Abstract: Embodiments of the present technology may include a curable, carbohydrate binder composition. The composition may include a carbohydrate. The composition may also include a urea compound. The composition may further include a nitrogen-containing compound. The nitrogen-containing compound may not be the urea compound.
Abstract: The invention relates to a process for preparing bulk metal oxide particles comprising the steps of combining in a reaction mixture (i) dispersible nanoparticles having a dimension of less than about 1 ?m upon being dispersed in a liquid, (ii) at least one Group VIII non-noble metal compound, (iii) at least one Group VIB metal compound, and (iv) a protic liquid; and reacting the at least one Group VIII non-noble metal compound and the at least one Group VIB metal in the presence of the nanoparticles. It also relates to bulk metal hydroprocessing catalysts obtainable by such method.
Type:
Grant
Filed:
December 4, 2008
Date of Patent:
April 17, 2018
Assignee:
Albemarle Netherlands B.V.
Inventors:
Sona Eijsbouts-Spickova, Robertus Gerardus Leliveld, Paul Joseph Maria Lebens, Frans Lodewijk Plantenga, Bob Gerardus Oogjen, Henk Jan Tromp, Stuart Leon Soled, Sabato Miseo
Abstract: A microfibrous cellulose aggregate including microfibrous cellulose having an average fiber width of 2 nm to 50 nm and a liquid compound including at least one of water or an organic solvent. The content of the microfibrous cellulose is from 6 mass % to 80 mass % per the mass of the entire microfibrous cellulose aggregate, and the content of the liquid compound is at least 15 mass % per the mass of the entire microfibrous cellulose aggregate.
Type:
Grant
Filed:
August 6, 2013
Date of Patent:
April 3, 2018
Assignee:
Oji Holdings Corporation
Inventors:
Go Banzashi, Hiroyuki Nagatani, Shino Iwai
Abstract: A platinum alloy catalyst PtXY, wherein X is nickel, cobalt, chromium, copper, titanium or manganese and Y is tantalum or niobium, characterised in that in the alloy the atomic percentage of platinum is 46-75 at %, of X is 1-49 at % and of Y is 1-35 at %; provided that the alloy is not 66 at % Pt20 at % Cr14 at % Ta or 50 at % Pt, 25 at % Co, 25 at % Ta is disclosed. The catalyst has particular use as an oxygen reduction catalyst in fuel cells, and in particular in phosphoric acid fuel cells.
Type:
Grant
Filed:
March 25, 2014
Date of Patent:
March 20, 2018
Assignee:
Johnson Matthey Fuel Cells Limited
Inventors:
Sarah Ball, Thomas Robertson Ralph, Brian Ronald Theobald, David Thompsett
Abstract: Nonwoven (and film) topsheet and acquisition/distribution materials treated with a hydrophilic, synthetic surfactant-free finish, absorbent articles for infant or incontinence care that contain these materials, and methods for apply such finishes and/or making such absorbent articles.
Abstract: The invention relates to a catalyst carrier for exhaust gas purification catalyst which contains a metal phosphate containing Zr, and it provides a new catalyst carrier which exhibits excellent NOx purification performance in a high temperature region. The invention proposes a carrier for exhaust gas purification catalyst containing a metal phosphate which has a NASICON type structure and contains Zr.
Abstract: Useful portions of equilibrium catalyst from a Fluid Catalytic Cracking unit are obtained by fractionating to obtain a narrow size fraction, followed by separation of the narrow size fraction using density as a fractionating criterion. Size fractionating may be performed in vibrating sieves, and the density fractionating may be performed in an air cyclone. Both beneficial and detrimental fractions can be identified; in one embodiment, large particles are removed from ECAT to improve the coking factor.
Abstract: A process for the preparation of a calcined mixed oxide comprising Al-, Ce- and Zr-oxides, comprising the steps of providing an aqueous slurry comprising hydroxides of cerium and zirconium, contacting the hydroxides of cerium and zirconium with an alumina precursor to obtain an aqueous suspension of solids, isolating the solids from the aqueous suspension and drying to obtain a solid composition, calcining the solid composition of step (c) at a temperature from 450° C. to 1200° C. for at least 1 hour to obtain a calcined mixed oxide.
