And A Preliminary Unsaturation Step, E.g., Cracking, Dehydrogenation, Etc. Patents (Class 585/330)
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Patent number: 7888542Abstract: The invention relates to a process for producing high-quality saturated base oil or a base oil component based on hydrocarbons. The process of the invention comprises two main steps, the oligomerization and deoxygenation. A biological starting material containing unsaturated carboxylic acids and/or esters of carboxylic acids is preferably used as the feedstock.Type: GrantFiled: December 12, 2006Date of Patent: February 15, 2011Assignee: Neste Oil OyjInventors: Eija Koivusalmi, Jukka Myllyoja, Jorma Matikainen
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Patent number: 7868216Abstract: A process for producing high purity propylene comprises: a step for dimerizing ethylene to 1-butene; a step for hydroisomerizing 1-butene to 2-butenes; and a step for metathesis of 2-butenes by ethylene. Advantageously, the ethylene used to produce the 1-butene and ethylene for metathesis derive from a steam cracking unit. To increase propylene production, the process can use a steam cracking or FCC C4cut as an additional butene source.Type: GrantFiled: December 23, 2005Date of Patent: January 11, 2011Assignee: IFP Energies NouvellesInventors: Jean-Alain Chodorge, Christian Dupraz
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Patent number: 7847141Abstract: The invention relates to a process for converting a hydrocarbon charge of linear and branched olefins, comprises the following stages: a) a stage of membrane separation of the hydrocarbon charge under conditions making it possible to produce a cut ? containing the majority of the linear olefins present in said charge, and a cut ? containing the majority of the branched olefins, b) a stage of treatment of the linear olefins contained in the effluents originating from the membrane separation stage (cut ?) under moderate oligomerization conditions, c) a stage of distillation separation of the effluents originating from the oligomerization stage into at least two cuts, d) a stage of hydrogenation of the cut ? under conditions for obtaining a gas oil with a high cetane number.Type: GrantFiled: June 6, 2005Date of Patent: December 7, 2010Assignee: IFP Energies NouvellesInventors: Patrick Briot, Arnaud Baudot, Vincent Coupard, Alain Methivier
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Patent number: 7820033Abstract: A process for increasing ethylene yield in a cracked hydrocarbon is provided. A hydrocarbon feed stream comprising at least 90% by weight of one or more C4-C10 hydrocarbons can be heated to provide an effluent stream comprising at least 10% by weight propylene. The effluent stream can be selectively separated to provide a first stream comprising heavy naphtha, light cycle oil, slurry oil, or any combination thereof and a second stream comprising one or more C4-C10 hydrocarbons. The second stream can be treated to remove oxygenates, acid gases, water, or any combination thereof to provide a third stream comprising the one or more C4-C10 hydrocarbons. The third stream can be selectively separated to provide a product stream comprising at least 30% by weight propylene. At least a portion of the product stream can be recycled to the hydrocarbon feed stream to increase ethylene yield in the effluent stream.Type: GrantFiled: April 30, 2007Date of Patent: October 26, 2010Assignee: Kellogg Brown & Root LLCInventors: Curtis N. Eng, Yonglin Yang
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Publication number: 20100256431Abstract: The present invention provides a process for the catalytic cracking of an olefin-rich feedstock which is selective towards light olefins in the effluent, the process comprising contacting a hydrocarbon feedstock containing one or more olefins, with a catalyst made of a phosphorus-modified zeolite (A), to produce an effluent with an olefin content of lower molecular weight than that of the feedstock, wherein said phosphorous modified zeolite (A) is made by a process comprising in that order: selecting a zeolite with low Si/Al ratio (advantageously lower than 30) among H+ or NH4+-form of MFI, MEL, FER, MOR, clinoptilolite, said zeolite having been made preferably without direct addition of organic template; steaming at a temperature ranging from 400 to 870° C. for 0.01-200 h; leaching with an aqueous acid solution containing the source of P at conditions effective to remove a substantial part of Al from the zeolite and to introduce at least 0.Type: ApplicationFiled: July 28, 2008Publication date: October 7, 2010Applicant: Total Petrochemicals Research FeluyInventors: Nikolai Nesterenko, Walter Vermeiren, Delphine Minoux, Sander Van Donk
