Support Per Se Patents (Class 502/87)
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Publication number: 20110184216Abstract: The present invention relates to a process of formulating and preparing supported multi-metal catalysts based on metal oxides and inorganic salts of metals. The impregnation technique is employed by two methods: the slurry method and the modified-pH variation method, which are used in two steps for obtaining the catalyst. The present invention also relates to a process called Glycerol to Propene (GTP) process, corresponding to the transformation of glycerol or glycerin to propene. The reaction involved in the process of the present invention is the selective hydrogenation of glycerin, which takes place by contact of the charge of glycerin carried by hydrogen in a continuous stream system on the catalytic bed containing multi-metal catalysts, specifically prepared for this purpose.Type: ApplicationFiled: June 24, 2009Publication date: July 28, 2011Inventors: Jose Carlos Sousa Fadigas, Rossano Gambetta, Cláudio José Araújo Mota, Valter Luiz da Conceicão Goncalves
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Patent number: 7977274Abstract: The invention pertains to a catalyst useful for the epoxidation of an olefin. More particularly, the invention pertains to an improved catalyst useful for the epoxidation of ethylene to ethylene oxide. The catalyst has improved selectivity in the epoxidation process. The catalyst comprises a solid support having a surface, which has a first mode of pores which have a diameter ranging from about 0.01 ?m to about 5 ?m and having a differential pore volume peak in the range of from about 0.01 ?m to about 5 ?m. The surface then has a second mode of pores, different from the first mode of pores, which second mode of pores have a diameter ranging from about 1 ?m to about 20 ?m and have a differential pore volume peak in the range of from about 1 ?m to about 20 ?m.Type: GrantFiled: September 29, 2006Date of Patent: July 12, 2011Assignee: SD Lizenzverwertungsgesellschaft mbH & Co. KGInventor: Christian Gueckel
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Publication number: 20110155641Abstract: The present invention concerns a catalyst comprising at least one crystalline material comprising silicon with a hierarchical and organized porosity and at least one hydrodehydrogenating element selected from the group formed by elements from group VIB and/or group VIII of the periodic table of the elements. Said crystalline material comprising silicon with a hierarchical and organized porosity is constituted by at least two spherical elementary particles, each of said particles comprising a matrix based on oxide of silicon, which is mesostructured, with a mesopore diameter in the range 1.5 to 30 nm and having microporous and crystalline walls with a thickness in the range 1.5 to 60 nm, said elementary spherical particles having a maximum diameter of 200 microns. The invention also concerns hydrocracking/hydroconversion and hydrotreatment processes employing said catalyst.Type: ApplicationFiled: May 13, 2009Publication date: June 30, 2011Applicant: IFP ENERGIES NOUVELLESInventors: Audrey Bonduelle, Alexandra Chaumonnot
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Publication number: 20110138789Abstract: An apparatus and method for treating diesel exhaust gases are described. The system consists of two functionalities, the first being a selective catalytic reduction (SCR) catalyst system and the second being a capture material for capturing catalyst components that have appreciable volatility under extreme exposure conditions. The SCR catalyst component is typically based on a majority phase of titania, with added minority-phase catalyst components comprising of one or more of the oxides of vanadium, silicon, tungsten, molybdenum, iron, cerium, phosphorous, copper and/or manganese vanadia. The capture material typically comprises a majority phase of high surface area oxides such as silica-stabilized titania, alumina, or stabilized alumina, for example, wherein the capture material maintains a low total fractional monolayer coverage of minority phase oxides for the duration of the extreme exposure.Type: ApplicationFiled: December 15, 2009Publication date: June 16, 2011Inventor: David M. Chapman
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Patent number: 7960308Abstract: The invention provides a process which enables, in preparation of acrolein by catalytic gas-phase oxidation of propylene in the presence of molecular oxygen or a molecular oxygen-containing gas or in preparation of acrylic acid by catalytic gas-phase oxidation of acrolein in the presence of molecular oxygen or a molecular oxygen-containing gas, using single kind of atalyst, to suppress occurrence of localized extraordinarily high temperature spots (hot spots) in the catalyst layer and can stably maintain high acrolein or acrylic acid yield for a long time. The process is characterized by use of an oxide catalyst containing molybdenum as an essential component and having relative standard deviation of its particle size in a range of 0.02 to 0.20.Type: GrantFiled: March 28, 2008Date of Patent: June 14, 2011Assignee: Nippon Shokubai Co., Ltd.Inventor: Naohiro Fukumoto
