IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0609076
(2009-10-30)
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등록번호 |
US-8292989
(2012-10-23)
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발명자
/ 주소 |
- Kozak, Frederic Z.
- Petig, Arlyn V.
- Shabde, Vikram
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
42 |
초록
▼
A power generation plant (112), a method, and a CO2 capture system (122) for removing carbon dioxide (104) from a flue gas stream (106) are disclosed. As shown in FIG. 2, a CO2 capture system (122), comprises an absorber vessel (202), a water wash vessel (210), and a stripper (214). The CO2 capture
A power generation plant (112), a method, and a CO2 capture system (122) for removing carbon dioxide (104) from a flue gas stream (106) are disclosed. As shown in FIG. 2, a CO2 capture system (122), comprises an absorber vessel (202), a water wash vessel (210), and a stripper (214). The CO2 capture system (122) can be configured to introduce both a lean ionic ammonia solution (204) from a regeneration system (124) and a flue gas stream (106) from a cooling system (120) and to provide a rich ionic ammonia solution (206) to a regeneration system (124), wherein the introduction of the lean ionic ammonia solution (204) to the flue gas stream (106) produces a flue gas substantially devoid CO2 (224). The water wash vessel (210) can be configured to receive the flue gas substantially devoid CO2 (224) and produce ammoniated water (212) by introducing water (218) to the flue gas substantially devoid CO2 (224). The stripper (214) can be configured to receive the ammoniated water (212) and to remove ammonia (216) from the ammoniated water (212) thereby producing a cleaned flue gas stream (116), the stripper (214) being operable in at least partial vacuum conditions.
대표청구항
▼
1. A CO2 capture system for removing carbon dioxide from a flue gas stream, the CO2 capture system comprising: an absorber vessel configured to introduce both a lean ionic ammonia solution from a regeneration system and the flue gas stream from a cooling system, wherein the lean ionic ammonia soluti
1. A CO2 capture system for removing carbon dioxide from a flue gas stream, the CO2 capture system comprising: an absorber vessel configured to introduce both a lean ionic ammonia solution from a regeneration system and the flue gas stream from a cooling system, wherein the lean ionic ammonia solution interacts with the flue gas stream to provide a rich ionic ammonia solution to the regeneration system, wherein the introduction of the lean ionic ammonia solution to the flue gas stream further produces a flue gas substantially devoid of CO2;a water wash vessel configured to receive the flue gas substantially devoid of CO2 and produce ammoniated water by introducing water to the flue gas substantially devoid of CO2; anda stripper configured to receive the ammoniated water and configured to remove ammonia from the ammoniated water, the stripper being operable in at least partial vacuum conditions;the cooling system configured to cool and provide the flue gas stream to the CO2 capture system and configured to receive a cleaned flue gas stream from the CO2 capture systemwherein the CO2 capture system produces the cleaned flue gas stream. 2. The CO2 capture system of claim 1, wherein the at least partial vacuum conditions include a pressure of less than about 1 psia. 3. The CO2 capture system of claim 1, wherein the lean ionic ammonia solution includes a ratio of ammonia to CO2 from about 2.3:1 to about 3.5:1. 4. The CO2 capture system of claim 1, wherein the rich ionic ammonia solution includes a ratio of ammonia to CO2 from about 1.5:1 to about 1.9:1. 5. The CO2 capture system of claim 1, further comprising the regeneration system configured to receive the rich ionic ammonia solution from the CO2 capture system and provide the lean ionic ammonia solution to the CO2 capture system while removing CO2. 6. The CO2 capture system of claim 1, wherein the CO2 capture system is part of a power generation plant. 7. The CO2 capture system of claim 6, wherein the power generation plant further comprises a boiler system having a combustion chamber. 8. The CO2 capture system of claim 1, wherein the lean ionic ammonia solution is an aqueous solution further comprising water, ammonium ions, bicarbonate ions, carbonate ions, and carbamate ions. 9. The CO2 capture system of claim 1, further comprising a gas-liquid contacting device configured to contact the lean ionic ammonia solution with the flue gas stream. 10. The CO2 capture system of claim 9, wherein the gas-liquid contacting device includes a first gas-liquid contacting device having a predetermined structure and a second gas-liquid contacting device having a random structure. 