Abstract: The present invention relates to a composition for generating oxygen, comprising at least one oxygen source selected from chlorates and perchlorates, to an oxygen generator comprising such a composition, and a method for generating oxygen by decomposing such a composition. The present invention further relates to the use of transition metal ortho-phosphate compounds ortho-vanadate compounds and mixed ortho-phosphate-vanadate compounds as multifunctional components in the oxygen generating compositions.
Abstract: The disclosure teaches an adhesion promoter comprising a first blend and second blend. The first blend can comprise water and a silane base. The first blend can comprise a first blend ratio of the silane base to the water of between 1:20 and 1:60, measured in liquid volume. The second blend can comprise an isopropyl alcohol. The disclosure further teaches a method for manufacturing an adhesion promoter. The method can comprise mixing a first ratio between 20 and 60 parts water with 1 part silane base to create a first blend. Next, the method can comprise mixing a second ratio between 20 and 60 parts isopropyl alcohol with between 0 to 1 part wetting agent. Then the method can comprise mixing a solution ratio between 30 and 50 parts of the first blend with 1 part the second blend.
Abstract: The present invention provides a catalyst precursor and a catalyst suitable for preparing multi-wall carbon nanotubes. The resulting multi-wall carbon nanotubes have a narrow distribution as to the number of walls forming the tubes and a narrow distribution in the range of diameters for the tubes. Additionally, the present invention provides methods for producing multi-wall carbon nanotubes having narrow distributions in the number of walls and diameters. Further, the present invention provides a composition of spent catalyst carrying multi-wall nanotubes having narrow distribution ranges of walls and diameters.
Abstract: A composition and method of preparing a composition is presented wherein the composition comprises cellulose platelets and the cellulose platelets comprise at least 60% cellulose by dry weight, less than 10% pectin by dry weight and at least 5% hemicellulose by dry weight. The composition can be concentrated to at least 25% by weight solids content by pressing under low pressure, whilst retaining the ability to be re suspended within an aqueous medium. The resulting aqueous medium obtains the desired properties of the composition, such as increased viscosity or increased dispersion of pigment particles, for example, to the same extent as the composition before pressing.
Abstract: Disclosed are catalysts comprised of platinum and gold. The catalysts are generally useful for the selective oxidation of compositions comprised of a primary alcohol group and at least one secondary alcohol group wherein at least the primary alcohol group is converted to a carboxyl group. More particularly, the catalysts are supported catalysts including particles comprising gold and particles comprising platinum, wherein the molar ratio of platinum to gold is in the range of about 100:1 to about 1:4, the platinum is essentially present as Pt(0) and the platinum-containing particles are of a size in the range of about 2 to about 50 nm. Also disclosed are methods for the oxidative chemocatalytic conversion of carbohydrates to carboxylic acids or derivatives thereof. Additionally, methods are disclosed for the selective oxidation of glucose to glucaric acid or derivatives thereof using catalysts comprising platinum and gold. Further, methods are disclosed for the production of such catalysts.
Type:
Grant
Filed:
October 12, 2016
Date of Patent:
November 7, 2017
Assignee:
Rennovia Inc.
Inventors:
Vincent J. Murphy, James Shoemaker, Guang Zhu, Raymond Archer, George Frederick Salem, Eric L. Dias
Abstract: The present invention provides a catalyst for producing a hydrocarbon from a syngas, including one of a cobalt metal and a combination of a cobalt metal and cobalt oxides; zirconium oxides; and a noble metal; supported by a catalyst support mainly composed of silica, wherein a content of impurities in the catalyst is less than or equal to 0.15 mass %; a producing method and regenerating method thereof; and a producing method of the hydrocarbon by using the catalyst.
Abstract: The invention relates to a method of preparing a catalytic composition comprising at least one non-noble metal from group VIII and at least one metal from group VIB of the periodic table. The invention also relates to the catalytic composition thus produced, which has a high specific activity in reactions involving the hydroprocessing of light and intermediate fractions, preferably in reactions involving the hydrotreatment of hydrocarbon streams, including hydrodesulphurisation (HDS), hydrodenitrogenation (HDN) and hydro-dearomatisation (HDA).