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Patent number: 7960307Abstract: A sulfur reduction catalyst useful to reduce the levels of sulfur in a cracked gasoline product comprises a metal vanadate compound. The metal vanadate compound can be supported on a molecular sieve such as a zeolite in which the metal vanadate compound is primarily located on the exterior surface of the pore structure of the zeolite and on the surface of any matrix material used to bind or support the zeolite.Type: GrantFiled: March 6, 2007Date of Patent: June 14, 2011Assignee: BASF CorporationInventors: Xingtao Gao, James Fu
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Publication number: 20110136924Abstract: The present invention relates to a catalyst for producing a liquefied petroleum gas, which is used for producing a liquefied petroleum gas containing propane or butane as a main component by reacting carbon monoxide and hydrogen, and comprises a Cu—Zn-based methanol synthesis catalyst and a Cu-supported ?-zeolite in which at least Cu is supported on a ?-zeolite.Type: ApplicationFiled: February 20, 2009Publication date: June 9, 2011Applicant: JAPAN GAS SYNTHESIZE, LTD.Inventors: Kaoru Fujimoto, Xiaohong Li, Wenliang Zhu, Qingjie Ge
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Publication number: 20110136658Abstract: A catalyst used in the reaction of oxidative bromination of methane is provided. The catalyst is prepared by the following procedures: mixing at least one of the precursors selected from the compounds of Rh, Ru, Cu, Zn, Ag, Ce, V, W, Cd, Mo, Mn, Cr and La which can dissolve in water with the Si precursor, hydrolyzing, drying and sintering. In the catalysis system, methane reacts with HBr, H2O and oxygen source (O2, air or oxygen-rich air), finally CH3Br and CH2Br2 are produced. Another catalyst used in the reaction of condensation of methane bromide to C3-C13 hydrocarbons is also provided. This catalyst is prepared by supporting compounds of Zn or Mg on molecular sieves such as HZSM-5, HY, Hb, 3A, 4A, 5A or 13X et al. With this catalyst, CH3Br and CH2Br2 produced in the former process can react further to give C3 to C13 hydrocarbons and HBr, and HBr can be recycled as a medium.Type: ApplicationFiled: April 14, 2008Publication date: June 9, 2011Inventors: Zhen Liu, Hongmin Zhang, Wensheng Li, Yanqun Ren, Xiaoping Zhou
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Publication number: 20110108459Abstract: The present invention describes a hydrocracking and/or hydrotreatment process using a catalyst comprising an active phase containing at least one hydrogenating/dehydrogenating component selected from the group VIB elements and the non-precious elements of group VIII of the periodic table, used alone or in a mixture, and a support comprising at least one dealuminated zeolite Y having an overall initial atomic ratio of silicon to aluminium between 2.5 and 20, an initial weight fraction of extra-lattice aluminium atoms greater than 10%, relative to the total weight of aluminium present in the zeolite, an initial mesopore volume measured by nitrogen porosimetry greater than 0.07 ml·g?1 and an initial crystal lattice parameter a0 between 24.38 ? and 24.30 ?, said zeolite being modified by a) a stage of basic treatment comprising mixing said dealuminated zeolite Y with a basic aqueous solution, and at least one stage c) of thermal treatment.Type: ApplicationFiled: November 9, 2010Publication date: May 12, 2011Applicant: IFP ENERGIES NOUVELLESInventors: Laurent SIMON, Emmanuelle Guillon
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Patent number: 7932408Abstract: The invention is directed to a catalyst for the epoxidation of an olefin to an olefin oxide, the catalyst comprising a support having at least two pore size distributions, each pore size distribution possessing a different mean pore size and a different pore size of maximum concentration, the catalyst further comprising a catalytically effective amount of silver, a promoting amount of rhenium, and a promoting amount of one or more alkali metals, wherein the at least two pore size distributions are within a pore size range of about 0.01 ?m to about 50 ?m. The invention is also directed to a process for the oxidation of an olefin to an olefin oxide using the above-described catalyst.Type: GrantFiled: January 27, 2009Date of Patent: April 26, 2011Assignee: Scientific Design Company, Inc.Inventor: Christian Gückel
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Patent number: 7910511Abstract: The invention relates to a method of preparing metallic nanoparticles and to the materials thus obtained. More specifically, the invention relates to a method of preparing metallic nanoparticles consisting in: selecting a precursor from the salts, hydroxides and oxides of metallic elements that can be reduced at temperatures below the clay silicate network destruction temperature; and depositing said precursor on a support selected from pseudolaminar phyllosilicate clays. According to the invention the method comprises: (i) a deposition step in which the precursor is deposited on the support: (ii) when the precursor is selected from among salts and hydroxides, a thermal decomposition step in a controlled atmosphere, in which the precursor is subjected to a decomposition process and is transformed into an oxide of the metallic element: and (iii) a reduction step in which the oxide of the metallic element is subjected to a reduction process in a controlled atmosphere.Type: GrantFiled: June 17, 2010Date of Patent: March 22, 2011Assignee: Tolsa, S.A.Inventors: Julio Santarén Romé, Francisco Javier Limpo Orozco, Eduardo Aguilar Díez, Antonio Álvarez Berenguer, José Moya Corral, Carlos Pecharroman Garcia
