Abstract: The present invention relates to a catalytic composition which comprises an ERS-10 zeolite, a metal of group VIII, a metal of group VI and optionally one or more oxides as carrier. According to a preferred aspect, the catalytic composition also contains a metal of group II B and/or III A. The catalytic system of the present invention can be used in the upgrading of hydrocarbon mixtures having boiling ranges within the range of C4 to 250° C., preferably mixtures of hydrocarbons which boil within the naphtha range, containing impurities of sulfur, i.e. in hydrodesulfuration with the contemporaneous skeleton isomerization of olefins contained in these hydrocarbons, the whole process being carried out in a single step.
Abstract: A hydrogenation catalyst of the general formula AB(y)C(z) wherein A is a support comprising of a salt of a Group II A metal or zeolite, B is a noble metal selected from Pt or Pd, y=0.2 to 10%, C is nickel and z=0 to 15.0%, with the proviso that when B is Pt, z=0.
Type:
Grant
Filed:
August 28, 2001
Date of Patent:
December 9, 2003
Assignee:
Council of Scientific and Industrial Research
Inventors:
Raghunath Vitthal Chaudhari, Chandrashekhar Vasant Rode, Rengaswamy Jaganathan, Manisha Madhukar Telkar, Vilas Hari Rane
Abstract: This invention relates to a process for depositing one or more catalytically reactive metals on a carrier, said process comprising selecting a carrier and depositing a catalytically effective amount of one or more catalytically reactive metals on the carrier, the deposition effected by submersing the carrier in an impregnation solution wherein the hydrogen ion activity of the impregnation solution has been lowered. The invention further relates to catalysts made from the process.
Abstract: The invention relates to a spherical catalyst composition comprising a Group VI metal component and optionally a Group VIII metal component on a carrier, which catalyst has a particle size of 0.5-7 mm, a total pore volume of 0.5-1.3 ml/g, an average pore diameter of 15-30 nm, and a % PV(>100 nm) of 2-30%, there being substantially no difference in density between the core region of the carrier particles and their surface regions. The catalyst is particularly suitable for use in non-fixed bed processes for the hydroprocessing of heavy hydrocarbon feeds. It has high hydrodesulfurization and hydrodemetallization activity in combination with a high abrasion resistance.
Type:
Grant
Filed:
November 13, 2000
Date of Patent:
December 2, 2003
Assignees:
Nippon Ketjen Co., Ltd., Akzo Nobel N.V.
Abstract: Zeolite microsphere FCC catalysts having a novel morphology comprising a macroporous matrix and crystallized zeolite freely coating the walls of the pores of the matrix. The catalysts are formed from microspheres containing a metakaolin and kaolin calcined through its exotherm, the latter calcined kaolin being derived from a kaolin having a high pore volume. Kaolin having a high pore volume can be a pulverized ultrafine kaolin or a kaolin which has been pulverized to have an incipient slurry point less than 57% solids.
Type:
Grant
Filed:
September 20, 2001
Date of Patent:
December 2, 2003
Assignee:
Engelhard Corporation
Inventors:
David M. Stockwell, Randall P. Brown, Stephen H. Brown
Abstract: A method for continuously calcinating product to form mixed metal oxide powders comprising providing a continuously operated indirectly heated rotary furnace having a heating cavity, introducing raw feedstock including product to be calcined into the heating cavity of the furnace while the heating cavity is maintained at temperature, and maintaining a controlled atmosphere in the heating cavity during the heating of the feedstock, and discharging and recovering the mixed metal oxide powders.
Type:
Grant
Filed:
August 13, 2001
Date of Patent:
November 25, 2003
Assignee:
Ferro Corporation
Inventors:
Raymond E. Barnes, Richard A. Pipoly, Ivan H. Joyce, Javier Garcia Sainz
Abstract: Process for preparing zeolites of X type having an Si/Al atomic ratio of ≦1.5 and having exchangeable cations including lithium, trivalent and/or divalent ions, and optionally sodium, potassium, ammonium and/or hydronium ions, involves distributing starting zeolite in a series of receptacles, percolating a solution of at least one lithium compound through the series, drawing a lithium-containing bleed from first receptacle of the carrousel, and drawing off a final effluent stream from a final receptacle in the series. The effluent stream contains compounds of exchangeable cations from the starting zeolite and traces of the lithium compound(s). After a desired degree of lithium exchange has occurred in the first receptacle, the first receptacle is removed and a fresh solution of at least one lithium compound is introduced into the next receptable in the series and percolated through the series. This step can be performed for each receptacle in the series.
