Automation: | High | Process: | Simple Configuration |
---|---|---|---|
Performance: | High Performance | Capacity: | 5,000~100,000 Nm3/h |
High Light: | hydrogen manufacturing unit,hydrogen generation system |
Safety Hydrogen PSA Unit , Pressure Swing Adsorption System Decarbonization By PSA
The characteristics, process principle and process flow of PSA decarburization technology are basically the same as that of PSA in purifying hydrogen. The difference lies in that the raw gas of PSA is CO2 rich mixture and the product gas can be H2, N2, and CO.
Features
Production technology is mature and operation is reliable
The process flow is simplified and easy to operate accompanied by a prompt action for both start-up and shut-down
Automation is high, and the operation and control are simple and reliable
Operation is stable, safe and reliable
Less land occupation and investment can be recovered in a short time
Cost-effective in operation and production
Recover CO2 with high concentration >90%
Process Principle
De-carbonization separates carbon dioxide from other gaseous components by utilizing the nature of adsorbent which is selected adsorption of carbon dioxide in gas mixture under pressurized condition.
Meanwhile, adsorbents release adsorbed carbon dioxide gas under the depressurizing conditions as to enable adsorbents to regain adsorbing capacity. One stage or two stages of operation are adopted based on the client’s different requirements for the contents of carbon dioxide as product so as to ensure the yield of valid components and stable index.
Process Description
CO2 rich feed gas is pretreated and then entered into the PSA system from the bottom of the adsorption tower. Purified gas (H2, N2, CO) is obtained from the top of the tower. From the bottom of the tower, we get the desorption gas (main content is CO2) so to recover CO2 or release it into the atmosphere.
Performance
Capacity: 5,000~100,000 Nm3/h
Remaining CO2 : ≤ 0.2%(v/v)
Pressure : 0.3~3.6MPa(G)
Hydrogen Recovery: ≥98%(v/v)
Nitrogen recovery: ≥90%(v/v)
CO recovery: ≥92%(v/v)
Application
CO2 removal and purification from water gas and semi water gas
CO2 removal and purification from shift gas
CO2 removal and purification from pyrolysis gas of methanol cracking
CO2 removal or concentration from other sources of CO2 –rich gases