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Patent number: 7910518Abstract: A geometrically shaped solid carrier is provided that improves the performance and effectiveness of an olefin epoxidation catalyst for epoxidizing an olefin to an olefin oxide. In particular, improved performance and effectiveness of an olefin epoxidation catalyst is achieved by utilizing a geometrically shaped refractory solid carrier in which at least one wall thickness of said carrier is less than 2.5 mm.Type: GrantFiled: March 10, 2008Date of Patent: March 22, 2011Assignee: SD Lizenzverwertungsgesellschaft mbH & Co. KGInventors: Serguei Pak, Andrzej Rokicki, Howard Sachs
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Publication number: 20110054232Abstract: A catalyst for the conversion of methane to higher hydrocarbons including aromatic hydrocarbons comprises molybdenum or a compound thereof dispersed on an aluminosilicate zeolite, wherein the amount of aluminum present as aluminum molybdate in the catalyst is less than 2700 ppm by weight.Type: ApplicationFiled: February 5, 2009Publication date: March 3, 2011Inventors: Neeraj Sangar, Teng Xu, Larry L. Iaccino, Mobae Afeworki
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Publication number: 20110036756Abstract: The present invention provides a novel process and system in which a mixture of carbon monoxide and hydrogen synthesis gas, or syngas, is converted into hydrocarbon mixtures composed of high quality gasoline components, aromatic compounds, and lower molecular weight gaseous olefins in one reactor or step. The invention utilizes a novel molybdenum-zeolite catalyst in high pressure hydrogen for conversion, as well as a novel rhenium-zeolite catalyst in place of the molybdenum-zeolite catalyst, and provides for use of the novel catalysts in the process and system of the invention.Type: ApplicationFiled: August 10, 2010Publication date: February 17, 2011Inventors: Mark G. White, Shetian Liu
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Patent number: 7884163Abstract: Silica-coated alumina activator-supports, and catalyst compositions containing these activator-supports, are disclosed. Methods also are provided for preparing silica-coated alumina activator-supports, for preparing catalyst compositions, and for using the catalyst compositions to polymerize olefins.Type: GrantFiled: September 23, 2009Date of Patent: February 8, 2011Assignee: Chevron Phillips Chemical Company LPInventors: Max P. McDaniel, Qing Yang, Randy S. Muninger, Elizabeth A. Benham, Kathy S. Collins
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Publication number: 20100303677Abstract: A ceramic particulate filter having a porous catalytic material deposited on walls within the filter. Particulate matter is trapped in the walls of the filter and the catalytic material removes gases, such as nitrogen oxides (NOx), from gases passing through the filter. The filter, in one embodiment, is adaptable for use with internal combustion (gas and diesel) engines. A method of making the filter is also described.Type: ApplicationFiled: May 27, 2010Publication date: December 2, 2010Inventors: David Henry, Maxime Moreno, Christophe Michel Remy
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Publication number: 20100304957Abstract: Zeolite-based honeycomb bodies and methods of manufacturing same. Zeolite-based honeycomb bodies especially suited for engine exhaust treatment applications include a primary phase comprising a zeolite having a SiO2 to Al2O3 molar ratio in the range from 5 to 300. The zeolite-based composites are porous with an open porosity of at least 25% and a median pore diameter of at least 1 micron. The zeolite-based honeycomb bodies can be manufactured by an extrusion method.Type: ApplicationFiled: June 3, 2010Publication date: December 2, 2010Inventors: Steven Bolaji Ogunwumi, Patrick David Tepesch, Raja Rao Wusirika
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Publication number: 20100286448Abstract: This invention is related to a preparation method of a supported catalyst Mo—O—K-MexOy for the synthesis of methanethiol from H2S-containing syngas. The catalyst comprises of an active component of Mo—O—K-based species, an active promoter and a support denoted as metal (or metals)-carrier. The support is prepared by electroless plating method in such a way that the metal or metals chosen are plated onto the surface of the carrier. Transition metal, especially Fe, Co or Ni are selected to be the plating metal, while SiO2, Al2O3 or TiO2 are selected to be carrier. The catalyst thus prepared is found to be efficient for the synthesis of methanethiol from H2S-containing syngasor carbon oxides/hydrogen mixtures, especially regarding a minor formation of the by-product CO2.Type: ApplicationFiled: November 28, 2008Publication date: November 11, 2010Applicant: EVONIK DEGUSSA GMBHInventors: Yiquan Yang, Yingjuan Hao, Aiping Chen, Qi Wang, Lingmei Yang, Qiaoling Li, Shenjun Dai, Weiping Fang, Jan-Olaf Barth, Christoph Wecbecker, Klaus Hutmacher
