A process for separating a first gas, for example CO2, from a feed gas mixture comprising the first gas and a second gas, for example H2, in five or more adsorption beds each containing an adsorbent selective for the first gas. The process comprises subjecting each of the adsorption beds to a repeti
A process for separating a first gas, for example CO2, from a feed gas mixture comprising the first gas and a second gas, for example H2, in five or more adsorption beds each containing an adsorbent selective for the first gas. The process comprises subjecting each of the adsorption beds to a repetitive cycle comprising, in sequence, (a) a feed step, (b) a rinse step, (c) a pressure decreasing equalization step, (d) a blowdown step, (e) an evacuation step, (f) a pressure increasing equalization step, and (g) a repressurization step. The feed gas mixture may be a reformate from a steam-hydrocarbon reforming process.
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1. A process for separating a first gas from a feed gas mixture comprising the first gas and a second gas in a plurality of at least five adsorption beds each containing an adsorbent selective for the first gas, the process comprising subjecting each of the adsorption beds to a repetitive cycle comp
1. A process for separating a first gas from a feed gas mixture comprising the first gas and a second gas in a plurality of at least five adsorption beds each containing an adsorbent selective for the first gas, the process comprising subjecting each of the adsorption beds to a repetitive cycle comprising, in sequence, (a) a feed step, (b) a rinse step, (c) a pressure decreasing equalization step, (d) a blowdown step, (e) an evacuation step, (f) a pressure increasing equalization step, and (g) a repressurization step, wherein: the feed step (a) comprises introducing the feed gas mixture at a feed gas pressure ranging from 1 MPa to 7 MPa into an adsorption bed undergoing the feed step and adsorbing the first gas on the adsorbent in the adsorption bed undergoing the feed step while simultaneously withdrawing an effluent gas depleted in the first gas from the adsorption bed undergoing the feed step;the rinse step (b) comprises co-currently introducing a rinse gas comprising the first gas at a rinse gas pressure ranging from 0.5 to 1 times the feed gas pressure into an adsorption bed undergoing the rinse step while simultaneously co-currently withdrawing a rinse gas effluent from the adsorption bed undergoing the rinse step;the pressure decreasing equalization step (c) comprises co-currently withdrawing a pressure equalization gas from an adsorption bed undergoing the pressure decreasing equalization step, and passing the pressure equalization gas to an adsorption bed undergoing the pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the pressure decreasing equalization step and the adsorption bed undergoing the pressure increasing equalization step;the blowdown step (d) comprises withdrawing a blowdown gas from an adsorption bed undergoing the blowdown step and compressing the blowdown gas to increase the pressure of the blowdown gas thereby forming the rinse gas for the adsorption bed undergoing the rinse step;the evacuation step (e) comprises withdrawing a product stream comprising the first gas from an adsorption bed undergoing the evacuation step at an evacuation pressure sufficient to desorb the first gas for forming the product stream and compressing the product stream to increase the pressure of the product stream;the pressure increasing equalization step (f) comprises counter-currently introducing the pressure equalization gas from the adsorption bed undergoing the pressure decreasing equalization step into the adsorption bed undergoing the pressure increasing equalization step; andthe repressurization step (g) comprises increasing the pressure in an adsorption bed undergoing the repressurization step until the adsorption bed undergoing the repressurization step is substantially at the feed gas pressure, by at least one of (g1) co-currently introducing the feed gas mixture into the adsorption bed undergoing the repressurization step, and (g2) counter-currently introducing a portion of the effluent gas depleted in the first gas from the adsorption bed undergoing the feed step into the adsorption bed undergoing the repressurization step. 2. The process of claim 1 wherein the first gas is CO2 and the second gas is H2. 3. The process of claim 2 wherein the feed gas mixture further comprises CO. 4. The process of claim 1 wherein the feed gas pressure ranges from 1.8 MPa to 3.6 MPa. 5. The process of claim 1 wherein the evacuation pressure ranges from 7 kPa to 95 kPa and wherein the blowdown gas is withdrawn from the adsorption bed undergoing the blowdown step until the pressure in the adsorption bed undergoing the blowdown step reaches a blowdown pressure ranging from 100 kPa to 500 kPa. 6. The process of claim 1 wherein the repetitive cycle further comprises a rinse gas effluent equalization step, wherein the rinse gas effluent equalization step is after the pressure increasing equalization step (f) and before repressurization step (g) in the repetitive cycle, wherein: the rinse gas effluent equalization step comprises counter-currently introducing at least a portion of the rinse gas effluent from the adsorption bed undergoing the rinse step into an adsorption bed undergoing the rinse gas effluent equalization step. 7. The process of claim 1 wherein the repetitive cycle further comprises