Taguchi Design Methodology for the Optimization of CO2 Permeance in Gas Capture Process from Polluted Air

CO2 single-gas permeance has been studied in the present work by the ssz-13 membrane. SEM was used to characterize the membranes. Feed flow rate, Feed pressure, Sweep gas flow rate as the studied parameters, and these factors varied at five levels with an orthogonal array of L25. Applying Taguchi ex...

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Veröffentlicht in:	IOP conference series. Earth and environmental science 2023-07, Vol.1215 (1), p.012010
Hauptverfasser:	Majeed, Jwan Taher, Majeed, Najwa Saber
Format:	Artikel
Sprache:	eng
Schlagworte:	Air pollution Carbon dioxide Climate change Design of experiments Design optimization Experimental design Flow rates Flow velocity Gas flow Membranes Orthogonal arrays Parameters Polluted Air Reluctance Taguchi Design Methodology Taguchi methods
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description	CO2 single-gas permeance has been studied in the present work by the ssz-13 membrane. SEM was used to characterize the membranes. Feed flow rate, Feed pressure, Sweep gas flow rate as the studied parameters, and these factors varied at five levels with an orthogonal array of L25. Applying Taguchi experimental design allowed to examine the impact of the most important parameters on membrane permeabilit. CO2 permeance had the biggest effect by feed flow rate.
doi_str_mv	10.1088/1755-1315/1215/1/012010
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subjects	Air pollution Carbon dioxide Climate change Design of experiments Design optimization Experimental design Flow rates Flow velocity Gas flow Membranes Orthogonal arrays Parameters Polluted Air Reluctance Taguchi Design Methodology Taguchi methods
title	Taguchi Design Methodology for the Optimization of CO2 Permeance in Gas Capture Process from Polluted Air
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