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Publication number: 20100249474Abstract: The process and apparatus converts ethylene in a dilute ethylene stream that may be derived from an FCC product to heavier hydrocarbons. The catalyst may be an amorphous silica-alumina base with a Group VIII and/or VIB metal. The catalyst is resistant to feed impurities such as hydrogen sulfide, carbon oxides, hydrogen and ammonia. At least 40 wt-% of the ethylene in the dilute ethylene stream can be converted to heavier hydrocarbons.Type: ApplicationFiled: March 31, 2009Publication date: September 30, 2010Inventors: Christopher P. Nicholas, Alakananda Bhattacharyya, David E. Mackowiak
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Patent number: 7767770Abstract: A method for producing a mixture of ethylene and carbon monoxide by contacting ethane and an oxygen source with a catalyst comprising synthetic cryptomelane or octahedral molecular sieve. The method further comprises condensing the alkyl propionate with formaldehyde to produce an alkyl methacrylate.Type: GrantFiled: September 17, 2009Date of Patent: August 3, 2010Assignee: Rohm and Haas CompanyInventors: Scott Han, Daniel J. Martenak, Lei Jin, Steven Lawrence Suib
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Patent number: 7754934Abstract: A process for efficiently and stably producing ethylene and propylene which comprises bringing a hydrocarbon feedstock comprising at least one C4-12 olefin into contact with a zeolite-containing catalyst to obtain a reaction mixture containing ethylene and propylene, separating the reaction mixture into a fraction comprising ingredients ranging from hydrogen to C3 hydrocarbons and a fraction comprising C4 and higher hydrocarbons, and recycling the C4 and higher hydrocarbons as they are to a reactor.Type: GrantFiled: July 15, 2005Date of Patent: July 13, 2010Assignee: Asahi Kasei Chemicals CorporationInventors: Takashi Tsunoda, Mitsuhiro Sekiguchi
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Publication number: 20100174126Abstract: A process for oligomerization of isobutene, the process including: feeding a hydrocarbon stream comprising n-butane, 1-butene, 2-butene, isobutane, and isobutene to a catalytic distillation reactor system comprising a hydroisomerization catalyst; feeding hydrogen to the catalytic distillation reactor system; concurrently in the catalytic distillation reactor system: contacting the 1-butene with the hydrogen in the presence of the hydroisomerization catalyst to convert at least a portion of the 1 -butene to 2-butene; separating the isobutane and the isobutene from the n-butane and the 2-butene; recovering the isobutane and the isobutene from the catalytic distillation reactor system as an overheads fraction; recovering the n-butane and the 2-butene from the catalytic distillation reactor system as a bottoms fraction; contacting the overheads fraction in an oligomerization reaction system with an oligomerization catalyst to convert a portion of the isobutene to oligomers.Type: ApplicationFiled: January 8, 2009Publication date: July 8, 2010Applicant: CATALYTIC DISTILLATION TECHNOLOGIESInventor: Mitchell E. Loescher
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Patent number: 7728185Abstract: A process for increasing the propylene yields for hydrocarbon cracking processes. The process includes adding using alkylation of the C4s coming from the hydrocarbon cracker, and passing larger olefins to an olefin cracking unit.Type: GrantFiled: July 23, 2007Date of Patent: June 1, 2010Assignee: UOP LLCInventors: John J. Senetar, Bryan K. Glover
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Patent number: 7705193Abstract: The invention relates to a process for conversion of a gasoline-range hydrocarbon feed into a gasoline fraction with a higher octane rating than that of the feedstream, and a gasoil fraction with a cetane number higher than 45, including the following steps: a) a membrane separation step (B) applied to the hydrocarbon feed under conditions enabling selective separation of the majority of the linear olefins present in said feed and constituting the ? fraction, the fraction containing the majority of the branched olefins, termed the ? fraction, constituting a gasoline with a high octane rating, greater than that of the feed; b) an oligomerisation step (C) applied to the linear olefins (? fraction) contained in the effluent stream from the membrane separation step (B) under moderate oligomerisation conditions; c) a distillation separation step (D) applied to the effluent stream arising from the oligomerisation step in at least two fractions; d) a hydrogenation step (E) applied to one of the fractions obtained atType: GrantFiled: June 6, 2005Date of Patent: April 27, 2010Assignee: Institut Francais du PetroleInventors: Patrick Briot, Arnaud Baudot, Vincent Coupard, Stéphane Morin, Alain Methivier