Abstract: A methanol-decomposing catalyst comprises catalytically active components containing copper and zinc, and a carrier composed of zirconia and/or titania and ceria for supporting the catalytically active components. The methanol-decomposing catalyst has excellent catalytic activity, thereby efficiently producing a hydrogen gas while suppressing side reactions.
Abstract: A method and composition for the removal of contaminants in a gas stream used in the contamination sensitive processes of photolithography and metrology are described. The synergistic effect of a combination of an electropositive metal component, a high silica zeolite, and a late transition metal compound effects removal or reduction of the contaminates in the gas which interfere with light transmittance to the ppb or ppt levels necessary for the gas to be suitable for these uses. The removal of neutral polar molecules, neutral polar aprotic molecules, protic and aprotic alkaline molecules, acidic polar species, and neutral non-polar aprotic molecules is accomplished with the claimed composition. Depending on the type of contaminant, the composition components are each varied from 10 to 80 parts by volume, with the total composition limited to 100 parts by volume.
Type:
Grant
Filed:
February 19, 2002
Date of Patent:
November 11, 2003
Assignee:
Aeronex, Inc.
Inventors:
Daniel Alvarez, Jr., Jeffrey J. Spiegelman
Abstract: The present invention relates to a method for the removal of the templating agent from synthetic zeolites in general and in particular from silicalite, titanium silicalite and from composite materials containing zeolites and for their activation as catalysts.
The method consists in treating the above materials with solvents in vapor phase and at a low temperature.
Abstract: Certain metal-exchanged SUZ-4 zeolites have been prepared that have catalytic activity for the reduction of NOx in the exhaust of a hydrocarbon or alcohol fueled engine operated under fuel lean conditions. Initially the SUZ-4 zeolite contains alkali metal cations such as Li+, Na+, K+ and/or Cs+. These alkali metal cation-containing zeolites are partially exchanged with at least one of copper (II), silver (I), iron (III) or cobalt (II) ions. The resulting partially exchanged SUZ-4 zeolites display such activity and are stable under extreme hydrothermal aging conditions.
Type:
Grant
Filed:
October 18, 2001
Date of Patent:
November 11, 2003
Assignee:
General Motors Corporation
Inventors:
Byong Kwon Cho, Richard J. Blint, Ayyappan Subbiah
Abstract: A novel and efficient process for the loading of metals onto adsorbent beds in an overall adsorption system comprising at least two beds can overcome many of the problems associated with traditional metal-loaded adsorbent preparation techniques. These problems include waste stream generation and disposal, drying requirements, and shrinkage/swelling effects. In addition to an adsorption bed, the system includes either an upstream bed (e.g. a pretreatment bed) or a downstream bed (e.g. a post treatment bed). These supplemental beds are often not loaded initially with metal, but can serve to guard against poisons and foulants that detrimentally affect the overall adsorption. The method is useful for in-situ ion exchange loading of metals for which the adsorbent has a strong affinity. The method is particularly advantageous for loading iodine-reactive metals (e.g. silver) onto zeolitic or resin-based adsorbents used for treating iodine-containing feeds, such as commercial acetic acid product streams.
Abstract: An adsorbent for a hydrocarbon, comprising a calcined &bgr;-type zeolite showing a powder X-ray diffraction such that the sum of X-ray diffraction intensities at lattice spacings d=1.15±0.03 nm and d=0.397±0.01 nm, is at least 90% of the diffraction intensity at d=0.346±0.01 nm of Catalysis Society reference catalyst JRC-Z-HM-20(3).
Abstract: The disclosed invention relates to the field of ceramics and concerns an open-cell expanded ceramic which may be used in the form of a deep-bed filter, and a process for the production thereof. The primary object is to produce an open-cell expanded ceramic by a simple and economical process. This object is attained by an open-cell expanded ceramic in which the inner cavities, cracks and the porosity of the ceramic members are filled partially or completely by one or a plurality of metal and/or ceramic phases and/or glass phases. The open-cell expanded ceramic is also produced in that during or after sintering the cavities, cracks and the porosity of the ceramic members are partially or completely filled with a melt or a suspension which melt below the melting temperature of the expanded ceramic, have a coefficient of expansion similar to the coefficient of expansion of the expanded ceramic, and a very good wetting capacity, and only react partially or not at all with constituents of the expanded ceramic.
