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List of Figures Chapter 2 Figure 2.1 Figure 2.2 Figure 2.5 Total Product Pressure vs. Purity for constant O2 Partial Pressure of 3 arm 18 Figure 2.6 Reversible Work to Concentrate and Deliver Product with Oxygen Partial Pressure of 3 atm 19 Figure 2.7 Equilibrium Adsorption Isotherms for Nitrogen and Oxygen on Zeolite 5A 20 Figure 2.8 Movement of Gas Molecules Through an Adsorbent Bed 27 Figure 2.9 Propagation of a Concentration Shock Wave.... 28 Figure 2.10 Formation of a Concentration Shock Wave 30 Figure 2.11 Formation of a Simple Wave During Purge 31 Chapter 3 Figure 3.1 Four-Step Cycle: Pressurization With Product (After Knaebel and Hill, 1985, Figure 1) 40 Figure 3.2 Propagation of the Shock Wave: Pressurization With Product (After Knaebel and Hill, Fig. 2) 42 Figure 3.3 Feed Step for the Four-Step Cycle Utilizing Pressurization with Product 43 Figure 3.4 Piston, Gas, and Shock Wave Velocities During Constant Pressure Feed 44 Figure 3.5 Mole Fraction in the Bed at the (a) Beginning and (b) Ending of the Blowdown Step. 51 Figure 3.6 Bed Mole Fraction During Blowdown at (a) P = P H , (b) P = Po, and (c) P = PL 52 Figure 3.7 Formation of a Simple Wave During Purge 56 Figure 3.8 Steps for Purge Work Calculation 62 Figure 3.9 Expansion of the Product to Recover Energy and Deliver Product at Atmospheric Pressure 65 (0) Mixed Reference System, and (1) Separated Gases 10 Reversible Work of Gas Separation Done by the System as a Function 13 The Flows in and out of a PSA Gas Separation System 14 Reversible Work done By the System in Concentrating One Litre Of Oxygen From Air 17 of yo Figure 2.3 Figure 2.4PDF Image | Energy Efficiency of Gas Separation Pressure Swing Adsorption
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