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Results 1-10 of 46,062 for Criteria: Office(s):all Language:EN Stemming: true maximize
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NoCtrTitlePubDateInt.ClassAppl.NoApplicantInventor
1. WOWO/2014/197977 - MEMBRANE-BASED EXHAUST GAS SCRUBBING METHOD AND SYSTEM18.12.2014
B01D 53/22
PCT/CA2014/050359IONADA INCORPORATEDPANZIERA, Edoardo
There is disclosed a method and apparatus to reduce emissions of target emission gasses such Sulfur Oxides, Nitrogen Oxides, and Carbon Oxides from combustion exhaust such as marine engine exhaust by gas membrane separation and liquid carrier chemical absorption. The membrane separation system consists of an absorption system containing semi-permeable hollow fiber membranes through which is circulated a liquid absorbent. Exhaust gases contact the exterior surface of the membranes and the target gasses selectively permeate the membrane wall and are absorbed by the liquid carrier(s) within the bore and thereby removed from the exhaust stream.

2. WOWO/2014/198783 - PROCESS FOR THE OXIDATION OF HYDROGEN SULPHIDE18.12.2014
C01B 17/04
PCT/EP2014/062148SHELL INTERNATIONALE RESEARCH MAATSCHAPPIJ B.V.ITO, Eri
The present invention provides a process for the oxidation of hydrogen sulphide (H2S) in an H2S-containing hydrocarbon feed gas to elemental sulphur. In the process a H2S-containing hydrocarbon feed gas (10) and a sulphur dioxide containing gas (20) are contacted in a catalytic zone (3) at a temperature of 120 to 200°C, and a pressure of 4 to 200 bara, thereby forming elemental sulphur which is essentially in liquid form. A stream (30) containing the elemental sulphur and a first H2S-depleted gaseous stream (50) are removed from the catalytic zone (3). The first H2S-depleted gaseous stream (50) is separated, thereby obtaining a concentrated H2S-containing gaseous stream (60) and a second H2S-depleted gaseous stream (70). The concentrated H2S-containing gaseous stream (60) is incinerated, thereby obtaining a SO2-containing stream (80). At least a part of the SO2-containing stream (80) is used as the SO2-containing gas (20) supplied in step (b).

3. WOWO/2014/200635 - METHODS AND SYSTEMS FOR GAS SEPARATION18.12.2014
B01D 53/62
PCT/US2014/036913UOP LLCSHARMA, Bhargav
Systems and methods for gas separation are disclosed. In one exemplary embodiment, a method for gas separation includes the steps of contacting a feed gas stream that includes a product gas and an impurity gas with a liquid-phase absorption solvent and absorbing the impurity gas and a portion of the product gas of the feed gas stream into the liquid-phase absorption solvent. The exemplary method further includes the steps of subjecting the liquid-phase absorption solvent to a first reduced pressure environment to remove the portion of the product gas and a portion of the impurity gas from the liquid-phase absorption solvent and separating the portion of the product gas from the portion of the impurity gas.

4. WOWO/2014/199036 - PROCESS FOR DECARBONATION OF A HYDROCARBON-BASED GAS18.12.2014
B01D 53/14
PCT/FR2014/051153IFP ENERGIES NOUVELLESGONNARD, Sebastien
- Process for decarbonation of a hydrocarbon-based gas, for example a natural gas, by washing with a solvent. - Said gas is brought into contact with an absorbent solution so as to obtain a CO2-depleted gas and a CO2-loaded absorbent solution. The CO2-loaded absorbent solution is then heated and expanded at a predetermined pressure and a predetermined temperature so as to release a gaseous fraction comprising hydrocarbons and to obtain a hydrocarbon-depleted absorbent solution, said pressure and said temperature being chosen such that said gaseous fraction comprises at least 50% of the hydrocarbons contained in said CO2-loaded absorbent solution and at most 35% of CO2 contained in said CO2-loaded absorbent solution. Finally, the hydrocarbon-compound-depleted absorbent solution is thermally regenerated so as to release a CO2-rich gaseous effluent and to obtain a regenerated absorbent solution.

5. WOWO/2014/197005 - SYSTEMS AND METHODS FOR SEQUESTERING CO211.12.2014
B01D 53/22
PCT/US2013/072002SOUTHERN COMPANYPATEL, Dhansukhbhai V.
An exemplary embodiment of the present invention provides a carbon-dioxide ("C02") sequestration system comprising a C02 source, a process-water source, a membrane module, and a sequestration duct. The membrane module comprises a first section, a second section, and a membrane. The first section can be configured to receive gaseous C02 at a first pressure from the C02 source. The second section can be configured to receive process- water at a second pressure from the process-water source, wherein the first pressure is greater than the second pressure. The membrane can be positioned between the first section and the second section and can comprise a plurality of apertures configured such that the gaseous C02 passes through the plurality of apertures and dissolves into the process-water to form a process-water-C02-soluution. The sequestration duct can be in fluid communication with the second section and configured to transport the process-water-C02 solution to a sequestration site.

