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Results 1-10 of 47,776 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. WO/2015/100313 INORGANIC OXIDE MATERIALWO02.07.2015
B01D 53/94
PCT/US2014/072129RHODIA OPERATIONSZHAO, Qiang
The present teachings are directed to inorganic oxide materials that include Al2O3, CeO2, and at least one of MgO and Pr6O11. The present teachings are also directed to catalysts having at least one noble metal supported on these inorganic oxide materials, as well as methods for treating exhaust gases from internal combustion engines using such catalysts.

2. WO/2015/097454 EXHAUST SYSTEM FOR A COMPRESSION IGNITION ENGINE COMPRISING A WATER ADSORBENT MATERIALWO02.07.2015
F01N 3/08
PCT/GB2014/053774JOHNSON MATTHEY PUBLIC LIMITED COMPANYCHANDLER, Guy Richard
An exhaust system for a compression ignition engine comprising: a water adsorbent material; and a catalyst composition for treating an exhaust gas pollutant produced by the compression ignition engine;wherein the water adsorbent material is:(i)arranged to contact exhaust gas from the compression ignition engine before the catalyst composition; and(ii) in thermal communication with the catalyst composition.

3. WO/2015/099432 MULTI-PIPE TYPE CARBON DIOXIDE CAPTURE DEVICEWO02.07.2015
B01D 53/02
PCT/KR2014/012769INDUSTRY-ACADEMIC COOPERATION FOUNDATION, YONSEI UNIVERSITYCHO, HyungHee
A carbon dioxide capture device of the present invention is a carbon dioxide capture device for selectively separating carbon dioxide from exhaust gas including the carbon dioxide, and comprises a plurality of carbon dioxide absorption and desorption units in which carbon dioxide absorption and carbon dioxide desorption continuously occur while a filled carbon dioxide absorbent circulates in an absorption reactor and a desorption reactor, wherein: absorption heat generated from an absorption reactor of at least one carbon dioxide absorption and desorption unit is transferred to a desorption reactor of another carbon dioxide absorption and desorption unit such that a mutual heat exchange occurs; and the absorption reactor, in which the mutual heat exchange occurs, is inserted into the desorption reactor, or the desorption reactor is inserted into the absorption reactor.

4. WO/2015/099612 METHOD OF PRODUCING METAL CARBONATE FROM AN ULTRAMAFIC ROCK MATERIALWO02.07.2015
C22B 26/20
PCT/SG2014/000613AGENCY FOR SCIENCE, TECHNOLOGY AND RESEARCHBU, Jie
A method of producing a metal carbonate from an ultramafic rock material is provided. The method includes providing an ultramafic rock material comprising a metal silicate; reacting the ultramafic rock material with an acid to form a mixture comprising a salt of the metal; contacting the mixture comprising a salt of the metal with oxygen so as to aerate impurities in the mixture and/or to remove residual acid from the mixture; heating the resultant mixture to decompose the salt of the metal to form metal oxide; and reacting the metal oxide with aqueous ammonium carbonate to obtain the metal carbonate. A system for producing a metal carbonate from ultramafic rock material is also provided.

5. WO/2015/100075 SOLID BINARY COPPER-SILICON MATERIAL CATALYSTS FOR EMISSIONS CONTROLWO02.07.2015
B01D 53/94
PCT/US2014/070659DOW CORNING CORPORATIONSHAMAMIAN, Vasgen A.
New solid binary copper-silicon material catalysts for emissions control and methods of making and using the same are disclosed. The methods may include combusting a substance, thereby producing an exhaust gas having a pollutant therein. The pollutant may comprise at least one of CO, NOx, plain hydrocarbons and oxygenated hydrocarbons. The exhaust gas may be contacted with a solid binary copper-silicon material, thereby catalytically converting at least a portion of the pollutant into a product. The methods may include methods of producing binary copper-silicon materials loaded on a porous high-surface area material.

6. WO/2015/097674 METHOD FOR CARBONATING INDUSTRIAL AND URBAN WASTE AND REGENERATING REAGENTSWO02.07.2015
C01B 31/24
PCT/IB2014/067286UNIVERSIDADE FEDERAL DE MINAS GERAIS - UFMGMAGELA DE LIMA, Geraldo
The present invention describes a cyclic method which efficiently integrates CO2 capture and the conversion thereof into carbonates, with low energy consumption. The method uses industrial and urban waste rich in cations of metals selected from the group M, which comprises Ca2+, Mg2+, Ba2+, Sr2+, Pb2+, Fe2+ and Cd2+, to produce carbonates of the respective cations and regenerate the reagents. The main features of this invention are the complete regeneration of the reagents, the efficient precipitation of carbonates without requiring pH adjustment, and the production of high-purity carbonates.

7. WO/2015/100087 PRESSURIZED FORWARD OSMOSIS PROCESS AND SYSTEMWO02.07.2015
C02F 1/44
PCT/US2014/070745CREIGHTON, RobertCREIGHTON, Robert
A pressurized forward osmotic separation process is disclosed. Generally there are two processes described. One process involves the concentration of a target solute in the first solution; the other process involves the extraction of a solvent from a first solution both by a second solution comprising of water and soluble gas or water, soluble gas, and a compound by creating an osmotic concentration gradient across the semi permeable membrane. The first solution is under pressure from an inert gas and the second solution is under pressure from a soluble gas with equal system pressures greater than 1 atmosphere. The increase or decrease of partial pressure of the soluble gas in the second solution increases or decreases the chemical potential of the second solution to achieve different solution properties. The soluble gas may be carbon dioxide and the compound may be magnesium hydroxide.

8. WO/2015/097455 NOVEL PURIFICATION PROCESSESWO02.07.2015
C02F 1/52
PCT/GB2014/053777T&L SUGARS LIMITEDKERR, John
The invention relates to a process for the removal of contaminants from a liquor, the process comprising a combination of two or more of carbonatation, phosphatation and sulphitation of the liquor to form precipitate comprising at least some of the contaminants from the liquor, and separating the precipitate from the liquor. The processes may be included in sugar refining or water decontamination processes.

9. 2888460 METHOD OF DRIVING A CO2 COMPRESSOR OF A CO2-CAPTURE SYSTEM USING WASTE HEAT FROM AN INTERNAL COMBUSTION ENGINEEP01.07.2015
F02B 37/00
13760164SAUDI ARABIAN OIL COYOUNES MOURAD VICTOR

10. 2889450 Process for recovering hydrocarbons from crude carbon dioxide fluidEP01.07.2015
E21B 43/16
14200270AIR PROD & CHEMHIGGINBOTHAM PAUL
The power required to recover C 3+ hydrocarbons from crude carbon dioxide comprising C 1+ hydrocarbons and hydrogen sulfide may be reduced by distilling the crude carbon dioxide to produce carbon dioxide-enriched overhead vapor and C 3+ hydrocarbon-enriched bottoms liquid such that the hydrogen sulfide is rejected with the overhead vapor. Power consumption reductions may be achieved by incorporating a heat pump cycle using carbon dioxide vapor as working fluid to provide at least a part of the refrigeration duty and using a side reboiler to reduce the bottom reboiler duty. Where the bottoms liquid is further processed to produce "lighter" and "heavier" hydrocarbon fractions, the process enables optimization of upgrading crude oil on the basis of API gravity, Reid Vapor pressure and/or viscosity.


Results 1-10 of 47,776 for Criteria: Office(s):all Language:EN Stemming: true
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