a rinse gas effluent equalization step, wherein the rinse gas effluent equalization step is after the pressure increasing equalization step (f) and before repressurization step (g) in the repetitive cycle, wherein: the rinse gas effluent equalization step comprises counter-currently introducing at least a portion of the rinse gas effluent from the adsorption bed undergoing the rinse step into an adsorption bed undergoing the rinse gas effluent equalization step while simultaneously at least one of (i) co-currently introducing the feed gas into the adsorption bed undergoing the rinse gas effluent equalization step, and (ii) counter-currently introducing a portion of the effluent gas from the adsorption bed undergoing the feed step into the adsorption bed undergoing the rinse gas effluent equalization step. 8. The process of claim 1 wherein the repetitive cycle further comprises a second pressure decreasing equalization step and a second pressure increasing equalization step, wherein the second pressure decreasing equalization step is after the pressure decreasing equalization step (c) and before the blowdown step (d) in the repetitive cycle, wherein the second pressure increasing equalization step is after the evacuation step (e) and before the pressure increasing equalization step (f) in the repetitive cycle, wherein: the second pressure decreasing equalization step comprises co-currently withdrawing a second pressure equalization gas from an adsorption bed undergoing the second pressure decreasing equalization step, and passing the second pressure equalization gas to an adsorption bed undergoing the second pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the second pressure decreasing equalization step and the adsorption bed undergoing the second pressure increasing equalization step; andthe second pressure increasing equalization step comprises counter-currently introducing the second pressure equalization gas from the adsorption bed undergoing the second pressure decreasing equalization step into the adsorption bed undergoing the second pressure increasing equalization step. 9. The process of claim 8 wherein the repetitive cycle further comprises a third pressure decreasing equalization step and a third pressure increasing equalization step, wherein the third pressure decreasing equalization step is after the second pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the third pressure increasing equalization step is after the evacuation step (e) and before the second pressure increasing equalization step, wherein: the third pressure decreasing equalization step comprises co-currently withdrawing a third pressure equalization gas from an adsorption bed undergoing the third pressure decreasing equalization step, and passing the third pressure equalization gas to an adsorption bed undergoing the third pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the third pressure decreasing equalization step and the adsorption bed undergoing the third pressure increasing equalization step; andthe third pressure increasing equalization step comprises counter-currently introducing the third pressure equalization gas from the adsorption bed undergoing the third pressure decreasing equalization step into the adsorption bed undergoing the third pressure increasing equalization step. 10. The process of claim 9 wherein the repetitive cycle further comprises a fourth pressure decreasing equalization step and a fourth pressure increasing equalization step, wherein the fourth pressure decreasing equalization step is after the third pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the fourth pressure increasing equalization step is after the evacuation step (e) and before the third pressure increasing equalization step, wherein: the fourth pressure decreasing equalization step comprises co-currently withdrawing a fourth pressure equalization gas from an adsorption bed undergoing the fourth pressure decreasing equalization step, and passing the fourth pressure equalization gas to an adsorption bed undergoing the fourth pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the fourth pressure decreasing equalization step and the adsorption bed undergoing the fourth pressure increasing equalization step; andthe fourth pressure increasing equalization step comprises counter-currently introducing the fourth pressure equalization gas from the adsorption bed undergoing the fourth pressure decreasing equalization step into the adsorption bed undergoing the fourth pressure increasing equalization step. 11. The process of claim 1 wherein the repetitive cycle further comprises a second pressure decreasing equalization step and a second pressure increasing equalization step, wherein the second pressure decreasing equalization step is after the feed step (a) and before the rinse step (b) in the repetitive cycle, wherein the second pressure increasing equalization step is after the pressure increasing equalization step and before the repressurization step (g) in the repetitive cycle, wherein: the second pressure decreasing equalization step comprises co-currently withdrawing a second pressure equalization gas from an adsorption bed undergoing the second pressure decreasing equalization step, and passing the second pressure equalization gas to an adsorption bed undergoing the second pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the second pressure decreasing equalization step and the adsorption bed undergoing the second pressure increasing equalization