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Patent number: 7829493Abstract: The invention relates to a method of preparing metallic nanoparticles and to the materials thus obtained. More specifically, the invention relates to a method of preparing metallic nanoparticles consisting in: selecting a precursor from the salts, hydroxides and oxides of metallic elements that can be reduced at temperatures below the clay silicate network destruction temperature; and depositing said precursor on a support selected from pseudolaminar phyllosilicate clays. According to the invention the method comprises: (i) a deposition step in which the precursor is deposited on the support: (ii) when the precursor is selected from among salts and hydroxides, a thermal decomposition step in a controlled atmosphere, in which the precursor is subjected to a decomposition process and is transformed into an oxide of the metallic element: and (iii) a reduction step in which the oxide of the metallic element is subjected to a reduction process in a controlled atmosphere.Type: GrantFiled: April 12, 2006Date of Patent: November 9, 2010Assignee: Tolsa, S.A.Inventors: Julio Santarén Romé, Francisco Javier Limpo Orozco, Eduardo Aguilar Díez, Antonio Álvarez Berenguer, José Moya Corral, Carlos Pecharroman Garcia
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Publication number: 20100274039Abstract: The present invention relates to an esterification catalyst composition that includes a zirconium compound and a method for producing an ester compound, which includes the steps of esterifying alcohol and carboxylic acid compounds by using the same, and it may be applied to a mass synthesis process.Type: ApplicationFiled: December 24, 2008Publication date: October 28, 2010Inventors: Dai-Seung Choi, Yu-Chan Kang, Sung-Ho Chun, Heon Kim, Dong-Woo Yoo
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Patent number: 7820588Abstract: The invention relates to a catalyst for the oxidation of carbon monoxide (CO) at low temperatures, which is a catalytically active composition based on platinum and cobalt. The catalyst can be used in the removal of CO from hydrogen-rich gas for fuel cell technology in order to avoid poisoning the electrodes with CO. Further fields of application relate to the automobile sector, and in particular, to the effective removal of CO during cold starting of a diesel or petrol engine and also to air purification systems for quality control of air in interior spaces, e.g., the removal of CO in a tunnel, an underground railway, multi-story car parks or submarines.Type: GrantFiled: December 1, 2006Date of Patent: October 26, 2010Assignees: Ford Global Technologies, LLC, Fraunhofer-GesellschaftInventors: Albert Chigapov, Brendan Carberry, Alexander Susdorf
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Patent number: 7816295Abstract: A hydrocarbon trap comprises an Ag-zeolite which is heated by a unique steaming regimen.Type: GrantFiled: June 5, 2008Date of Patent: October 19, 2010Assignee: BASF Catalysts LLCInventors: Xinsheng Liu, Xinyi Wei
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Patent number: 7799729Abstract: In one embodiment, a reforming catalyst can include indium, tin, and a catalytically effective amount of a group VIII element for one or more reforming reactions. Typically, at least about 25%, by mole, of the indium is an In(3+) species based on the total moles of indium after exposure for about 30 minutes in an atmosphere including about 100% hydrogen, by mole, at a temperature of about 565° C. Usually, no more than about 25%, by mole, of the tin is a Sn(4+) species based on the total moles of tin after exposure for about 30 minutes in an atmosphere including about 100% hydrogen, by mole, at a temperature of about 565° C.Type: GrantFiled: February 23, 2009Date of Patent: September 21, 2010Assignee: UOP LLCInventors: Gregory J. Gajda, Mark Paul Lapinski, Jeffry Thurston Donner, Simon Russell Bare
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Publication number: 20100222205Abstract: A method of manufacturing a catalyst body which includes: combining one or more inorganic components with an inorganic binder, and optionally with an organic binder, to form a mixture, the one or more inorganic components comprising a primary phase material being zeolite, or CeO2—ZrO2, or a combination; forming the mixture into a shaped body; firing the shaped body to allow the inorganic binder to bind the one or more inorganic components; impregnating the shaped body with a source of a reducing or oxidizing element; and heating the impregnated shaped body to form a redox oxide from the source, the redox oxide being supported by the shaped body.Type: ApplicationFiled: February 27, 2009Publication date: September 2, 2010Inventors: Steven Bolaji Ogunwumi, Mallanagouda Dyamanagouda Patil
