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Results 1-10 of 19,034 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. WO/2015/056054 PHOTOCATALYTIC HYDROGEN PRODUCTION FROM WATER, AND PHOTOLYSIS SYSTEM FOR THE SAMEWO23.04.2015
C01B 3/04
PCT/IB2013/059406SAUDI BASIC INDUSTRIES CORPORATIONIDRISS, Hicham
In an embodiment, a photocatalyst for the generation of diatomic hydrogen from a hydrogen containing precursor under the influence of actinic radiation comprises: a semiconductor support of SrTi03 and Ti02, wherein a molar ratio of SrTi03 and Ti02 in the semiconductor support is at least 0.01; and a gold and palladium alloy on said semiconductor support. Included herein are embodiments of a photocatalyst system, methods of making diatomic hydrogen, and methods of making the photocatalyst.

2. WO/2015/056641 WATER ELECTROLYSIS DEVICE AND ENERGY STORAGE AND SUPPLY SYSTEM USING SAMEWO23.04.2015
C25B 15/02
PCT/JP2014/077142HITACHI, LTD.SUGIMASA Masatoshi
 The purpose of the present invention is to provide a water electrolysis device in which facility costs can be reduced further than in the past, and an energy storage and supply system in which the water electrolysis device is used. The water electrolysis device for electrolyzing water and generating hydrogen and oxygen according to the present invention is characterized in being provided with: an aqueous electrolyte solution containing an intermediate product which repeatedly undergoes oxidation-reduction reactions; an electrolytic electrode for electrolyzing water; an intermediate electrode for performing the oxidation-reduction reactions of the intermediate product; and an electrolytic tank for housing the aqueous electrolyte solution, the electrolytic electrode, and the intermediate electrode; the intermediate product having an oxidation reduction potential higher than the hydrogen generation potentials of the intermediate electrode and the intermediate product and lower than the hydrogen generation potential of the electrolytic electrode.

3. WO/2015/055315 PROCESS FOR PRODUCING A STREAM COMPRISING ETHYLENE GLYCOLWO23.04.2015
C01B 3/22
PCT/EP2014/002794BIOCHEMTEX S.P.A.BERNARDI, Marco
It is disclosed a process for producing a low boiling mixture comprising ethylene glycol and propylene glycol from a liquid sugar stream derived from a ligno-cellulosic biomass feedstock. The liquid sugar stream is catalytically converted in the presence of hydrogen to a mixture, which is separated into at least a high boiling mixture, comprising glycerol, and the low boiling mixture. The high boiling mixture is converted to hydrogen by reforming and the reforming hydrogen is used in the catalytical steps. Preferably, all the hydrogen used in the conversion process is generated by aqueous phase reforming of the high boiling polyols mixture.

4. 09011572 Method of generating hydrogen from the reaction of stabilized aluminum nanoparticles with water and method of forming stabilized aluminum nanoparticlesUS21.04.2015
B22F 9/24
12791900Christopher E. BunkerChristopher E. Bunker

A method of generating hydrogen gas from the reaction of stabilized aluminum nanoparticles with water is provided. The stabilized aluminum nanoparticles are synthesized from decomposition of an alane precursor in the presence of a catalyst and an organic passivation agent, and exhibit stability in air and solvents but are reactive with water. The reaction of the aluminum nanoparticles with water produces a hydrogen yield of at least 85%.


5. 20150101936 IRON-SULFUR COMPLEX AND METHOD FOR PRODUCING HYDROGEN USING THE SAME AS CATALYSTUS16.04.2015
B01J 31/22
14509509Academia SinicaMING-HSI CHIANG

This invention relates to an iron-sulfur complex that is capable of efficiently catalyzing formation of hydrogen, and a method for producing hydrogen using the complex as a catalyst. The iron-sulfur complex provided herein comprises: a structure of formula (I)

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    • wherein the ligands L1 to L3, L5 and L6 and the groups X1 to X3 are each selected from the group consisting of alkyl, alkenyl, alkynyl and aryl that are substituted or unsubstituted, hydroxyl, carbonyl, aldehyde, and so on; L4 is a bridging ligand selected from the group consisting of hydroxyl, carbonyl, and so on; and the symbol “z” means the charge, which is an integer with the range of −3 to +2. X1 and X2 may join together to form a bridging group between the two sulfur atoms. X3 may alternatively be a vacant site.


