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3.3.7 Discussion of Net Work for the Ideal Four-Step Cycle We plot the net work and second law efficiency for the base case (yo = 0.78, B = 0.582) using the Ideal Four-Step cycle in the same manner as w e did for the Four-Step cycle (see Figure 3.22 and Figure 3.23). Net Work For the Ideal Four-Step Cycle (y0 = 0.78) o -5000 ~ -10000 « -15000 $ -20000 O -25000 oS -30000 -35000 -40000 -45000 -50000 c 25 •IH • pH u 20 W% 15 rt 10 T3 C5 ts 0 40 35 30 8 10 12 14 16 18 20 PH/PL{-} Figure3.22 NetIdealFour-StepCycleWorkperMoleofProductOxygen(wu)forOxygen Concentration; yo = 0.78, f) = 0.582. 2nd Law Efficiency for the Ideal Four-Step Cycle (yo = 0.78) 10 15 20 PH/PLH Figure 3.23 Ideal Four-Step Cycle Second Law Efficiencyfor Oxygen Concentration; yo = 0.78, /?= 0.582. 85PDF Image | Energy Efficiency of Gas Separation Pressure Swing Adsorption
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