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Publication number: 20100191006Abstract: The invention is directed to a catalyst useful in the epoxidation of an olefin to an olefin oxide, the catalyst comprising a support having a multimodal pore size distribution comprising a first and a second distribution of pore sizes wherein each distribution of pore sizes possesses a different mean pore size and a different pore size of maximum concentration, the support having a catalytically effective amount of silver, a promoting amount of rhenium, and cesium in an amount up to, but not exceeding 700 ppm disposed thereon. The invention is also directed to methods for using the catalyst for the commercial production of an olefin oxide from olefin and oxygen-containing feed gases.Type: ApplicationFiled: January 27, 2009Publication date: July 29, 2010Applicant: SCIENTIFIC DESIGN COMPANY, INC.Inventor: Christian Guckel
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Patent number: 7745373Abstract: The present invention is a method to activate a noble metal complex dispersed on a catalyst support comprising calcining in hydrogen in order to decompose and reduce the noble metal complex in a single step. In a preferred embodiment, the noble metal catalyst is a combination of platinum and palladium and the noble metal complexes are the hydroxides.Type: GrantFiled: March 24, 2006Date of Patent: June 29, 2010Assignee: ExxonMobil Research and Engineering CompanyInventors: Stephen J. McCarthy, William G. Borghard
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Publication number: 20100137666Abstract: A catalyst for aromatizing a lower hydrocarbon, in order to increase the amount of production of useful aromatic compounds, such as benzene and toluene, by improving the methane conversion rate, the benzene formation rate, the naphthalene formation rate and the BTX formation rate (or a total formation rate of benzene, toluene and xylene) is such that molybdenum and silver are loaded on a metallosilicate as a substrate. It is more preferable to obtain the aromatizing catalyst by loading molybdenum and silver after modifying a zeolite formed of the metallosilicate with a silane compound that has a molecular diameter larger than a pore diameter of the zeolite and that has an amino group, which selectively reacts at a Bronsted acid point of the zeolite, and a straight-chain hydrocarbon group.Type: ApplicationFiled: March 28, 2008Publication date: June 3, 2010Inventors: Shinichi Yamada, Tomohiro Yamada, Yuji Ogawa, Takuya Hatagishi, Yo Yamamoto, Yoshio Sugiyama
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Patent number: 7723255Abstract: Highly active, recoverable and recyclable transition metal-based metathesis catalysts and their organometallic complexes including dendrimeric complexes are disclosed, including a Ru complex bearing a 1,3-dimesityl-4,5-dihydroimidazol-2-ylidene and styrenyl ether ligand. The heterocyclic ligand significantly enhances the catalytic activity, and the styrenyl ether allows for the easy recovery of the Ru complex. Derivatized catalysts capable of being immobilized on substrate surfaces are also disclosed. The present catalysts can be used to catalyze ring-closing metathesis (RCM), ring-opening (ROM) and cross metatheses (CM) reactions, and promote the efficient formation of various trisubstituted olefins at ambient temperature in high yield.Type: GrantFiled: July 11, 2005Date of Patent: May 25, 2010Assignee: The Trustees of Boston CollegeInventors: Amir H. Hoveyda, Jason Kingsbury, Steven Garber, Brian Lawrence Gray, John T. Fourkas
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Publication number: 20100094059Abstract: A method is described to prepare a Mo containing supported catalyst comprising TeO2 as active promoter and a process for preparing methanethiol in the presence of said catalyst.Type: ApplicationFiled: May 25, 2007Publication date: April 15, 2010Inventors: Yiquan Yang, Aiping Chen, Qi Wang, Jan-Olaf Barth, Christoph Weckbecker, Klaus Huthmacher
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Publication number: 20100094070Abstract: Bimetallic, supported catalysts for production of 1-hexene from ethylene are manufactured by impregnating a porous, solid support material with at least one catalytic chromium compound and at least one catalytic tantalum compound. The bimetallic, supported catalysts have high catalytic turnover, high selectivity for 1-hexene production, a low tendency for metals to leach from the catalysts during manufacturing and use compared to catalysts manufactured using known techniques. Moreover, the catalysts can be reused in multiple synthesis runs. High turnover, high selectivity, and reusability improve yields and reduce the costs associated with producing 1-hexene from ethylene, while the absence of metal leaching reduces the potential environmental impacts of using toxic metal catalysts (e.g., chromium).Type: ApplicationFiled: October 15, 2008Publication date: April 15, 2010Applicant: HEADWATERS TECHNOLOGY INNOVATION, LLCInventors: He Qiu, Bing Zhou
