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List of tables Table 3.1 – Coefficients for the different types of mass transfer............................................... 15 Table 3.2 – Parameters of the existing isotherms in gML libraries .............................................. 16 Table 4.1 - Connection between equal variables present in the multilayer and isotherm models ....... 20 Table 4.2 – Scheme of the relations between variables in the multilayer model ............................ 21 Table 4.3 – Input conditions ........................................................................................... 23 Table 4.4 – Initial values for the LDF coefficients ................................................................. 39 Table 5.1 – PSA Milestones, adapted from Pressure Swing Adsorption [10] ................................... 52 Table 5.2 – List of models present in the adsorption libraries of gPROMS® ................................... 53 Table 5.3 – Specifications made through the dialog box ......................................................... 53 Table 5.4 – Langmuir-Freundlich isotherm parameters ........................................................... 56 Table 5.5 – LDF coefficients and heat of adsorption for the Langmuir-Freundlich isotherm validation . 57 Table 5.6 – Adsorbent properties employed in the Langmuir-Freundlich isotherm validation............. 57 Table 5.7 – Adsorption bed properties for the validation of the Langmuir-Freundlich isotherm .......... 58 Table 5.8 – Molar fractions and feed conditions for the five component mixture ........................... 59 Table 5.9 – Conversion of the provided parameters to the LDF coefficient................................... 64 Table 5.10 – Multisite Langmuir isotherm parameters ............................................................ 64 Table 5.11 - Properties of the adsorbent and feed conditions for the simulation performed using the Multisite Langmuir isotherm ........................................................................................... 65 Table 5.12 – gPROMS® output for the parameter estimation performed considering a constant variance of 0.05 ..................................................................................................................... 67 Table 5.13 – Upper and lower bounds for the 0.05 constant variance parameter estimation ............. 68 Table 5.14 - Estimated parameters for a constant variance of 0.05 and different upper and lower bonds for each component ..................................................................................................... 69 Table 5.15 - gPROMS® parameter estimation output with the final values obtained for the LDF coefficient for a variance of 0.01..................................................................................... 71 Table 5.16 – Lower and Upper bounds for the Multisite Langmuir isotherm parameter estimation ...... 72 Table 5.17 – Final values obtained for the parameter estimation of the Multisite Langmuir isotherm in the activated carbon layer ............................................................................................. 73 Table 5.18 - Final values obtained for the parameter estimation of the Multisite Langmuir isotherm in the zeolite layer ......................................................................................................... 74 Pressure Swing Adsorption for Hydrogen Purification viPDF Image | PRESSURE SWING ADSORPTION FOR THE PURIFICATION OF HYDROGEN
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