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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0694536 (2017-09-01) |
등록번호 | US-10159931 (2018-12-25) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 292 |
The present disclose is directed to a method for controlling iodine levels in wet scrubbers, and, in particular, recirculating wet scrubbers by removing the iodine from the scrubbing solution, such as by using ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion p
The present disclose is directed to a method for controlling iodine levels in wet scrubbers, and, in particular, recirculating wet scrubbers by removing the iodine from the scrubbing solution, such as by using ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion pair extraction, and an aqueous two-phase extraction.
1. A method, comprising: receiving a waste gas comprising an acid gas and at least one of elemental iodine and an iodine-containing composition;passing the waste gas through a wet scrubber to remove at least a portion of the acid gas and the at least one of elemental iodine and an iodine-containing
1. A method, comprising: receiving a waste gas comprising an acid gas and at least one of elemental iodine and an iodine-containing composition;passing the waste gas through a wet scrubber to remove at least a portion of the acid gas and the at least one of elemental iodine and an iodine-containing composition from the waste gas and form a scrubbing solution comprising at least one of an acid derived from the acid gas and a derivative thereof and the at least one of elemental iodine and an iodine-containing composition;removing, from the scrubbing solution, at least a portion of the at least one of elemental iodine and an iodine-containing composition, thereby reducing a concentration of the at least one of elemental iodine and an iodine-containing composition in the scrubbing solution; andapplying at least some of the removed at least a portion of the at least one of elemental iodine and an iodine-containing composition to coal, wherein the coal and the removed at least a portion of the at least one of elemental iodine and an iodine-containing composition are combusted to form the waste gas. 2. The method of claim 1, wherein the waste gas comprises elemental mercury and further comprising: contacting an iodine-containing additive with the waste gas upstream of the wet scrubber to oxidize elemental mercury in the waste gas to a non-elemental mercury, wherein the removed at least a portion of the at least one of elemental iodine and iodine-containing composition is contacted with the waste gas upstream of the wet scrubber. 3. The method of claim 1, wherein the waste gas comprises elemental mercury and further comprising: contacting an iodine-containing additive with a mercury-containing feed material, wherein the waste gas is derived from the mercury-containing feed material and wherein the removed at least a portion of the at least one of elemental iodine and iodine-containing composition is contacted with the mercury-containing feed material. 4. The method of claim 1, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by one or more of ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion pair extraction, and an aqueous two-phase extraction. 5. The method of claim 1, wherein the removing step comprises passing at least a portion of the scrubbing solution through a carbonaceous material to collect onto the carbonaceous material the at least one of elemental iodine and an iodine-containing composition. 6. The method of claim 1, wherein, after the removing step, the scrubbing solution is returned to the wet scrubber and wherein the wet scrubber is a flue-gas desulfurization scrubber. 7. The method of claim 6, wherein a flow of the scrubbing solution is controlled at a rate to maintain overall iodine concentration in the scrubber solution at less than about 100 ppm. 8. The method of claim 6, wherein a flow of an input scrubbing solution through is stopped when a concentration of the at least one of iodine and iodine-containing composition in an output scrubbing solution is at least a predetermined threshold and/or a difference between concentrations of the at least one of iodine and iodine-containing composition in the input and output scrubbing solutions is at least a predetermined threshold. 9. The method of claim 8, wherein the flow through the input scrubbing solution is stopped automatically by a microprocessor and a flow of the output scrubbing solution through is initiated automatically by the microprocessor in response to an absolute value of the concentration of the at least one of iodine and iodine-containing composition in the output scrubbing solution reaching the at least a predetermined threshold. 10. The method of claim 4, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by an organic solvent. 11. The method of claim 10, wherein the organic solvent is a hydrocarbon solvent. 12. The method of claim 10, wherein the scrubbing solution and the organic solvent are immiscible, wherein the one or more of the iodine and the iodine-containing compositions have different relative solubilities in scrubbing solution and the organic solvent, and wherein removal is removal is effected by the different relative solubilities of the one or more of the iodine and the iodine-containing compounds in the immiscible scrubbing solution and the organic solvent. 13. The method of claim 4, wherein the one or more of the iodine and the iodine-containing compositions are extracted from one liquid phase into another liquid phase. 14. The method of claim 4, wherein the solvent extraction is effected without a chemical change by one or more of a solvation mechanism, an ion exchange mechanism, an ion-pair extraction, and an aqueous two-phase extraction. 