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Patent number: 7696395Abstract: Process for the production of an isoprene containing rubber compound by dehydrogenation of an isoamylene containing feedstock supplied to a dehydrogenation reactor containing a particulate dehydrogenation catalyst comprising iron and potassium and having a pore diameter of at least 500 nanometers. The dehydrogenation reactor is operated at a temperature of at least 570° C. to dehydrogenate the isoamylene to produce isoprene. The product containing isoprene and unreacted isoamylene is recovered from the dehydrogenation reactor. Isoprene is polymerized to produce an isoprene containing rubber product. An unreacted feed component containing isoamylene is separated from the rubber product and recycled to the dehydrogenation reactor.Type: GrantFiled: June 8, 2007Date of Patent: April 13, 2010Assignee: Fina Technology, Inc.Inventor: James T. Merrill
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Patent number: 7678952Abstract: A process to prepare a gasoline fuel by contacting a Fischer-Tropsch product with a catalyst system of an acidic matrix and a large pore molecular sieve wherein the Fischer-Tropsch product has a weight ratio of compounds having at least 60 or more carbon atoms and compounds having at least 30 carbon atoms in the Fischer-Tropsch product of at least 0.2 and wherein at least 30 wt % of compounds in the Fischer-Tropsch product have at least 30 carbon atoms.Type: GrantFiled: May 26, 2004Date of Patent: March 16, 2010Assignee: Shell Oil CompanyInventors: Xander Dupain, Ralph Antoni Krul, Michiel Makkee, Jacob Adriaan Moulijn
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Patent number: 7655825Abstract: A method is disclosed for producing a synthetic fuel, especially diesel fuel and in addition gasoline, liquefied petroleum gas and heating gas from a gas mixture comprising an oxygenate wherein the oxygenate is methanol and/or dimethyl ether and/or another oxygenate, through a series of steps, including olefin-formation, oligomerization of the olefins, and several separation steps and recycling steps, in particular the recycling of a stream of saturated hydrocarbons following the oligomerization of olefins back to the olefin-forming stage, to obtain the diesel fuel and the other synthetic fuels in high yield.Type: GrantFiled: December 1, 2005Date of Patent: February 2, 2010Assignee: Lurgi AGInventors: Martin Rothämel, Bernd Ahlers, Matthias Wagner, Harold Koempel, Juergen Hofmockel
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Patent number: 7601309Abstract: Disclosed is a process for integrating a butene dimerization process with a metathesis process to remove isobutene from the feed stream to the metathesis reactor. The isobutene is preferentially dimerized in the dimerization process to leave n-butenes for metathesis with ethylene. An upstream selective hydrogenation process also isomerizes 1-butenes to 2-butenes which is the preferred butene reagent in the metathesis process. A common fractionator column for the dimerization and hydrogenation processes is also described.Type: GrantFiled: November 3, 2008Date of Patent: October 13, 2009Assignee: UOP LLCInventors: Steven L. Krupa, Jill M. Meister
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Patent number: 7601254Abstract: A process for the conversion of a hydrocarbon feedstock to produce olefins, aromatic compounds and ultra low sulfur diesel wherein the hydrocarbon feedstock is reacted in a fluid catalytic cracking (FCC) zone to produce olefins and light cycle oil. The effluent from the FCC is preferably separated to produce a stream comprising ethylene and propylene, a stream comprising higher boiling olefins and light cycle oil (LCO). The stream containing the higher boiling olefins is cracked to provide additional ethylene and propylene. The LCO is selectively hydrocracked to produce aromatic compounds and ultra low sulfur diesel.Type: GrantFiled: May 19, 2005Date of Patent: October 13, 2009Assignee: UOP LLCInventor: Christopher D. Gosling
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Publication number: 20090203946Abstract: A process is disclosed for making higher olefins by oligomerization of a lower olefin e.g ethylene, to higher olefins, using catalytic distillation conditions. Simultaneously and interdependently, the lower olefin is catalytically oligomerized to higher olefins, and said higher olefins are separated and recovered as liquid.Type: ApplicationFiled: February 13, 2008Publication date: August 13, 2009Inventor: Karl Chuang
