Title of article
Investigation of carbon dioxide capture from hydrogen using the thermal pressure swing adsorption process: Central composite design modeling
Author/Authors
Saberimoghaddam, Ali Department of Chemistry and Chemical Engineering - Malek Ashtar University of Technology , Khebri, Vahid Department of Chemistry and Chemical Engineering - Malek Ashtar University of Technology
Pages
14
From page
13
To page
26
Abstract
In this study pre-combustion capture of carbon dioxide from hydrogen was
performed using a 5A zeolite adsorber. A one column thermal pressure swing
adsorption (TPSA) process was studied in the bulk separation of a CO2/H2 mixture
(50:50 vol%). The adsorption dynamics of the zeolite bed were investigated by
breakthrough experiments to select the suitable range for operational factors in
the design of experiments. Combined effect of three important variables namely,
adsorption time, purge to feed ratio, and regeneration temperature on hydrogen purity,
recovery and productivity were investigated in the TPSA process using Response
Surface Methodology (RSM). Predicted models show an interaction between
adsorption time and regeneration temperature in the range that the experiments were
performed. Optimization of the TPSA process was performed based on the goal
of responses. As hydrogen purity has the large impact with respect to hydrogen recovery
and productivity in industry, the optimum condition was proposed based on
maximum purity of hydrogen. In this condition, predicted values for adsorption time,
purge to feed ratio, and regeneration temperature were 7.99 min, 0.2, and 204 °C,
respectively. Predicted values of responses for hydrogen purity, recovery, and
productivity were 99.88%, 50.71%, and 1.32 , respectively. Acquired models were
validated by experimental data in predicted conditions and actual responses were very
close to predicted values. These results con rmed the accuracy of obtained models.
Keywords
Response surface methodology , Pressure Swing Adsorption , CO2 capture , Zeolite 5A , Hydrogen purication
Journal title
Astroparticle Physics
Serial Year
2017
Record number
2451533
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