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Results 1-10 of 46,809 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. 0002545273 METHOD AND DEVICE FOR PROCESSING ACID GAS ENRICHED WITH CARBON DIOXIDE IN CLAUS PROCESSRU27.03.2015
B01D 53/14
2012142710/05МЕНЦЕЛЬ Йоганнес (DE)
FIELD: chemistry. SUBSTANCE: group of inventions relates to method of processing acid gas enriched with carbon dioxide in Claus process, by means of which industrial gases are purified from undesirable sulphur compounds, in which sulphur-containing components are removed by means of selective absorbing solvent in scrubbing section, and acid gas, released as a result of regeneration, containing sulphur-containing components and carbon dioxide, is separated into at least two fractions of acid gas, where at least one obtained fraction of acid gas has higher content of sulphur-containing components, and sulphur-containing components, contained in fraction with the highest content of hydrogen sulphide is converted by means of burner at thermal reaction stage of Claus furnace with formation of sulphur dioxide, with application of oxygen-containing gas, hot flue gases are withdrawn into closed Claus reaction chamber, located below burner down technological flow; remaining depleted of carbon dioxide acid gas fractions supplied from regeneration installation, are supplied into Claus reaction chamber, where they are mixed with flue gases discharged from burner. Group of inventions also relates to device used for said method realisation, with device containing absorption column, at least one stage of flash-desorption, regeneration column, Claus burner, equipped with bypass control, and Claus reactor. EFFECT: increased method efficiency. 29 cl, 3 dwg

2. WO/2015/042247 APPARATUS AND METHOD FOR OXIDATIVE TREATMENT OF ORGANIC CONTAMINANTS IN WASTE WATERWO26.03.2015
C02F 1/78
PCT/US2014/056278LAKE COUNTRY FRACWATER SPECIALISTS, LLCMILLER, Francis, C.
A method of making an aqueous mixture of ozone and water comprising pumping a solution of ozonated water through a high cavitation rate homogenizing device, thereby causing formation of gas phase nanobubbles of ozone in the solution. The high cavitation rate homogenizing device may be a homogenizing mixer. The high cavitation rate homogenizing device may be comprised of rotors and stators moving in close proximity relative to each other and separated by the solution of ozonated water. The relative motion of the rotors and stators may cause up to 500 million cavitation events per second in the solution of ozonated water, thereby causing the formation of gas phase nanobubbles of ozone. A computer-implemented method of treating waste water from a source is also disclosed. The method may include making the aqueous mixture of ozone and water.

3. WO/2015/039195 METHOD AND DEVICE FOR CARBON DIOXIDE CAPTURING AND ITS TRANSFORMATION INTO GASEOUS FUELWO26.03.2015
C01B 3/34
PCT/BG2014/000031KOVACHKI, Hristo, AtanasovKOVACHKI, Hristo, Atanasov
Method for carbon dioxide capturing and its transformation into gaseous fuel, wherein carbon dioxide alone or in admixture with water vapor and/or methane is subjected to pulsed and/or acoustic treatment and passes through a thermally activated zone with temperature 800 °C to 1000 °C, wherein carbon monoxide is formed, the device for carrying out the method is a reactor with chamber, filled with high-temperature carbon solid carrier or a chamber with high-temperature gaseous medium - plasma.

4. WO/2015/040593 PROCESS FOR THE RECOVERY OF COMPONENTS FORMING A METAL-ORGANIC FRAMEWORK MATERIALWO26.03.2015
B01J 20/34
PCT/IB2014/064724BASF SEMAURER, Stefan
The present invention relates to a process for the recovery of an at least bidentate organic compound comprised in a porous metal-organic framework material, the material comprising the at least bidentate organic compound coordinated to at least one metal ion, the process comprising the steps of (a) treating the metal-organic framework material with an acidic or alkaline liquid; (b) optionally separating off solid residue; and (c) isolating the at least bidentate organic compound.

5. WO/2015/042217 SOOT LOAD DETERMINATION SYSTEMWO26.03.2015
F01N 3/023
PCT/US2014/056208TENNECO AUTOMOTIVE OPERATING COMPANY INC.DEGEORGE, John W.
An aftertreatment system for treating exhaust gas discharged from a combustion engine may include a particulate filter, a reductant-injection system, an ammonia sensor and a control module. The particulate filter may be configured to filter exhaust gas discharged from the combustion engine. The reductant-injection system may be configured to inject a reductant into a stream of the exhaust gas upstream of the particulate filter. The ammonia sensor may be configured to sense a concentration of ammonia in the stream of exhaust gas downstream of the particulate filter. The control module may be in communication with the ammonia sensor and may determine a soot load of the particulate filter based on data received from the ammonia sensor.