15. A method, comprising: receiving a waste gas comprising an acid gas and elemental mercury;contacting an iodine-containing additive with the waste gas upstream of a wet scrubber to oxidize elemental mercury in the waste gas to a non-elemental mercurypassing the waste gas through a wet scrubber to remove at least a portion of the acid gas and at least one of elemental iodine and an iodine-containing composition derived from the iodine-containing additive and form a scrubbing solution comprising at least one of an acid and salt derived from the removed at least a portion of the acid gas and the at least one of elemental iodine and an iodine-containing composition;removing, from the scrubbing solution, at least a portion of the at least one of elemental iodine and an iodine-containing composition, thereby reducing a concentration of the at least one of elemental iodine and an iodine-containing composition in the scrubbing solution; andapplying at least some of the removed at least a portion of the at least one of elemental iodine and an iodine-containing composition to coal, wherein the coal and removed at least a portion of the at least one of elemental iodine and an iodine-containing composition applied to the coal are combusted to form the received waste gas. 16. The method of claim 15, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by one or more of ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion pair extraction, and an aqueous two-phase extraction. 17. The method of claim 16, wherein, after the removing step, the scrubbing solution is returned to the wet scrubber and wherein the wet scrubber is a flue-gas desulfurization scrubber. 18. The method of claim 15, wherein a flow of the scrubbing solution is controlled at a rate to maintain an overall iodine concentration in the scrubber solution at less than about 100 ppm. 19. The method of claim 15, wherein a flow of an input scrubbing solution through a first bed is stopped when a concentration of the at least one of iodine and iodine-containing composition in an output scrubbing solution is at least a predetermined threshold and/or a difference between concentrations of the at least one of iodine and iodine-containing composition in the input and output scrubbing solutions is at least a predetermined threshold. 20. The method of claim 19, wherein the flow through the first bed is stopped automatically by a microprocessor and a flow of the scrubbing solution through a second bed is initiated automatically by the microprocessor in response to an absolute value of the concentration of the at least one of iodine and iodine-containing composition in the output scrubbing solution reaching the at least a predetermined threshold. 21. The method of claim 15, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by an organic solvent. 22. The method of claim 21, wherein the scrubbing solution and the organic solvent are immiscible, wherein the at least one of elemental iodine and an iodine-containing composition have different relative solubilities in scrubbing solution and the organic solvent, and wherein removal is removal is effected by the different relative solubilities of the at least one of elemental iodine and an iodine-containing composition in the immiscible scrubbing solution and the organic solvent. 23. The method of claim 21, wherein the organic solvent is a hydrocarbon solvent. 24. The method of claim 15, wherein the at least one of elemental iodine and an iodine-containing composition are extracted from one liquid phase into another liquid phase, and wherein the solvent extraction is effected without a chemical change by one or more of a solvation mechanism, an ion exchange mechanism, an ion-pair extraction, and an aqueous two-phase extraction. 25. A method, comprising: receiving a waste gas comprising at least one of elemental iodine and an iodine-containing composition;passing the waste gas through a wet scrubber to remove the at least one of elemental iodine and an iodine-containing composition from the waste gas and form a scrubbing solution comprising the at least one of elemental iodine and an iodine-containing composition; andremoving, from the scrubbing solution, at least a portion of the at least one of elemental iodine and an iodine-containing composition by one or more of ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion pair extraction, and an aqueous two-phase extraction, thereby reducing a concentration of the at least one of elemental iodine and an iodine-containing composition in the scrubbing solution; andapplying the removed at least a portion of the at least one of elemental iodine and an iodine-containing composition to coal, wherein the coal and the removed at least a portion of the at least one of elemental iodine and an iodine-containing composition applied to the coal are combusted to form the received waste gas. 26. The method of claim 25, wherein the received waste gas comprises an acid gas and wherein the scrubbing solution comprises at least one of an acid and a salt derived from the acid gas. 27. The method of claim 25, wherein the waste gas comprises elemental mercury and further comprising: contacting an iodine-containing additive with the waste gas upstream of the wet scrubber to oxidize elemental mercury in the waste gas to a non-elemental mercury. 28. The method of claim 25, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by the at least one of elemental iodine and an iodine-containing composition are extracted from one liquid phase into another liquid phase, and wherein the solvent extraction is effected without a chemical change by one or more of a solvation mechanism, an ion exchange mechanism, an ion-pair extraction, and an aqueous two-phase extraction. 29. The method of claim 25, wherein the at least a portion of the at least one of elemental iodine and an iodine-containing composition is removed from the scrubbing solution by an organic solvent. 