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Patent number: 7550638Abstract: An integrated method that comprises a hydrocarbon thermal cracking operation to form at least one olefin product, coupled with dimerization and metathesis operations, the dimerization operation forming additional feed material for the metathesis operation, and the metathesis operation forming additional amounts of olefin product.Type: GrantFiled: November 16, 2005Date of Patent: June 23, 2009Assignee: Equistar Chemicals, LPInventors: Robert S. Bridges, Steven T. Coleman
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Publication number: 20090149684Abstract: Methods of oligomerizing hydrocarbons are disclosed. These methods include contacting olefins with an oligomerization catalyst in an oligomerization zone under oligomerization reaction conditions.Type: ApplicationFiled: December 6, 2007Publication date: June 11, 2009Inventors: Bruce B. Randolph, Jason J. Gislason, M. Bruce Welch, Richard L. Anderson, Dhananjay B. Ghonasgi, Robert W. Morton, Roland Schmidt
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Patent number: 7525007Abstract: An ethane or other hydrocarbon feedstock is steam cracked to produce an ethylene stream which is processed in an ethylene plant recovery section to separate an ethane recycle and a polymer grade or chemical grade ethylene product stream. A portion of the ethylene product stream may then be reacted by dimerization to produce a butene stream. These formed butenes and/or butenes recovered from other sources and another portion of the ethylene product stream are reacted by metathesis to produce a propylene stream which is deethanized and separated from heavier hydrocarbons to produce the propylene product. The butene product stream may also be deethanized and is separated from heavier hydrocarbons. The overhead from the metathesis section deethanizer may be recycled to the ethylene plant recovery section. The reflux for the metathesis section deethanizer may be generated from the overhead or may be a portion of the ethylene product stream.Type: GrantFiled: February 7, 2007Date of Patent: April 28, 2009Assignee: ABB Lummus Global Inc.Inventor: Charles Sumner
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Patent number: 7525000Abstract: The present invention provides a method and apparatus for removing acetylene from a gasoeus mixture comprising hydrogen, methane, ethane, ethylene, acetylene, propane, propylene, butane, butenes, butadiene, and other C4 or higher hydrocarbons. The method of the invention utilizes a front-end acetylene removal unit (“ARU”) located after a charge gas compressor in which acetylene is selectively reduced. The method of the invention achieves selective reduction of acetylene by using a proprietary Chevron Phillips E series palladium based catalyst. The method of the invention also utilizes a novel startup procedure, a novel emergency shutdown procedure, a novel maximum cool down procedure, and a novel carbon monoxide monitoring procedure.Type: GrantFiled: March 23, 2005Date of Patent: April 28, 2009Assignee: Eastman Chemical CompanyInventors: James M. Jordan, Kevin H. McGuire, Daryl Bitting, George M. McLeod, Randall L. Lamirand, James J. Cerrato, Ronnie P. Pertuit
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Patent number: 7459593Abstract: Disclosed is a process for integrating a butene dimerization process with a metathesis process to remove isobutene from the feed stream to the metathesis reactor. The isobutene is preferentially dimerized in the dimerization process to leave n-butenes for metathesis with ethylene. An upstream selective hydrogenation process also isomerizes 1-butenes to 2-butenes which is the preferred butene reagent in the metathesis process. A common fractionator column for the dimerization and hydrogenation processes is also described.Type: GrantFiled: November 18, 2005Date of Patent: December 2, 2008Assignee: UOP LLCInventors: Steven L. Krupa, Jill M. Meister
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Patent number: 7378562Abstract: The present invention is a process for removing alkynes and/or dienes from an olefin product stream withdrawn from an oxygenate-to-olefins reactor. The process comprises hydrogenating a first olefin stream that has alkynes and/or dienes in the presence of excess hydrogen and a first hydrogenation catalyst. The hydrogenation of the first olefin stream produces a second olefin stream that has unreacted hydrogen. The second olefin stream is contacted with a second hydrogenation catalyst producing a third olefin stream. The third olefin stream has low levels of hydrogen and alkynes and/or dienes.Type: GrantFiled: September 7, 2006Date of Patent: May 27, 2008Assignee: ExxonMobil Chemical Patents Inc.Inventors: Keith Holroyd Kuechler, David R. Lumgair, Jr.