6. WO/2015/041102 EXHAUST GAS PROCESSING SYSTEM AND PROCESSING METHODWO26.03.2015
B01D 53/50
PCT/JP2014/073815IHI CORPORATIONNAITO, Toshiyuki
Provided is an exhaust gas processing system which has excellent durability, allows reducing processing costs, has good desulfurization and denitration efficiency, and can efficiently recover carbon dioxide with high purity. This exhaust gas processing system has: a desulfurization unit which removes sulfur oxides from the exhaust gas by the limestone-gypsum method, a denitration unit which is arranged downstream of the desulfurization unit and removes nitrogen oxides from the exhaust gas; a carbon dioxide recovery unit which is arranged downstream of the denitration unit and recovers carbon dioxide from the exhaust gas; and an oxygen supply unit which supplies the desulfurization unit with part of the recovered gas discharged from the carbon dioxide recovery unit as the oxygen source. An analysis device is used to monitor the purity and recovery rate of the carbon dioxide recovered by the carbon dioxide recovery unit, and on the basis of said purity and recovery rate, the ratio of recovered gas supplied to the desulfurization unit is adjusted.

7. WO/2015/039247 SWITCHABLE MATERIALS, METHODS AND USES THEREOFWO26.03.2015
C08L 101/12
PCT/CA2014/050897QUEEN'S UNIVERSITY AT KINGSTONBONIFACE, Kyle J.
The present application provides a composite material that comprises a solid and solid-supported non-polymeric switchable moiety, wherein the switchable moiety comprises a functional group that is switchable between a first form and a second form, said first form being neutral and hydrophobic, and said second form being ionized and hydrophilic. The composite material converts to, or is maintained in, said second form when the switchable moiety is exposed to CO2 at amounts sufficient to maintain the ionized form. The composite material converts to, or is maintained in, said first form when CO2 is removed or reduced to an amount insufficient to maintain the ionized form. CO2 is removed or reduced by exposing the composite material to heat and/or a flushing inert gas such as N2, Ar, or air. Envisioned uses of these composite materials includes removing water from non-aqueous solvents, removing water vapour from gaseous mixtures, and cleaning industrial reaction vessels and/or pipelines.

8. WO/2015/039221 CATALYTIC CONVERTER STRUCTURES WITH ELECTROHYDRODYNAMIC HEAT AND MASS TRANSFERWO26.03.2015
B01J 37/34
PCT/CA2014/000706ADVANCED TECHNOLOGY EMISSION SOLUTIONS INC.CRAWFORD, Robin
A catalytic converter assembly has a ceramic substrate body with a plurality of cells for passage therethrough of exhaust gases. An emitter electrode for emitting free electrodes is mounted adjacent the substrate body for intercepting exhaust gas flowing at an upstream location of the catalytic converter. A collector electrode for collecting electrons is mounted adjacent the substrate body to intercept exhaust gas flowing at a downstream location of the catalytic converter. An energizing circuit is used to apply a high voltage between the emitter and collector to stimulate the generation of free electrons.

9. WO/2015/042315 REDUCING THE CARBON EMISSIONS INTENSITY OF A FUELWO26.03.2015
B01D 53/14
PCT/US2014/056396RHODES, JamesRHODES, James
A method for reducing a carbon emissions intensity of a fuel includes producing a first hydrocarbon fluid; capturing a carbon dioxide (CO2) fluid from the first hydrocarbon fluid production; and injecting the captured carbon dioxide into a subterranean zone from one or more wellbores to enhance a production of a second hydrocarbon fluid from the zone, at least one of the first or the second hydrocarbon fluids processeable into a hydrocarbon fuel that includes a low carbon intensity fuel based, at least in part, on the captured and injected CO2 fluid.

10. WO/2015/040576 A DESALINATION PLANT WITH ZERO LIQUID DISCHARGEWO26.03.2015
C02F 9/00
PCT/IB2014/064656SCAM S.P.A.GAROLA, Giovanni
A desalination plant with zero liquid discharge, comprising : - a first reverse osmosis desalination unit (12) that produces a flow of desalinated water (36) and a flow of concentrate (40), - a chemical treatment unit (14) in which said flow of concentrate (40) is subjected to: an alkalinisation and solubilisation of calcium sulphates step, a flocculation step, a clarification step for the separation of floccules, and a carbonation step by addition of carbon dioxide, - a second reverse osmosis desalination unit (16) that receives the chemically-treated flow of concentrate (40) and that produces a second flow of desalinated water and a flow of brine (80), and an atmospheric evaporation unit (18) that receives said flow of brine (80), the atmospheric evaporation unit (18) comprising: - an open top basin (86) containing a bath of brine, - a spraying system (90) that draws the brine from the basin (86) and produces a shower of pulverised brine above said basin (86), and - a ventilation system (102) that generates an air flow which transversely hits said shower of brine.


Results 1-10 of 46,809 for Criteria: Office(s):all Language:EN Stemming: true
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