6. WO/2015/053317 CATALYST USED FOR DEHYDROGENATION OF FORMIC ACID, METHOD FOR DEHYDROGENATING FORMIC ACID, AND METHOD FOR PRODUCING HYDROGENWO16.04.2015
B01J 31/22
PCT/JP2014/076953NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGYHIMEDA Yuichiro
The objective of the present invention is to provide a catalyst which enables the production of hydrogen by dehydrogenation of formic acid even under high-temperature reaction conditions in a high-concentration formic acid solution. This catalyst is characterized by containing, as an active ingredient, a complex that is represented by formula (1) or (2) and has a bidentate ligand containing a five-membered aromatic heterocyclic ring having two or more nitrogen atoms, an isomer of the complex, or a salt of the complex. (In the formulae, each of M1 and M2 represents a transition metal such as iridium; each of X1-X16 represents a nitrogen atom or a carbon atom; each of R1-R13 represents a hydrogen atom, an alkyl group, a hydroxy group or the like; each of L1 and L2 represents an aromatic anionic ligand or the like; each of Z1 and Z2 represents an arbitrary ligand, or is absent; and each of m and n represents a positive integer, 0 or a negative integer.)

7. WO/2015/054212 INTEGRATED PROCESS FOR CONVERTING METHANE TO AROMATICS AND OTHER CHEMICALSWO16.04.2015
C07C 2/76
PCT/US2014/059442SAUDI BASIC INDUSTRIES CORPORATIONJIN, Yaming
Systems and methods for integrated production of aromatics and other chemicals are described. Systems and methods may include a process for producing benzene, methanol, butanals, dimethyl ethers, olefins and other chemicals that includes providing methane to a first reactor to produce a first product stream comprising benzene and hydrogen; recovering benzene and mixing the first product stream with a carbon dioxide and/or steam feed stream; providing the combined benzene depleted first product stream and carbon dioxide and/or steam feed stream to a second reactor to produce a second product stream comprising synthesis gas, water and unconverted methane and carbon dioxide; and providing the synthesis gas to a third reactor to produce a third product stream comprising methanol, butanals, and other chemicals.

8. 2859135 GAS PERMEABLE ELECTRODES AND ELECTROCHEMICAL CELLSEP15.04.2015
C25B 11/00
13804108UNIV WOLLONGONGSWIEGERS GERHARD FREDERICK
An electrode for a water splitting device, the electrode comprising a gas permeable material, a second material, for example a further gas permeable material, a spacer layer positioned between the gas permeable material and the second material, the spacer layer providing a gas collection layer and a conducting layer. The conducting layer can be provided adjacent to or at least partially within the gas permeable material. The gas collection layer is able to transport gas internally in the electrode. The gas permeable materials can be gas permeable membranes. Also disclosed are electrochemical cells using such an electrode as the cathode and/or anode, and methods for bringing about gas-to- liquid or liquid-to-gas transformations, for example for producing hydrogen.

9. 2860155 NEW TYPE OF WATER-CARBON RATIO CONTROL DEVICEEP15.04.2015
C01B 3/34
13887594ALLY HI TECH CO LTDWANG YEQIN
The present invention relates to a steam to carbon ratio control device including: a heat source, and an evaporation mixer and a steam separator interconnected by pipelines, said connecting pipelines of the evaporation mixer and the steam separator are provided with a temperature control device and a pressure control device, said evaporation mixer is provided with a natural gas inlet, a desalinated water inlet and a mixed gas outlet, the inlet of said heat source is connected with a end closer to the natural gas inlet of the evaporation mixer, the outlet of said heat source is connected to a end closer to the mixed gas outlet. Comparing with the prior art, the beneficial effect of the present invention is that it can accurately control the proportion of natural gas to steam and stably control the flow rates of natural gas and steam.

10. 20150096886 Electrolyzed hydrogen gas for fuel-fired boilers and hot water heatersUS09.04.2015
C25B 1/06
14121685Tasos, Inc.Tasos Aggelopoulos

A system for hydrogen gas enhancement of hydrocarbon fuel combustion employs a closed electrolyzer vessel into which water is circulated, and an electrode plate assembly immersed in the vessel to dissociate water into hydrogen and oxygen gases. Only water is used as the electrolyte fluid without any additives. An air injector in the water return line injects air bubbling for enhanced dissociation of water in the electrode plate assembly. The electrode plate assembly is formed by one or more unit stacks of 7-plates each, including two outer cathode plates, a middle anode plate, and two spaced inner plates between each cathode plate and the anode plate. The generated hydrogen and oxygen gases are maintained in a stable condition in the output gas flow by an electromagnetic coil assembly that separates the hydrogen gas from oxygen gas. The system can obtain 180% reduction in hydrocarbon fuel usage in a vehicle engine, and 20 times reduction in carbon emission from vehicle exhaust. It can obtain a 500% increase in fuel usage efficiency in an electrical power generator operable on LPG fuel.



Results 1-10 of 19,034 for Criteria: Office(s):all Language:EN Stemming: true
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