11. A power generation plant, comprising: a CO2 capture system for removing carbon dioxide from a flue gas stream, the CO2 capture system comprising:an absorber vessel configured to introduce a lean ionic ammonia solution from a regeneration system and the flue gas stream from a cooling system, wherein the lean ionic ammonia solution interacts with the flue gas stream to provide a rich ionic ammonia solution to the regeneration system, wherein the introduction of the lean ionic ammonia solution to the flue gas stream further produces a flue gas substantially devoid of CO2;a water wash vessel configured to receive the flue gas substantially devoid of CO2 and water thereby producing ammoniated water; anda stripper configured to receive the ammoniated water and remove ammonia from the ammoniated water, the stripper being operable in at least partial vacuum conditions;wherein the CO2 capture system produces a cleaned flue gas stream;the cooling system configured to provide the flue gas stream to the CO2 capture system after reducing the temperature of the flue gas stream and configured to receive the cleaned flue gas stream from the CO2 capture system; andthe regeneration system configured to receive the rich ionic ammonia solution from the CO2 capture system and provide the lean ionic ammonia solution to the CO2 capture system; and,wherein the lean ionic ammonia solution is an absorbent ionic ammonia solution, the absorbent ionic ammonia solution being an aqueous solution comprising water, ammonium ions, bicarbonate ions, carbonate ions, and carbamate ions, andwherein heat for operating the stripper is provided by a reject water stream from a power generation plant, the reject water stream being provided at a temperature of about 90° F. 12. The CO2 capture system of claim 11, wherein the lean ionic ammonia solution includes a ratio of ammonia to CO2 from about 2.3:1 to about 3.5:1 and the rich ionic ammonia solution includes a ratio of ammonia to CO2 from about 1.5:1 to about 1.9:1. 13. A method for removing carbon dioxide from flue gas streams, comprising: interacting a lean ionic ammonia solution from a regeneration system and a flue gas stream from a cooling system in an absorber vessel;providing a rich ionic ammonia solution resulting from the interaction in the absorber vessel to the regeneration system, wherein the introduction of the lean ionic ammonia solution to the flue gas stream in the absorber vessel further produces a flue gas substantially devoid CO2;introducing the flue gas substantially devoid CO2 to water in a water wash vessel thereby producing ammoniated water;providing ammoniated water from the water wash vessel to a stripper; andremoving ammonia from the ammoniated water in the stripper, the stripper operating in at least partial vacuum conditions;the cooling system configured to provide the flue gas stream to the CO2 capture system after reducing the temperature of the flue gas stream and configured to receive the cleaned flue gas stream from the CO2 capture system; and;wherein the method produces a cleaned flue gas stream. 14. The method of claim 13, wherein the at least partial vacuum conditions include a pressure of less than about 1 psia. 15. The method of claim 13, wherein the lean ionic ammonia solution includes a ratio of ammonia to CO2 from about 2.3:1 to about 3.5:1 and the rich ionic ammonia solution includes a ratio of ammonia to CO2 from about 1.5:1 to about 1.9:1. 16. The CO2 capture system of claim 1, wherein the at least partial vacuum conditions include a pressure of less than about 10 psia. 17. The method of claim 13, wherein the at least partial vacuum conditions include a pressure of less than about 10 psia. 18. A CO2 capture system for removing carbon dioxide from a flue gas stream, the CO2 capture system comprising: an absorber vessel configured to introduce both a lean ionic ammonia solution from a regeneration system and the flue gas stream from a cooling system, wherein the lean ionic ammonia solution interacts with the flue gas stream to provide a rich ionic ammonia solution to the regeneration system, wherein the introduction of the lean ionic ammonia solution to the flue gas stream further produces a flue gas substantially devoid of CO2;a water wash vessel configured to receive the flue gas substantially devoid of CO2 and produce ammoniated water by introducing water to the flue gas substantially devoid of CO2; anda stripper configured to receive the ammoniated water and configured to remove ammonia from the ammoniated water, the stripper being operable in at least partial vacuum and wherein heat is provided to the stripper by a reject water stream from a power generation plant;the cooling system configured to cool and provide the flue gas stream to the CO2 capture system and configured to receive a cleaned flue gas stream from the CO2 capture system;wherein the CO2 capture system produces the cleaned flue gas stream. 19. The CO2 capture system of claim 18, wherein the reject water stream from the power generation plant has a temperature of about 90° F. 20. A method for removing carbon dioxide from flue gas streams, comprising: interacting a lean ionic ammonia solution from a regeneration system and a flue gas stream from a cooling system in an absorber vessel;providing a rich ionic ammonia solution resulting from the interaction in the absorber vessel to the regeneration system, wherein the introduction of the lean ionic ammonia solution to the flue gas stream in the absorber vessel further produces a flue gas substantially devoid CO2;introducing the flue gas substantially devoid CO2 to water in a water wash vessel thereby producing ammoniated water;providing ammoniated water from the water wash vessel to a stripper; andremoving ammonia from the ammoniated water in the stripper, the stripper operating in at least partial vacuum conditions of less than about 10 psia;the cooling system configured to provide the flue gas stream to the CO2 capture system after reducing the temperature of the flue gas stream and configured to receive the cleaned flue gas stream from the CO2 capture system; and;wherein the method produces a cleaned flue gas stream. 21. The method of claim 20, wherein the reject water stream has a temperature of about 90° F.
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