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Patent number: 7374662Abstract: A process for conversion of a hydrocarbon feedstock comprising a relatively heavy main feedstock with a boiling point above approximately 350° C., and a relatively light secondary feedstock with a boiling point below approximately 320° C., wherein, the main feedstock, representing at least 50 wt. % of the hydrocarbon feedstock, is cracked in a fluidized-bed reactor in the presence of a cracking catalyst, the secondary feedstock is cracked in a fluidized bed with the same cracking catalyst, separately or mixed with the main feedstock, said secondary feedstock comprising oligomers with at least 8 carbon atoms of light olefins with 4 and/or 5 carbon atoms.Type: GrantFiled: March 10, 2003Date of Patent: May 20, 2008Assignee: Institut Francais du PetroleInventors: Jean-Luc Duplan, Sylvie Lacombe, Jérôme Bayle, Vincent Coupard
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Patent number: 7355086Abstract: A method for maintaining the activity of silicoaluminophosphate (SAPO) molecular sieve catalyst particles during oxygenate to olefin conversion reactions. After regeneration of SAPO catalyst particles, the regenerated particles are mixed with particles having coke on their surface in a manner that maintains their catalytic activity at a predetermined level.Type: GrantFiled: February 27, 2006Date of Patent: April 8, 2008Assignee: ExxonMobil Chemical Patents Inc.Inventors: Shun C. Fung, Richard B. Hall, Hafedh Kochkar, Karl G. Strohmaier, Nicolas P. Coute, Kenneth R. Clem
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Patent number: 7329787Abstract: A process is described for transforming an initial hydrocarbon feed containing 4 to 15 carbon atoms, limits included, into a hydrocarbon fraction having an improved octane number and a hydrocarbon fraction with a high cetane number.Type: GrantFiled: December 22, 2003Date of Patent: February 12, 2008Assignee: Institut Francais du PetroleInventors: Patrick Briot, Vincent Coupard, Alain Forestiere, Eric Llido
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Patent number: 7273542Abstract: The present invention relates to a process and apparatus for recovering product from reactor effluent of a reactor for a hydrocarbon feedstream. An indigenous C4 stream is used as lean oil in a demethanizer, which facilitates significant cost and operational savings. C4 bottoms from a downstream depropanizer is used as lean oil recycle.Type: GrantFiled: April 4, 2003Date of Patent: September 25, 2007Assignee: ExxonMobil Chemical Patents Inc.Inventors: David J. Duhon, John E. Asplin
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Patent number: 7270739Abstract: The present invention relates to a process for selectively producing C3 olefins from a catalytically cracked or thermally cracked naphtha stream by fractionating the naphtha feed to obtain at least a C6 rich fraction and feeding the C6 rich fraction into a reaction stage at a point wherein the residence time of the C6 rich fraction is minimized.Type: GrantFiled: January 20, 2004Date of Patent: September 18, 2007Assignee: Exxonmobil Research and Engineering CompanyInventors: Tan Jen Chen, Brian Erik Henry, Paul F Keusenkothen, Philip A. Ruziska
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Patent number: 7267759Abstract: The present invention relates to a process for selectively producing C3 olefins from a catalytically cracked or thermally cracked naphtha stream by fractionating the naphtha feed to obtain a C6 fraction and feeding the C6 fraction either in the riser downstream of the injection point for the reminder of the naphtha feed, in the stripper, and/or in the dilute phase immediately downstream or above the stripper of a process unit.Type: GrantFiled: January 20, 2004Date of Patent: September 11, 2007Assignee: ExxonMobil Research and Engineering CompanyInventors: Tan Jen Chen, Brian Erik Henry, Paul F Keusenkothen, Philip A. Ruziska
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Patent number: 7223895Abstract: An ethane or other hydrocarbon feedstock is steam cracked to produce an ethylene stream which is processed in an ethylene plant recovery section to separate an ethane recycle and a polymer grade or chemical grade ethylene product stream. A portion of the ethylene product stream may then be reacted by dimerization to produce a butene stream. These formed butenes and/or butenes recovered from other sources and another portion of the ethylene product stream are reacted by metathesis to produce a propylene stream which is deethanized and separated from heavier hydrocarbons to produce the propylene product. The butene product stream may also be deethanized and is separated from heavier hydrocarbons. The overhead from the metathesis section deethanizer may be recycled to the ethylene plant recovery section. The reflux for the metathesis section deethanizer may be generated from the overhead or may be a portion of the ethylene product stream.Type: GrantFiled: November 18, 2003Date of Patent: May 29, 2007Assignee: ABB Lummus Global Inc.Inventor: Charles Sumner