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Publication number: 20100075834Abstract: The present invention provides a process for the preparation of metal-doped zeolites comprising the steps of i) provision of a dry mixture of a) a zeolite, b) a compound of a catalytically active metal, ii) intimate grinding of the mixture, iii) heating of the mixture in a reactor, iv) cooling to room temperature and obtaining the metal-doped zeolite, wherein the internal pressure in the reactor during the heating is kept in a pressure range from 0 to ?200 millibar. The invention further relates to the use of a metal-doped zeolite prepared by means of the process according to the invention for the conversion of NOx and N2O into harmless products.Type: ApplicationFiled: July 19, 2007Publication date: March 25, 2010Inventors: Soovi Hurgobin, Arno Tissler, Ashveer Raghunandan, Attila Jambor, Rainer Rakoczy, Roderik Althoff
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Publication number: 20100038316Abstract: The present application thus provides a composite composition comprising PTFE and zeolite. According to another aspect, the present application provides a method for making a composite article comprising bonding zeolite to PTFE. According to still yet another aspect of the present application, a method for separating components of the mixture comprising contacting the mixture with a composite composition comprising PTFE and zeolite is disclosed.Type: ApplicationFiled: August 12, 2008Publication date: February 18, 2010Applicant: GENERAL ELECTRIC COMPANYInventor: Gopakumar Thottupurathu
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Publication number: 20100021375Abstract: The invention relates in general to the field of catalysts, in particular to a catalyst. More specifically, the invention relates to a catalyst for metal hydride chemical decomposition. In an embodiment of the invention, there is provided a catalyst for the chemical decomposition of metal hydrides, comprising a transition metal, or an alloy of several elements, wherein at least one of said elements is a transition metal; and an organic molecule.Type: ApplicationFiled: July 23, 2009Publication date: January 28, 2010Inventors: Alex Silberman, Shmuel Keren
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Publication number: 20100016647Abstract: A catalyst for producing aromatic compounds from lower hydrocarbons while improving activity life stability of methane conversion rate; benzene formation rate; naphthalene formation rate; and total formation rate of benzene, toluene and xylene is formed by loading molybdenum and copper on metallo-silicate serving as a substrate and then calcining the metallo-silicate. When the catalyst is reacted with a reaction gas containing lower hydrocarbons and carbonic acid gas, aromatic compounds are produced. In order to obtain the catalyst, it is preferable that molybdenum and copper are loaded on zeolite formed of metallo-silicate after the zeolite is treated with a silane compound larger than a pore of the zeolite in diameter and having an amino group and a straight-chain hydrocarbon group, the amino group being able to selectively react with the zeolite at a Bronsted acid point of the zeolite. It is preferable that a loaded amount of molybdenum is within a range of from 2 to 12 wt.Type: ApplicationFiled: February 13, 2008Publication date: January 21, 2010Applicant: MEIDENSHA CORPORATIONInventors: Shinichi Yamada, Tomohiro Yamada, Yuji Ogawa, Hirokazu Akiyama, Takuya Hatagishi
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Publication number: 20100010280Abstract: A stationary or fluid bed dehydrogenation catalyst containing an alumina carrier, with chromium and alkali metals consisting of only sodium and potassium, added as promoters. The resultant catalyst demonstrates greater selectivity and olefin yield than prior art dehydrogenation catalysts, especially after aging.Type: ApplicationFiled: July 14, 2008Publication date: January 14, 2010Applicant: SUD-CHEMIE INC.Inventor: Vladimir Fridman
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Publication number: 20100008840Abstract: The present invention relates to a novel method for preparing a new type of catalyst for the oxidation of CO in a reactant gas or air. The method provides the preparation of a catalyst having nano-sized metal particles and a capping agent deposited on a solid support. The size and distribution of the metal particles can be easily controlled by adjusting reaction condition and the capping agent used. The catalyst prepared has high activity at low temperature toward selective oxidation of CO and is stable over an extended period of time. The catalyst can be used in air filter devices, hydrogen purification processes, automotive emission control devices (decomposition of NOx, x is the integer 1 or 2), F-T synthesis, preparation of fuel-cell electrode, photocatalysis and sensors.Type: ApplicationFiled: November 13, 2006Publication date: January 14, 2010Applicant: Agency For Science, Technology and ResearchInventors: Ziyi Zhong, Jianyi Lin
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Publication number: 20090291034Abstract: A honeycomb structure includes at least one honeycomb unit including zeolite, an inorganic binder, and cell walls. The cell walls extend from a first end face to a second end face to define cells along a longitudinal direction of the at least one honeycomb unit. Each of the cell walls includes a center part in the longitudinal direction and a first end part adjacent to the first end face. The first end part has a thickness larger than a thickness of the center part, and/or the first end part has a porosity smaller than a porosity of the center part.Type: ApplicationFiled: May 26, 2009Publication date: November 26, 2009Applicant: IBIDEN CO., LTD.Inventors: Kazushige OHNO, Masafumi Kunieda, Takahiko Ido