step; andthe second pressure increasing equalization step comprises counter-currently introducing the second pressure equalization gas from the adsorption bed undergoing the second pressure decreasing equalization step while simultaneously at least one of (i) co-currently introducing the feed gas into the adsorption bed undergoing the second pressure increasing equalization step, and (ii) counter-currently introducing a portion of the effluent gas from the adsorption bed undergoing the feed step into the adsorption bed undergoing the second pressure increasing equalization step. 12. The process of claim 11 wherein the repetitive cycle further comprises a third pressure decreasing equalization step and a third pressure increasing equalization step, wherein the third pressure decreasing equalization step is after the second pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the third pressure increasing equalization step is after the evacuation step (e) and before the second pressure increasing equalization step in the repetitive cycle, wherein: the third pressure decreasing equalization step comprises co-currently withdrawing a third pressure equalization gas from an adsorption bed undergoing the third pressure decreasing equalization step, and passing the third pressure equalization gas to an adsorption bed undergoing the third pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the third pressure decreasing equalization step and the adsorption bed undergoing the third pressure increasing equalization step; andthe third pressure increasing equalization step comprises counter-currently introducing the third pressure equalization gas from the adsorption bed undergoing the third pressure decreasing equalization step into the adsorption bed undergoing the third pressure increasing equalization step. 13. The process of claim 12 wherein the repetitive cycle further comprises a fourth pressure decreasing equalization step and a fourth pressure increasing equalization step, wherein the fourth pressure decreasing equalization step is after the third pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the fourth pressure increasing equalization step is after the evacuation step (e) and before the third pressure increasing equalization step, wherein: the fourth pressure decreasing equalization step comprises co-currently withdrawing a fourth pressure equalization gas from an adsorption bed undergoing the fourth pressure decreasing equalization step, and passing the fourth pressure equalization gas to an adsorption bed undergoing the fourth pressure increasing equalization step thereby equalizing the pressure between the adsorption bed undergoing the fourth pressure decreasing equalization step and the adsorption bed undergoing the fourth pressure increasing equalization step; andthe fourth pressure increasing equalization step comprises counter-currently introducing the fourth pressure equalization gas from the adsorption bed undergoing the fourth pressure decreasing equalization step into the adsorption bed undergoing the fourth pressure increasing equalization step. 14. The process of claim 9 wherein the repetitive cycle further comprises a provide purge step and a purge step, wherein the provide purge step is after the third pressure decreasing equalization step or a fourth pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the purge step is after the evacuation step (e) and before the third pressure increasing equalization step or the fourth pressure increasing equalization step, wherein: the provide purge step comprises co-currently withdrawing a purge gas from an adsorption bed undergoing the provide purge step, and passing the purge gas to an adsorption bed undergoing the purge step; andthe purge step comprises counter-currently introducing the purge gas from the adsorption bed undergoing the provide purge step into the adsorption bed undergoing the purge step while counter-currently withdrawing a purge gas effluent comprising the first gas from the adsorption bed undergoing the purge step at the evacuation pressure and combining the purge gas with the product stream. 15. The process of claim 12 wherein the repetitive cycle further comprises a provide purge step and a purge step, wherein the provide purge step is after the third pressure decreasing equalization step or a fourth pressure decreasing equalization step and before the blowdown step (d) in the repetitive cycle, wherein the purge step is after the evacuation step (e) and before the third pressure increasing equalization step or the fourth pressure increasing equalization step, wherein: the provide purge step comprises co-currently withdrawing a purge gas from an adsorption bed undergoing the provide purge step, and passing the purge gas to an adsorption bed undergoing the purge step; andthe purge step comprises counter-currently introducing the purge gas from the adsorption bed undergoing the provide purge step into the adsorption bed undergoing the purge step while counter-currently withdrawing a purge gas effluent comprising the first gas from the adsorption bed undergoing the purge step at the evacuation pressure and combining the purge gas with the product stream. 16. The process of claim 1 wherein increasing the pressure in the adsorption bed undergoing the repressurization step (g) further comprises counter-currently introducing at least a portion of the rinse gas effluent from the adsorption bed undergoing the rinse step.
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