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Patent number: 7150821Abstract: The present invention relates to an olefinic naphtha and a process for producing lower olefins from this naphtha. In the process of the present invention for producing lower olefins, preferably ethylene, at least a portion of a hydrocarbon asset is converted to synthesis gas and at least a portion of the synthesis gas is converted to an olefinic naphtha by a Fischer-Tropsch process. At least a portion of the olefinic naphtha is converted in a naphtha cracker to a product stream comprising lower olefins, and at least a portion of the lower olefins from the product stream of the naphtha cracker are recovered.Type: GrantFiled: January 31, 2003Date of Patent: December 19, 2006Assignee: Chevron U.S.A. Inc.Inventors: Dennis J. O'Rear, Guan Dao Lei
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Patent number: 7041271Abstract: A method is disclosed a method for recovering olefins and for producing hydrogen from a refinery off-gas stream in which such stream is conventionally pretreated and separated to obtain a light ends stream that contains nitrogen, hydrogen and carbon monoxide and a heavy ends stream that contains the olefins. The light ends stream is subjected to reforming and a water gas shift reactions after addition of a natural gas stream. The addition of the natural gas increases the hydrogen recovery from the light ends and also stabilizes the hydrocarbon content in the stream to be subjected to the reforming and water gas shift reactions. The heavy ends can be further treated to recover olefins such as ethylene and propylene. The rate of natural gas addition is controlled so that the concentration of the nitrogen in a stream exiting the water gas shift reactor is less than about 5 percent by volume so that hydrogen separation from such stream becomes practical.Type: GrantFiled: October 10, 2002Date of Patent: May 9, 2006Assignee: Praxair Technology, Inc.Inventors: Raymond Francis Drnevich, Jeffrey O. Herzog
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Patent number: 6958426Abstract: The present invention relates to a process for separating the isoprene, 1,3-pentadiene and dicyclopentadiene from a C5 cuts, comprising dimerization of the cyclopentadiene and selective catalytic hydrogenation. The second extractive rectification step can be omitted, because the alkynes are removed through selective catalytic hydrogenation prior to the extractive rectification. As a result, the solvent-recovering units can be simplified, and thus the process as a whole can be optimized. Correspondingly, the investment and energy consumption, the operation cost, and finally the production cost can be substantially reduced.Type: GrantFiled: September 27, 2002Date of Patent: October 25, 2005Assignees: China Petroleum & Chemical Corporation, Beijing Research Institute of Chemical Industry SinopecInventors: Baoliang Tian, Puyang Li, Chunpeng Du, Hongfen Xu, Haiqiang Feng, Jingmin Hu, Jidong Gao, Ming Ma
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Publication number: 20040167369Abstract: A process for preparing branched alkyl aromatic hydrocarbons, which process comprises contacting branched olefins with an aromatic hydrocarbon under alkylating conditions, which branched olefins have been obtained by a process which comprises dehydrogenating an isoparaffinic composition over a suitable catalyst which isoparaffinic composition has been obtained by hydrocracking and hydroisomerization of a paraffinic wax and which isoparaffinic composition comprises paraffins having a carbon number in the range of from 7 to 35, of which paraffins at least a portion of the molecules is branched, the average number of branches per paraffin molecule being at least 0.Type: ApplicationFiled: February 27, 2004Publication date: August 26, 2004Inventors: Laurent Alain Michel Fenouil, Brendan Dermot Murray, Paul Marie Ayoub
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Publication number: 20040167368Abstract: A process for preparing branched alkyl aromatic hydrocarbons, which process comprises contacting branched olefins with an aromatic hydrocarbon under alkylating conditions, which branched olefins have been obtained by a process which comprises dehydrogenating an isoparaffinic composition over a suitable catalyst which isoparaffinic composition has been obtained by hydrocracking and hydroisomerization of a paraffinic wax and which isoparaffinic composition comprises paraffins having a carbon number in the range of from 7 to 35, of which paraffins at least a portion of the molecules is branched, the average number of branches per paraffin molecule being at least 0.Type: ApplicationFiled: February 27, 2004Publication date: August 26, 2004Inventors: Laurent Alain Michel Fenouil, Brendan Dermot Murray, Paul Marie Ayoub
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Patent number: 6777582Abstract: A C3 to C6 hydrogen cut from a cracking unit is processed for the conversion of olefins to propylene and hexene via autometathesis. The autometathesis of a mixed normal butenes feed in the presence of a metathesis catalyst operates without any ethylene in the feed mix to the metathesis reactor. Some fraction of the 2-butene feed may be isomerized to 1-butene and the 1-butene formed plus the 1-butene in the feed react rapidly with the 2-butene to form propylene and 2-pentene. The feed to the reactor also includes the recycle of the 2-pentene formed in the reactor with unreacted butenes to simultaneously form additional propylene and hexene. In one embodiment, some or all of the 3-hexene formed in the reaction is isomerized to 1-hexene. In another embodiment, some portion of the 3-hexene produced in the main metathesis reaction is reacted with ethylene to produce 1-butene without the need for superfractionation.Type: GrantFiled: March 7, 2002Date of Patent: August 17, 2004Assignee: ABB Lummus Global Inc.Inventors: Robert J. Gartside, Marvin I. Greene, Quincy J. Jones
