998Date of Patent: May 18, 1999Assignee: Catalytic Distillation TechnologiesInventor: James M. Hildreth
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Patent number: 5902916Abstract: A process for reacting an organic compound in the presence of a catalyst, wherein the catalyst comprises a homogeneous ruthenium compound or a mixture of two or more thereof deposited in situ on a support.Type: GrantFiled: April 25, 1997Date of Patent: May 11, 1999Assignee: BASF AktiengesellschaftInventors: Thomas Ruhl, Boris Breitscheidel, Franz Josef Brocker, Wolfgang Reif, Jochem Henkelmann, Karl Heinz Brauch, Andreas Henne
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Patent number: 5865985Abstract: A process for the production of a diesel fuel includes contacting a feedstock comprising cracked stocks in the presence of hydrogen under conditions of elevated temperature and pressure with a first catalyst comprising a Group VI hydrogenation metal component and a Group VIII hydrogenation metal component on a substantially non-acidic carrier, and then contacting at least a portion of the effluent from the first catalyst with a second catalyst comprising a Group VI hydrogenation metal component and a Group VIII hydrogenation metal component on an acidic carrier. This process can produce diesel fuels having an improved cetane index and API gravity. The effluent from the second catalyst bed may be contacted with a third catalyst bed which contains a catalyst comprising a Group VI hydrogenation metal component and a Group VIII hydrogenation metal component on a substantially non-acidic carrier.Type: GrantFiled: February 14, 1997Date of Patent: February 2, 1999Assignee: Akzo Nobel NVInventors: Pankaj Himatlal Desai, Johannes Wilhelmus Sonnemans, Terry Allan Reid
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Patent number: 5852130Abstract: A novel catalytic composition comprises at least one quaternary ammonium and/or phosphonium salt in which the anion is selected from the group formed by tetrafluoroborate, tetrachloroborate, hexafluorophosphate, hexafluoroantimonate, hexafluoroarsenate, trifluorosulphonate, fluorosulphonate, tetrachloroaluminate, dichlorocuprate, and trichlorozincate, and at least one complex of a transition metal from groups 8, 9 and 10, i.e., iron, ruthenium, cobalt, rhodium iridium, nickel, palladium and platinum. Application to total or selective hydrogenation of unsaturated compounds such as monoolefins, diolefins, acetylenic compounds, aromatic compounds, polynuclear aromatic compounds. Hydrogenation may be accompanied by isomerisation.Type: GrantFiled: June 17, 1996Date of Patent: December 22, 1998Assignee: Institut Francais du PetroleInventors: Lothar Mussmann, Yves Chauvin, Helene Olivier
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Patent number: 5841013Abstract: The present invention is directed toward a hydrogenation process using a highly active aromatics hydrogenation catalyst. The catalyst is prepared by decomposing a catalyst precursor selected from the group consisting of metal amine molybdates, metal amine tungstates and mixtures thereof, wherein said metal amine catalyst precursor has the general formula ML (Mo.sub.y W.sub.1-y O.sub.4).sub.a where M is Cr and/or one or more divalent promoter metals selected from the group consisting of Mn, Fe, Co, Ni, Cu and Zn; L is one or more neutral nitrogen-containing ligands at least one of which is a chelating polydentate ligand; 0.ltoreq.y.ltoreq.1; and a=1 for non-chromium containing catalysts and wherein 0.5.ltoreq.a.ltoreq.3 for chromium containing catalysts, at a temperature of about 200.degree. C. to about 400.degree. C. in an inert atmosphere; then reducing at a temperature of about 300.degree. C. to about 450.degree. C.Type: GrantFiled: May 16, 1997Date of Patent: November 24, 1998Assignee: Exxon Research and Engineering CompanyInventors: Teh Chung Ho, Charles Ralph Symon, Viktor Buchholz, Michel Daage
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Patent number: 5831138Abstract: The present invention is directed toward a catalyst composition comprising a catalyst prepared by a process comprising: (a) impregnating an oxide precursor selected from the group consisting of rare earth oxide precursors, yttria precursors and mixtures thereof, onto an inorganic refractory oxide support; (b) drying said support at a temperature of about 100.degree. to about 120.degree. C. followed by calcining said support at a temperature of about 400.degree. to about 600.degree. C.; and (c) compositing or depositing on said support of step (b), a catalyst precursor salt represented by (ML)(Mo.sub.y W.sub.1-y O.sub.4).sub.a wherein M comprises Cr and/or one or more divalent promoter metals selected from the group consisting of Mn, Fe, Co, Ni, Cu, Zn and mixtures thereof, wherein y is any value ranging from 0 to 1, and wherein L is one or more neutral, nitrogen-containing ligands at least one of which is a chelating polydentate ligand; a=1 when chromium is not one of the promoter metals and 0.5.ltoreq.a.Type: GrantFiled: August 15, 1997Date of Patent: November 3, 1998Assignee: Exxon Research and Engineering CompanyInventors: Teh Chung Ho, Stuart Leon Soled, Sabato Miseo, Gary Brice McVicker, Michel Daage, Viktor Buchholz
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Patent number: 5824830Abstract: A novel ruthenium-phosphine complex useful as a catalyst for asymmetric hydrogenation is disclosed, which is represented by formula (I):{RuCl(R-BINAP)}{Ru(EtNH.sub.2)(R-BINAP)}(.mu.-Cl).sub.3 (I)wherein Et stands for an ethyl group; and R-BINAP represents a tertiary phosphine represented by formula (II): ##STR1## wherein R represents a hydrogen atom or a methyl group.Type: GrantFiled: August 12, 1997Date of Patent: October 20, 1998Assignee: Takasago International CorporationInventor: Takao Ikariya