TEMPERATURE SWING ADSORPTION COMPRESSION AND MEMBRANE SEPARATIONS

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TEMPERATURE SWING ADSORPTION COMPRESSION AND MEMBRANE SEPARATIONS ( temperature-swing-adsorption-compression-and-membrane-separa )

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3.5 Loading profile for the nonuniform single heater model at the end of the desorptionhalf-cycle.............................. 37 3.6 Mass of CO2 desorbed per unit energy supplied as a function of the percent ofthetotalenergysuppliedtooneheater. . . . . . . . . . . . . . . . . . 39 3.7 Mass of CO2 in the adsorbed phase per unit depth of the adsorbent bed afteranadsorptionhalf-cycle......................... 40 3.8 Mass of CO2 in the adsorbed phase per unit depth of the adsorbent bed afteradesorptionhalf-cycle.......................... 41 3.9 Difference in the mass of CO2 in the adsorbed phase per unit depth of the adsorbent bed between adsorption and desorption half-cycles. . . . . . . 43 4.1 Materialbalanceforcenteringprofileatζ=0.. . . . . . . . . . . . . . . 57 4.2 First-order correction term along the centerline of the bed and the wall as a function of axial position for the parabolic velocity example. . . . . 61 4.3 Example curves of fluid-phase concentrations with slightly favorable Lang- muirisothermsforγ=0.1,R=0.95,Per =Pea =100,andf(ξ)=1−2ξ2. 62 4.4 Lines of constant concentrations and plug-flow perturbation in a packed bed for slightly favorable Langmuir isotherm for γ = 0.1, R = 0.95, Per=Pea=100,andf(ξ)=1−2ξ2. ................... 63 4.5 First-order correction term along the centerline of the bed and the wall as a function of axial position for the plug-flow velocity with wall effects example. ................................... 65 4.6 Example curves of fluid-phase concentrations with slightly favorable Lang- muirisotherms................................. 67 4.7 Lines of constant concentrations and plug-flow velocity with wall effects in a packed bed for slightly favorable Langmuir isotherm. . . . . . . . . 68 ix

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