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Publication number: 20040152933Abstract: The present invention relates to an olefinic naphtha and a process for producing lower olefinc from this naphtha. In the process of the present invention for producing lower olefins, preferably ethylene, at least a portion of a hydrocarbon asset is converted to synthesis gas and at least a portion of the synthesis gas is converted to an olefinic naphtha by a Fischer-Tropsch process. At least a portion of the olefinic naphtha is converted in a naphtha cracker to a product stream comprising lower olefins, and at least a portion of the lower olefins from the product stream of the naphtha cracker are recovered.Type: ApplicationFiled: January 31, 2003Publication date: August 5, 2004Inventors: Dennis J. O'Rear, Guan Dao Lei
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Patent number: 6706936Abstract: A process for making a lube base stock wherein a highly paraffinic feedstock is dehydrogenated to produce an olefinic feedstock. That olefinic feedstock is contacted with an oligomerization catalyst in an oligomerization zone to produce a product having a higher number average molecular weight than the olefinic feedstock. The product is separated into a light byproduct fraction and a heavy product fraction. The heavy product fraction comprises a lube base stock.Type: GrantFiled: January 11, 2001Date of Patent: March 16, 2004Assignee: Chevron U.S.A. Inc.Inventors: Dennis J. O'Rear, Thomas V. Harris, Stephen J. Miller, Russell R. Krug, Brent K. Lok
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Patent number: 6703535Abstract: A process for upgrading a Fischer-Tropsch feedstock which comprises (a) recovering from a Fischer-Tropsch reactor a Fischer-Tropsch wax fraction and a Fischer-Tropsch condensate fraction, wherein the Fischer-Tropsch condensate fraction contains alcohols boiling below about 370° C.Type: GrantFiled: April 18, 2002Date of Patent: March 9, 2004Assignee: Chevron U.S.A. Inc.Inventors: David R. Johnson, Christopher A. Simmons, Donald H. Mohr, Stephen J. Miller, Stephen K. Lee, William L. Schinski, Michael S. Driver, William J. Cannella
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Publication number: 20030199719Abstract: A process for upgrading a Fischer-Tropsch feedstock which comprises (a) recovering from a Fischer-Tropsch reactor a Fischer-Tropsch wax fraction and a Fischer-Tropsch condensate fraction, wherein the Fischer-Tropsch condensate fraction contains alcohols boiling below about 370° C.Type: ApplicationFiled: April 18, 2002Publication date: October 23, 2003Inventors: David R. Johnson, Christopher A. Simmons, Donald H. Mohr, Stephen J. Miller, Stephen K. Lee, William L. Schinski, Michael S. Driver, William J. Cannella
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Patent number: 6596912Abstract: This invention relates to processes and systems for the conversion of methane in high yields to C4+ hydrocarbons. The principal steps of the recycle process include reacting methane and O2 in an oxidative coupling reactor over a Mn/Na2WO4/SiO2 catalyst at 800° C. to convert the methane to ethylene, and oligomerizing the ethylene product by reacting it with an H-ZSM-5 zeolite catalyst at 275° C. in a catalytic reactor for subsequent conversion of the ethylene to higher hydrocarbons. Total yields of C4+ products using the process of the invention are in the range of about 60% to about 80%, and yields of C4+ nonaromatic hydrocarbons are in the range of about 50% to about 60%.Type: GrantFiled: May 24, 2000Date of Patent: July 22, 2003Assignee: The Texas A&M University SystemInventors: Jack H. Lunsford, Serguei Pak
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Publication number: 20030094398Abstract: A process is provided to produce a dilute ethylene stream and a dilute propylene stream to be used as feedstocks for producing olefin-based derivatives. Specifically, the dilute ethylene stream is used as a feedstock to produce ethylbenzene, and the dilute propylene stream is used as a feedstock to produce cumene, acrylic acid, propylene oxide and other propylene based derivatives.Type: ApplicationFiled: November 16, 2001Publication date: May 22, 2003Inventors: Rodney L. Porter, Anne M. Balinsky, Eric P. Weber
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Patent number: 6541578Abstract: The space time yield of a gas phase reactor, particularly a polyethylene reactor may be increased by replacing at least 80 weight % of the ballast gas with a gas having a higher heat capacity than the ballast gas. Preferably the gas replacing the ballast gas is a stream of dilute ethylene having a high concentration of ethane.Type: GrantFiled: March 22, 2001Date of Patent: April 1, 2003Assignee: Nova Chemicals (International) S.A.Inventor: Fou Pon
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Publication number: 20030045761Abstract: Disclosed is a system of making an olefin derivative from a dilute olefin feed. Dilute olefin is sent to an olefin reaction unit to form an olefin derivative product. The olefin derivative product is recovered from the reaction unit while a vent stream is also removed. Olefin is separated from the vent stream, and the olefin is sent to the olefin reaction unit for additional processing.Type: ApplicationFiled: June 15, 2001Publication date: March 6, 2003Inventors: Keith H. Kuechler, Minquan Cheng, Marc L. DcChellis, David R. Lumgair, Russell D. Sellen, Gary F. Janda