6. WOWO/2014/197085 - DESALTING SALTY SLUDGE SYSTEM AND METHOD11.12.2014
B01D 11/02
PCT/US2014/027993PENTAIR WATER POOL AND SPA, INC.STILES, Robert, W., Jr.
A system and method of desalting salty sludge is provided. The method includes providing a salty sludge; processing the salty sludge to increase its surface area; adding water to the salty sludge to make a sludge slurry and to wash the salty sludge; removing and purifying degraded water from the sludge slurry, and recirculating purified water into the sludge slurry; separating a liquid phase and a solid phase of the sludge slurry and purifying the liquid phase; identifying a salt concentration in the solid phase and comparing the salt concentration to a desired value; and adding water to the solid phase if the salt concentration is greater than the desired value.

7. WOWO/2014/197580 - PARALLEL FEED GAS SEPARATION MEMBRANE ELEMENT ASSEMBLY11.12.2014
B01D 63/04
PCT/US2014/040887WYNN, Nicholas P.WYNN, Nicholas P.
A gas-separation membrane module assembly and a gas-separation process using the assembly. The assembly includes sets of manifolds, between which are mounted arrays of membrane modules, the manifolds and membrane modules forming a stack within a pressure vessel or housing. The stacked, manifolded arrangement enables many membrane elements to be fed in parallel with the gas to be treated.

8. WOWO/2014/195364 - PROCESS FOR REDUCING THE TOTAL ORGANIC CARBON IN WASTEWATER11.12.2014
C02F 1/28
PCT/EP2014/061595BASF SEBÄR, Holger
The present invention relates to a process for reducing the total organic carbon (TOC) in an aqueous mixture M1obtained as wastewater from a process for the preparation of an olefin oxide, the process for reducing the TOC comprising: (a) contacting the mixture M1which contains at least one oxygenate having from 1 to 16 carbon atoms with an adsorbing agent and adsorbing at least a portion of an oxygenate at the adsorbing agent; (b) separating an aqueous mixture M2 from the adsorbing agent, the mixture M2 being depleted of the oxygenate adsorbed in (a); and (c) separating an oxygenate from the mixture M2 obtained in (b) by subjecting the mixture M2 to reverse osmosis in at least one reverse osmosis unit containing a reverse osmosis membrane obtaining an aqueous mixture M3being depleted of this oxygenate.

9. WOWO/2014/196757 - CARBON DIOXIDE SEPARATION DEVICE HAVING IMPROVED SENSIBLE HEAT RECOVERY EFFICIENCY USING PRESSURE REDUCTION AND PHASE SEPARATION11.12.2014
B01D 53/14
PCT/KR2014/004700KEPCO ENGINEERING & CONSTRUCTION COMPANY, INC.LEE, Chi Seob
The present invention provides a carbon dioxide separation device comprising: an absorption tower for causing reaction between carbon dioxide and an absorbent; a first piping through which CO2-rich-solution moves; a pressure reduction and phase separation unit arranged on the first piping, for separating the phase of the CO2-rich-solution into gas and liquid; a stripping tower, into which the CO2-rich-solution in gas and liquid states flows, and which separates carbon dioxide from the CO2-rich-solution; a second piping for connecting the stripping tower and the pressure reduction and phase separation unit such that a lean solution, which results from removal of the carbon dioxide, moves; and a reheater for providing the stripping tower with heat such that carbon dioxide is separated from the CO2-rich-solution, wherein the lean solution flows into the pressure reduction and phase separation unit, and the CO2-rich-solution undergoes phase separation into gas and liquid, by means of heat of the lean solution, and then flows into the stripping tower.

10. WOWO/2014/194376 - BENZYLAMINE, BENZYLAMINE DERIVATIVES AND BENZYLAMINE MIXTURES FOR CO2 REMOVAL FROM GAS STREAMS11.12.2014
B01D 53/40
PCT/AU2014/000859COMMONWEALTH SCIENTIFIC AND INDUSTRIAL RESEARCH ORGANISATIONPUXTY, Graeme
A process for removing a target acidic gas from a gas stream rich in the target acidic gas comprising contacting the gas stream with a solution to absorb a target gas from a gas stream, the solution comprising a solvent and at least one absorbent compound dissolved in the solvent, said at least one absorbent compound comprising a compound of formula (1):


Results 1-10 of 46,062 for Criteria: Office(s):all Language:EN Stemming: true
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