Molten Material Patents (Class 585/912)
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Patent number: 6875338Abstract: The invention concerns a process for converting hydrocarbons using at least one globally endothermic chemical reaction, in which a hydrocarbon feed successively traverses at least two reaction zones each containing at least one solid catalyst and comprising between said reaction zones an intermediate step, in a non catalytic zone, for reheating the stream (ST) from the first of the two reaction zones prior to its introduction into said second reaction zone, and in which said reheating is carried out in a heat exchanger, with heat transfer essentially by convection using a thermal fluid TF with a coking sensitivity index CS that is less than that of the stream ST, the difference in temperature ?T between the temperature of the fluid TF at the inlet to the exchanger and the temperature of the stream ST at the heat exchanger outlet being less than 250° C. The invention also concerns the use of said process for converting hydrocarbons and a unit for carrying out the process.Type: GrantFiled: October 30, 2001Date of Patent: April 5, 2005Assignee: Institut Francais du PetroleInventors: Eric Lenglet, Frédéric Hoffmann, Nicolas Boudet
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Patent number: 6258988Abstract: A method is disclosed for reforming organics into shorter-chain unsaturated organic compounds. A molten metal bath is provided which can cause homolytic cleavage of an organic component of an organic-containing feed. The feed is directed into the molten metal bath at a rate which causes partial homolytic cleavage of an organic component of the feed. Conditions are established and maintained in the reactor to cause partial homolytic cleavage of the organic component to produce unsaturated organic compounds, as products of the homolytic cleavage, which are discharged from the molten metal bath.Type: GrantFiled: December 23, 1993Date of Patent: July 10, 2001Assignee: Quantum Catalytics, L.L.C.Inventors: Christopher J. Nagel, Thomas P. Griffin, Thomas A. Kinney, Kevin A. Sparks
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Patent number: 6100436Abstract: A process and apparatus for contacting reactants with a particulate catalyst while indirectly heating the reactants with a heat exchange medium improves temperature control by using an intermediate heat exchange fluid and system to prevent overheating of reactants and maintain parallel heating characteristics through multiple reaction-heat exchange zones. The internal flow path minimizes the circulation of the reaction zone heat exchange fluid by incorporating interstage reheating of the reaction zone heat exchange fluid as it passes in series flow. A particularly useful application of the process and apparatus is in the dehydrogenation of ethyl benzene to produce styrene. The process and apparatus can also be used with simultaneous exchange of catalyst particles by an operation that restricts reactant flow while moving catalyst through reaction stacks in which the reactant flow has been restricted.Type: GrantFiled: September 8, 1998Date of Patent: August 8, 2000Assignee: UOP LLCInventors: William Wiede, Jr., Kevin J. Brandner, Bruce Allen Briggs, Donald Eelch, Constante P. Tagamolila
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Patent number: 5053570Abstract: Yield is improved in a fluid-bed catalytic paraffin aromatization process by tailoring heat transfer to match the endothermic heat load within the fluid bed.Type: GrantFiled: May 16, 1990Date of Patent: October 1, 1991Assignee: Mobil Oil CorporationInventors: Jorge L. Soto, Sergei Yurchak
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Patent number: 4421631Abstract: The present invention provides a process for upgrading a hydrocarbon material in the presence of a molten salt in a manner which reduces the requirements for expensive ceramic materials to withstand the corrosive nature of the salt. A molten salt containing carbon is introduced into a heat generation zone which is located in a lower portion of an upwardly extending elongated reactor. Oxygen is introduced into the heat generation zone in an amount sufficient to react with substantially all of the carbon and to heat the molten salt to a desired temperature. The heated molten salt together with the gaseous reaction products of the carbon-oxygen reaction flows upwardly through the reactor to a hydrocarbon material reaction zone which is located within the reactor and above the heat generation zone. The hydrocarbon material to be treated is introduced into the reaction zone and into the molten salt where it produces gaseous reaction products and unreacted carbon entrained in the flowing molten salt.Type: GrantFiled: October 2, 1981Date of Patent: December 20, 1983Assignee: Rockwell International CorporationInventors: Jaime P. Ampaya, Laszlo A. Heredy, Arthur L. Kohl
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Patent number: 4217204Abstract: Hydrocarbons are cracked in the presence of a mist of molten salt containing of basic compounds of alkali and alkaline earth metals and mixtures thereof, the amount of the molten salt to hydrocarbon being, by weight, from 0.01:1 to 10:1 followed by quenching at a temperature not lower than the melting point of the molten salt, and separating the cracked gas from the molten salt.Type: GrantFiled: February 7, 1979Date of Patent: August 12, 1980Assignees: Mitsui Engineering and Shipbuilding Co., Ltd., Mitsui Petrochemical Industries Ltd.Inventors: Atsushi Sakai, Fumiaki Yamaguchi, Tetsu Kawazoe, Hayato Yonemori, Yoshio Machida
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Patent number: RE42832Abstract: A method is disclosed for reforming organics into shorter-chain unsaturated organic compounds. A molten metal bath is provided which can cause homolytic cleavage of an organic component of an organic-containing feed. The feed is directed into the molten metal bath at a rate which causes partial homolytic cleavage of an organic component of the feed. Conditions are established and maintained in the reactor to cause partial homolytic cleavage of the organic component to produce unsaturated organic compounds, as products of the homolytic cleavage, which are discharged from the molten metal bath.Type: GrantFiled: July 10, 2003Date of Patent: October 11, 2011Assignee: Quantum Catalytics, L.L.C.Inventors: Christopher J. Nagel, Thomas P. Griffin, Thomas A. Kinney, Kevin A. Sparks