Parametric Study for Nitrogen Separation from Air by Pressure Swing Adsorption using Carbon Molecular Sieve

The  separation  of  air  by  carbon  molecular  sieve  (CMS)  adsorption  was  studied  in  this  work  over  a range  of  adsorption  pressure  of  (2–8)  bar.  Breakthrough  curves showed  no  significant  effect  of  the pressure on product nitrogen purity and adsorbent capacity above 4 bar. Max...

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Bibliographic Details
Main Authors: Zaid A. Abdel-Rahman, Abdulbasit H. Mhdi, Heba S. Auob
Format: Article
Language:English
Published: Tikrit University 2016-10-01
Series:Tikrit Journal of Engineering Sciences
Subjects:
Online Access:http://www.tj-es.com/ojs/index.php/tjes/article/view/599
Description
Summary:The  separation  of  air  by  carbon  molecular  sieve  (CMS)  adsorption  was  studied  in  this  work  over  a range  of  adsorption  pressure  of  (2–8)  bar.  Breakthrough  curves showed  no  significant  effect  of  the pressure on product nitrogen purity and adsorbent capacity above 4 bar. Maximum purity of about 98% is observed for time up to 60 s. Adsorbent capacity obtained is in agreement with multicomponent Langmuir isotherm up to 4 bar. Maximum constant adsorbent capacity of about 0.1 mol O2/kg CMS is obtained for pressure above 4 bar. For  PSA  two  columns  6-steps  process,  no  significant  effect  of  the  pressure  on  the  product  purity above 4  bar. The purity increases with decreasing the productivity. Maximum purity of 97.6% is obtained at productivity of 156 lit/kg CMS.hr, cycle time of 100 s, and purge flowrate of 1 lit/min. The productivity of 606 lit/kg CMS.hr is obtained at purity of 94%, cycle time of 60s, and purge flowrate of 4 lit/min.
ISSN:1813-162X
2312-7589