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NetWork For the Four-Step Cycle (y0 = 0.78) 0 5 10 15 20 PH/PLH Figure3.15NetWorkperMoleofProductOxygenforOxygenConcentrationUsingtheFour-Step Cycle (u>i). 2nd Law Efficiency For the Four-Step Cycle (yo = 0.78) 0 5 10 15 20 PH/PL{-} Figure 3.16 Second Law Efficiencyfor Oxygen Concentration Using the Four-Step Cycle. As Ft increases, the work required decreases. Although there are more mrottling losses, the recovery increases with a higher pressure ratio and more useful work is done. This can be seen in Figure 3.17, which shows the recovery for the cycle with yo = 0.78 and the same values of (3 used in the work graphs. From section 3.2.7, we know that 75PDF Image | Energy Efficiency of Gas Separation Pressure Swing Adsorption
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