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Publication number: 20090286671Abstract: The invention relates to a process for preparing an essentially spherical support for olefin polymerization catalysts, which comprises the steps: preparation of a hydrogel comprising a cogel of silicon oxide and at least one further metal oxide, if appropriate, washing of the hydrogel until the content of alkali metal ions is less than 0.1% by weight, based on the weight of solids, extraction of the water from the hydrogel until the water content is less than 5% by weight, based on the total content of liquid, and drying of the hydrogel to form a xerogel. According to the invention, the extraction step comprises at least one batchwise extraction with an organic solvent which is at least partially miscible with water down to a water content of less than 50% by weight, followed by at least one continuous extraction with an organic solvent which is at least partially miscible with water.Type: ApplicationFiled: December 4, 2006Publication date: November 19, 2009Applicant: Basell Polyolefine GmbHInventors: Christoph Kiener, Ingo Treffkorn, Guido Funk
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Patent number: 7605110Abstract: A ceramic body, a ceramic catalyst body, a ceramic catalyst body and related manufacturing methods are disclosed wherein a cordierite porous base material has a surface, formed with acicular particles made of a component different from that of cordierite porous base material, which has an increased specific surface area with high resistance to a sintering effect. The ceramic body is manufactured by preparing a slurry containing an acicular particle source material, preparing a porous base material, applying the slurry onto a surface of the porous base material and firing the porous base material, whose surface is coated with the slurry, to cause acicular particles to develop on the surface of the porous base material. A part of or a whole of surfaces of the acicular particles is coated with a constituent element different from that of the acicular particles.Type: GrantFiled: April 5, 2007Date of Patent: October 20, 2009Assignees: Denso Corporation, Nippon Soken, Inc.Inventors: Keiichi Yamada, Kazuhiko Koike, Katsumi Yoshida, Hideki Kita, Naoki Kondo, Hideki Hyuga
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Publication number: 20090247403Abstract: A honeycomb structure includes at least one a honeycomb unit having a longitudinal direction. The at least one honeycomb unit includes a SOx occluding agent, inorganic particles, an inorganic binder, and partition walls extending along the longitudinal direction to define plural through-holes. A relationship 5X+30?Y?5X+45 (about 1.0?X?about 2.5) is satisfied, wherein a content of the SOx occluding agent in the partition walls is expressed by X (mol/L) and a porosity of the at least one honeycomb unit is expressed by Y (%).Type: ApplicationFiled: October 7, 2008Publication date: October 1, 2009Applicant: IBIDEN CO., LTD.Inventors: Takahiko IDO, Chizuru Kasai
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Publication number: 20090227820Abstract: A geometrically shaped solid carrier is provided that improves the performance and effectiveness of an olefin epoxidation catalyst for epoxidizing an olefin to an olefin oxide. In particular, improved performance and effectiveness of an olefin epoxidation catalyst is achieved by utilizing a geometrically shaped refractory solid carrier in which at least one wall thickness of said carrier is less than 2.5 mm.Type: ApplicationFiled: March 10, 2008Publication date: September 10, 2009Applicant: SD LIZENZVERWERTUNGSGESELLSCHAFT MBH & CO. KGInventors: Serguei Pak, Andrzej Rokicki, Howard Sachs
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Patent number: 7582202Abstract: A Composition comprising one or more metal hydroxy salts and a matrix, binder or carrier material, wherein the metal hydroxy salt is a compound comprising (a) as metal either (i) one or more divalent metals, at least one of them being selected from the group consisting of Ni, Co, Ca, Zn, Mg, Fe, and Mn, or (ii) one or more trivalent metal(s), (b) framework hydroxide, and (c) a replaceable anion. This composition has various catalytic applications.Type: GrantFiled: February 10, 2004Date of Patent: September 1, 2009Assignees: Akzo Nobel N.V., Albemarle Netherlands B.V.Inventors: William Jones, Paul O'Connor, Dennis Stamires
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Patent number: 7569511Abstract: An alcohol steam reforming catalyst for generating hydrogen contains palladium, yttrium, and at least one of cerium and a metal oxide. The catalyst displays both an improved alcohol conversion rate and improved carbon dioxide selectivity. Methods of making and using the alcohol steam reforming catalyst are described.Type: GrantFiled: May 5, 2006Date of Patent: August 4, 2009Assignee: BASF Catalysts LLCInventors: Christopher R. Castellano, Ye Liu, Ahmad Moini, Gerald Stephen Koermer, Robert Joseph Farrauto