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Publication number: 20020193649Abstract: Processes for converting linear hydrocarbon into normal alpha olefins (“NAOs”). The process comprises a sequence of controlled dehydrogenation followed by ethenolysis. The process is especially applicable to upgrade linear hydrocarbons such as produced by Fischer-Tropsch type processes. A process for converting C1-C3 alkanes into NAOs and an integrated process including hydrocracking are also disclosed.Type: ApplicationFiled: January 7, 2002Publication date: December 19, 2002Inventors: Dennis J. O'Rear, William L. Schinski, Saleh Elomari, Richard N. Reynolds, Steven J. Herron
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Publication number: 20020183571Abstract: A radial reactor for utilization for catalytic reactions of gaseous or liquid feed streams including an annular catalyst bed, wherein the material contained within the catalyst bed includes an active catalyst material, contained within an outer ring-shaped layer of the catalyst bed, and a generally inert material, contained within an inner ring-shaped layer of the catalyst bed, wherein the generally inert material includes a potassium-containing compound, such as potassium oxide, hydroxide, carbonate or bicarbonate.Type: ApplicationFiled: January 8, 2002Publication date: December 5, 2002Applicant: Sud-Chemie Inc.Inventors: David L. Williams, Andrzej Rokicki, Dennis J. Smith, Kyle Mankin
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Publication number: 20020111521Abstract: An integrated process for producing high value products, including for example distillate fuel, from syngas is disclosed. The integrated process of the present invention produces high value products from a Fischer Tropsch with minimal production of low value products, including methane. In a process of the present invention, syngas is reacted under low temperature Fischer-Tropsch reaction conditions to provide a hydrcarbon product stream comprising substantially waxy products. The waxy products are subjected to an olefin-selective paraffin cracking process, preferably in a Paragon reactor to form olefins. The resulting olefins are then subjected to oligomerization conditions to form iso-olefins. In the processes of the present invention, the hydrocarbon product stream from the Fischer Tropsch reaction comprises desirable low levels of methane, preferably below 10%.Type: ApplicationFiled: December 28, 2001Publication date: August 15, 2002Inventor: Dennis J. O'Rear
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Publication number: 20020099248Abstract: Novel processes for the production of polyolefins, other polymers, and oxygenated compounds, such as polypropylene, polyethylene, polybutene-1, poly(isobutylene), polystyrene, poly(1,3-butadiene), ethylene oxide, propylene oxide, acrylonitrile, acrolein and others, within gas phase and slurry phase type reactors, from olefins produced via the catalytic dehydrogenation of corresponding paraffins and other monomers inside permeable catalytic membrane reactors or non-permeable conventional reactors. The developed processes can produce both homopolymers and copolymers depending on the operating conditions of the preceding dehydrogenation permreactor. The invented processes utilize integrated separation, recycling and re-reaction operations of the unconverted olefins, paraffins and other utilized monomers and hydrocarbon molecules.Type: ApplicationFiled: October 10, 2001Publication date: July 25, 2002Inventors: Zoe Ziaka-Vasileiadou, Savvas Vasileiadis
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Patent number: 6388152Abstract: A process for producing polymers from olefins selectively produced from a catalytically cracked or thermally cracked naphtha stream is disclosed herein. The naphtha stream is introduced into a process unit comprised of a reaction zone, a stripping zone, a catalyst regeneration zone, and a fractionation zone. The naphtha feedstream is contacted in the reaction zone with a catalyst containing from about 10 to 50 wt. % of a crystalline zeolite having an average pore diameter less than about 0.7 nanometers at reaction conditions which include temperatures ranging from about 500° to 650° C. and a hydrocarbon partial pressure from about 10 to 40 psia. Vapor products are collected overhead and the catalyst particles are passed through the stripping zone on the way to the catalyst regeneration zone. Volatiles are stripped with steam in the stripping zone and the catalyst particles are sent to the catalyst regeneration zone where coke is burned from the catalyst, which is then recycled to the reaction zone.Type: GrantFiled: March 2, 2000Date of Patent: May 14, 2002Assignee: ExxonMobil Chemical Patents Inc.Inventors: Paul K. Ladwig, John E. Asplin, Gordon F. Stuntz, Tan-Jen Chen
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Publication number: 20020052533Abstract: A process for producing a purified conjugated diene, comprising a step of isolating a conjugated diene from a petroleum fraction containing the conjugated diene by extractive distillation, the step comprising:Type: ApplicationFiled: August 24, 1999Publication date: May 2, 2002Inventors: TAKAKI KOGA, NOBUMASA SHIMOMURA, MASANOBU KANAUCHI