Experimental study of pressure swing adsorption: oxygen and nitrogen separation from air
This study aims to tackle the problem of having a lack of enriched-nitrogen atmosphere, with the study of pressure swing adsorption. The research objectives are to: 1) Identify parameters affecting the results of pressure swing adsorption. 2) Through the parameters, to obtain the highest oxygen...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2022
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| Online Access: | https://hdl.handle.net/10356/158923 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | This study aims to tackle the problem of having a lack of enriched-nitrogen atmosphere, with
the study of pressure swing adsorption. The research objectives are to:
1) Identify parameters affecting the results of pressure swing adsorption.
2) Through the parameters, to obtain the highest oxygen purity.
3) Recommendations to improve the current setup for pressure swing adsorption.
Through literature review, including past research revolving around pressure swing adsorption,
pressure swing adsorption is discovered to be affected by adsorption time, the pressure of the
feed gas, pressurization time, volume flow rate and purge flow rate. These parameters are then
studied and experimented with in detail, to obtain maximized oxygen purity.
A pressure swing adsorption setup is used in this setup, with zeolites already inside the
adsorption beds. With the help of the literature review, together with the programmable logic
controller ladder diagram and needle valve, change the values of the parameters stated above,
and improve the pressure swing adsorption results, finding the optimal values from each
parameter, using a fixed setting for pressure swing adsorption. The optimal settings are then
discovered, with a 2s adsorption time, pressure of gas feed having a pressure of 2 bar going
into the adsorption bed, pressurization time of 0.2 s, volume flow rate of 4.3 l/min going into
the adsorption bed, and purge flow rate of 4.8 l/min. After which, pressure swing adsorption
will run with having all the parameters with all the optimal value, to obtain the most optimal
result for pressure swing adsorption, with a reading of 85.11% oxygen purity.
A few recommendations are then given for future researchers that will be planning to take on
similar projects as this study, to help them with kickstarting their research and hopefully
improving what they have been working on. |
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