Type:
Grant
Filed:
May 24, 1999
Date of Patent:
October 21, 2003
Assignee:
Frauhofer-Gesellschaft zur Forderung der Angewandten
Forschung E V
Inventors:
Joerg Adler, Michael Teichgraeber, Gisela Standke, Helmut Jaunich, Heike Stoever, Reinhard Stoetzel
Abstract: The present invention concerns a process for pretreating a catalyst used in hydrocarbon conversion processes, comprising the following steps:
a) pretreating a catalyst containing at least one zeolite with structure type EUO and at least one hydrodehydrogenating metal in the presence of a hydrocarbon feed, at a temperature such that a catalyst comprising carbon is obtained;
b) then treating the hydrocarbon feed and the catalyst at a temperature which is lower than the temperature applied in step a).
The invention also concerns an activated catalyst and its use in a process for isomerizing aromatic compounds containing 8 carbon atoms.
Type:
Grant
Filed:
June 22, 2000
Date of Patent:
October 21, 2003
Assignee:
Institut Francais de Petrole
Inventors:
Julia Magne-Drisch, Jean-François Joly, Elisabeth Merlen, Fabio Alario
Abstract: An improved porous substrate for zeolite membranes is formed by coating the substrate with a layer of zeolite particles of a narrow particle distribution size of between 20 and 0.01 microns.
Type:
Grant
Filed:
April 3, 2001
Date of Patent:
October 21, 2003
Assignee:
Smart (Isle of Man) Limited
Inventors:
Graham John Bratton, Karon Doreen Buck, Timothy de Villiers Naylor, Martin Grayling Major
Abstract: An adsorbent for HC in an exhaust gas is an agglomerate of double-structure particles, each of which includes an HC-adsorbing zeolite core, and a ceramic coat wrapping the zeolite core and having a plurality of through-pores communicating with a plurality of pores in the zeolite core. Each of the double-structure particles is at least one of a double-structure particle including the zeolite core comprising a single zeolite particle, and a double-structure particle including the zeolite core comprising a plurality of zeolite particles. Each of the through-pores in the ceramic coat has such a shape that the HC is easy to flow into the through-pore and difficult to flow out of the through-pore.
Type:
Grant
Filed:
March 12, 2001
Date of Patent:
October 14, 2003
Assignees:
University of Missouri-Columbia, Honda Giken Kogyo Kabushiki Kaisha
Inventors:
Sudarshan Loyalka, Tushar Ghosh, Robert V. Tompson, Jr., George Vosnidis, Gregory A. Holscher, Hiroshi Ogasa, Tetsuo Endo
Abstract: The low stability of some molecular sieves can be overcome during calcination by a solid state reaction between the molecular sieve and a salt. Molecular sieves including zeolites, metal substituted aluminosilicates, and metallosilicates can be stabilized by this method. The inventive process comprises mixing such molecular sieve with a salt, either directly or as a slurry; and then heating the resulting mixture to remove water, organics and adsorbed species.
Abstract: Applicant has developed an improved adsorbent useful in removing contaminants from various hydrocarbon streams. The adsorbent contains a zeolite, an alumina and a metal component. The metal component (Madd) is present in an amount at least 10 mole % the stoichiometric amount of metal (M) (expressed as the oxide) needed to balance the negative charge of the zeolite lattice. In a specific application an adsorbent comprising zeolite X, alumina and sodium is used to purify an ethylene stream in order to remove CO2, H2S, methanol, and other S— and O— containing compounds.
Abstract: The current invention describes organoclay compositions and methods of using them for removing impurities from contaminated liquids. The compositions are formed by contacting an attapulgite, sepiolite, or zeolite clay mineral with an alkylamine base. The method of use involves contacting the organoclay composition with a contaminated liquid, such as oil in water, allowing the organoclay to absorb the contaminants. The organoclay can be in the form of a granular solid for inline filter applications, or it can be a finely divided powder for other applications.
Type:
Grant
Filed:
April 24, 2001
Date of Patent:
September 30, 2003
Assignee:
Polymer Ventures, Inc.
Inventors:
Christopher B. Murphy, Jonathan M. Fabri, Robert P. Mahoney