Type:
Grant
Filed:
December 4, 2014
Date of Patent:
October 3, 2017
Assignee:
INSTITUTO MEXICANO DEL PETROLEO
Inventors:
Jose Antonio Toledo Antonio, Miguel Perez Luna, Maria Antonia Cortes Jacome, Jose Escobar Aguilar, Maria de Lourdes Mosqueira Mondragon, Carlos Angeles Chavez, Esteban Lopez Salinas, Victor Perez Moreno, Gerardo Ferrat Torres, Rodolfo Juventino Mora Vallejo, Marcelo Lozada Y Cassou
Abstract: A liquid droplet-making composition is provided. The liquid droplet-making composition may provide a liquid droplet with improved retentivity by including cellulose ether and a saccharide.
Abstract: Nanowires useful as heterogeneous catalysts are provided. The nanowire catalysts are useful in a variety of catalytic reactions, for example, the oxidative coupling of methane to C2 hydrocarbons. Related methods for use and manufacture of the same are also disclosed.
Type:
Grant
Filed:
December 1, 2014
Date of Patent:
September 5, 2017
Assignee:
Siluria Technologies, Inc.
Inventors:
Fabio R. Zurcher, Erik C. Scher, Joel M. Cizeron, Wayne P. Schammel, Alex Tkachenko, Joel Gamoras, Dmitry Karshtedt, Greg Nyce, Anja Rumplecker, Jarod McCormick, Anna Merzlyak, Marian Alcid, Daniel Rosenberg, Erik-Jan Ras
Abstract: Provided is a production method for a porous alumina material, comprising the steps of: mixing an alkoxysilane solution that comprises an alkoxysilane, a mixed solvent comprising water and an alcohol, and an inorganic acid, with an aluminum solution comprising an aluminum compound and water, to prepare a mixed solution in which the aluminum compound and the alkoxysilane are dissolved in the mixed solvent; co-precipitating aluminum hydroxide with a silicon compound in the mixed solution, to form a precipitate; and baking the precipitate to form a porous alumina material comprising aluminum oxide and silicon oxide.
Type:
Grant
Filed:
July 30, 2015
Date of Patent:
August 29, 2017
Assignees:
Renaissance Energy Research Corporation, Institute of National Colleges of Technology, Japan
Inventors:
Akira Hasegawa, Osamu Okada, Chihiro Ito
Abstract: In one aspect, the invention provides a substantially exfoliated nanocomposite material including starch and hydrophobically modified layered silicate clay. In another aspect, the invention provides packaging made from material including the substantially exfoliated nanocomposite material described above. The nanocomposite material has improved mechanical and rheological properties and reduced sensitivity to moisture in that the rates of moisture update and/or loss are reduced. In another aspect, the invention provides a process for preparing the substantially exfoliated nanocomposite material described above, including a step of mixing the starch in the form of an aqueous gel with the hydrophobic clay in a melt mixing device.
Type:
Grant
Filed:
June 2, 2008
Date of Patent:
August 29, 2017
Assignee:
Plantic Technologies Ltd.
Inventors:
Kishan Khemani, Graeme Moad, Edmond Lascaris, Guoxin Li, George Simon, Jana Habsuda, Robert Shanks, Antonietta Genovese, Wasantha Gunaratne, Lance Nichols
Abstract: Bulk metallic catalyst precursor compositions are provided that include a Group VIB metal, a Group VIII metal, an organic-compound based component, and an organo-metalloxane polymer or gel. The catalyst precursor compositions can further include a binder. Amorphous sulfided catalysts formed from the catalyst precursor compositions are also provided. The catalyst precursor compositions can have a surface area of about 20 m2/g or less.
Type:
Grant
Filed:
August 22, 2016
Date of Patent:
August 15, 2017
Assignee:
ExxonMobil Research and Engineering Company
Inventors:
Majosefina Cunningham, Jason M. Golias, Chuansheng Bai