30. The method of claim 29, wherein the organic solvent is a hydrocarbon. 31. The method of claim 29, wherein the scrubbing solution and the organic solvent are immiscible, wherein the at least one of elemental iodine and an iodine-containing composition have different relative solubilities in scrubbing solution and the organic solvent, and wherein removal is removal is effected by the different relative solubilities of the at least one of elemental iodine and an iodine-containing composition in the immiscible scrubbing solution and the organic solvent. 32. The method of claim 25, wherein, after the removing step, the scrubbing solution is returned to the wet scrubber and wherein the wet scrubber is a flue-gas desulfurization scrubber. 33. The method of claim 25, wherein a flow of the scrubbing solution is controlled at a rate to maintain overall iodine concentration in the scrubber solution at less than about 100 ppm. 34. The method of claim 25, wherein a flow of an input scrubbing solution is stopped when a concentration of the at least one of iodine and iodine-containing composition in an output scrubbing solution is at least a predetermined threshold and/or a difference between concentrations of the at least one of iodine and iodine-containing composition in the input and output scrubbing solutions is at least a predetermined threshold. 35. The method of claim 34, wherein the flow of the input solution is stopped automatically by a microprocessor and a flow of the output solution is initiated automatically by the microprocessor in response to an absolute value of the concentration of the at least one of iodine and iodine-containing composition in the output scrubbing solution reaching the at least a predetermined threshold. 36. The method of claim 25, wherein the at least one of elemental iodine and an iodine-containing composition are extracted from one liquid phase into another liquid phase. 37. The method of claim 25, wherein the scrubbing solution is contacted with an oxidizing agent and/or pH-adjusted to convert elemental mercury in the scrubbing solution to a more water-soluble form of mercury and convert iodide to elemental iodine. 38. The method of claim 25, wherein the waste gas comprises elemental mercury and further comprising, upstream of the wet scrubber, at least one of the following steps to oxidize the elemental mercury to speciated mercury: (i)contacting the waste gas with at least one of a halogen and a halogen-containing composition; and(ii) contacting the waste gas with a selective catalytic reduction catalyst. 39. A method, comprising: passing a waste gas comprising an acid gas and at least one of elemental iodine and an iodine-containing composition through a wet scrubber to remove the at least one of elemental iodine and an iodine-containing composition from the waste gas and form a scrubbing solution comprising the at least one of elemental iodine and an iodine-containing composition;sorbing at least a portion of the at least one of elemental iodine and an iodine-containing composition on a carbonaceous material; andrecovering the carbonaceous material comprising the sorbed at least a portion of the at least one of elemental iodine and an iodine-containing composition from the scrubbing solution wherein the recovered carbonaceous material is one or more of:(i) introduced to the waste gas as the iodine-containing additive; and(ii) charged to coal and, thereafter, combusted with the coal to form the waste gas. 40. A method, comprising: contacting, upstream of a wet scrubber, an iodine-containing additive with a waste gas comprising an acid gas and elemental mercury to oxidize the elemental mercury in the waste gas to a non-elemental mercury;passing the waste gas through the wet scrubber to remove at least a portion of at least one of elemental iodine and an iodine-containing composition derived from the iodine-containing additive to form a scrubbing solution comprising the removed at least a portion of at least one of elemental iodine and an iodine-containing composition derived from the iodine-containing additive and a treated waste gas comprising another portion of the at least one of elemental iodine and an iodine-containing composition not removed by the wet scrubber;sorbing, on a carbonaceous material, the at least a portion of the mercury and at least a portion of the removed portion of the at least one of elemental iodine and an iodine-containing composition; andremoving the carbonaceous material from the scrubbing solution to form a recovered carbonaceous material, wherein the recovered carbonaceous material is one or more of:(i) introduced to the waste gas as the iodine-containing additive; and(ii) charged to coal and, thereafter, combusted with the coal to form the waste gas. 41. A method, comprising: passing a waste gas comprising an acid gas and at least one of elemental iodine and an iodine-containing composition through a wet scrubber to remove the at least one of elemental iodine and an iodine-containing composition from the waste gas and form a scrubbing solution comprising the at least one of elemental iodine and an iodine-containing composition;sorbing at least a portion of the at least one of elemental iodine and an iodine-containing composition onto a carbonaceous material; andrecovering the carbonaceous material from the scrubbing solution by one or more of ion exchange, absorption, adsorption, precipitation, filtration, solvent extraction, ion pair extraction, and an aqueous two-phase extraction, thereby reducing a concentration of the at least one of elemental iodine and an iodine-containing composition in the scrubbing solution and wherein the recovered carbonaceous material is one or more of:(i) introduced to the waste gas as the iodine-containing additive; and(ii) charged to coal and, thereafter, combusted with the coal to form the waste gas.
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