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Patent number: 7563744Abstract: The present invention relates to a catalyst for the purification of exhaust gases from an internal combustion engine, which comprises a catalytically active coating on an inert ceramic or metal honeycomb body, said coating comprising at least one platinum group metal selected from the group consisting of platinum, palladium, rhodium and iridium on a fine, oxidic support material. As an oxidic support material, the catalyst comprises a low-porosity material on the basis of silicon dioxide that comprises aggregates of essentially spherical primary particles having an average particle diameter of between 7 and 60 nm.Type: GrantFiled: August 8, 2002Date of Patent: July 21, 2009Assignee: Umicore AG & Co. KGInventors: Harald Klein, Ulrich Neuhausen, Egbert Lox, Jürgen Gieshoff, Thomas Kreuzer
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Publication number: 20090171041Abstract: The present invention provides polymerization catalyst compositions employing novel dinuclear metallocene compounds. Methods for making these new dinuclear metallocene compounds and for using such compounds in catalyst compositions for the polymerization and copolymerization of olefins are also provided.Type: ApplicationFiled: December 28, 2007Publication date: July 2, 2009Applicant: Chevron Phillips Chemical CompanyInventors: Rex E. Murray, Kumudini C. Jayaratne, Qing Yang, Joel L. Martin
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Publication number: 20090163355Abstract: Plasma modifications of catalyst supports before and after impregnation of metal precursors improve the activity, selectivity and stability of catalysts, e.g. Ni catalysts for benzene hydrogenation and Pd catalysts for selective hydrogenation of acetylene. Plasma modification of the support before impregnation is slightly more effective than the plasma modification after impregnation. However, plasma modifications after impregnation increase the stability and selectivity of catalysts more effectively. The economic benefit of much improved stability of Ni catalysts for hydrogenation of benzene and the enhanced activity and selectivity of Pd catalysts for acetylene hydrogenation, e.g., is significant. Similar benefits for various catalysts and other industrial processes via RF plasma techniques are expected.Type: ApplicationFiled: August 31, 2007Publication date: June 25, 2009Inventors: Wen-Long Jang, Chalita Ratanatawanate
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Publication number: 20090143221Abstract: Zeolite-based honeycomb bodies and methods of manufacturing same. Zeolite-based honeycomb bodies especially suited for engine exhaust treatment applications include a primary phase comprising a zeolite having a SiO2 to Al2O3 molar ratio in the range from 5 to 300. The zeolite-based composites are porous with an open porosity of at least 25% and a median pore diameter of at least 1 micron. The zeolite-based honeycomb bodies can be manufactured by an extrusion method.Type: ApplicationFiled: November 21, 2008Publication date: June 4, 2009Inventors: Steven Bolaji Ogunwumi, Patrick David Tepesch, Raja Rao Wusirika
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Patent number: 7541413Abstract: A catalyst system for the polymerization or copolymerization of ?-olefins comprises a bis(imino)pyridyl complex of a transition metal on a support having an aluminum halide and/or an alkylaluminum halide chemically or physically bonded thereto.Type: GrantFiled: October 2, 2007Date of Patent: June 2, 2009Assignee: ExxonMobil Chemical Patents Inc.Inventors: Donna J. Crowther, Celestino M. Perez
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Publication number: 20090136401Abstract: Sorbents for removal of mercury and other pollutants from gas streams, such as a flue gas stream from coal-fired utility plants, and methods for their manufacture and use are disclosed. Embodiments include brominated sorbent substrate particles having a carbon content of less than about 10%. Other embodiments include one or more oxidatively active halides of a nonoxidative metal dispersed on sorbent substrate particles mixed with activated carbon in an amount up to 30% by weight.Type: ApplicationFiled: December 5, 2008Publication date: May 28, 2009Applicant: BASF Catalysts LLCInventors: Xiaolin David Yang, Pascaline Harrison Tran, Lawrence Shore
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Patent number: 7538065Abstract: An improved noble metal-containing catalyst containing a specific ratio of silica to aluminum in the framework suitable for use in the hydroprocessing of hydrocarbonaceous feeds, which is directed at a catalyst comprising a hydrogenation-dehydrogenation component selected from the Group VIII noble metals and mixtures thereof on a mesoporous support having aluminum incorporated into its framework and an average pore diameter of about 15 to less than about 40 ?.Type: GrantFiled: August 17, 2005Date of Patent: May 26, 2009Assignee: International Business Machines CorporationInventors: Stephen J. McCarthy, Wenyih F. Lai, Sylvain S. Hantzer, Ian A. Cody