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Table 6.2 Comparison of equation 4.1 contributions for a nitrogen overall MTC at a Reynolds number of 20 and two different particle sizes. Constants used: τp =1.9, γ1 =0.7 and γ2 = 3.2 (small particle) γ2 = 0.75 (large particle). Mass transfer resistance is proportional to 1/ki Particle kdisp size (cm) (1/s) 0.05 14.4 0.2 3.8 kmacro kfilm koverall (1/s) (1/s) (1/s) 16.0 74.5 6.9 1.0 4.7 0.68 % of total % of total % of total resistance resistance resistance (disp) (macro) 48 43 9 18 68 15 (film) Figure 6.4. Comparison of koverall predictions for a) 0.5 mm particle (left) and b) 2 mm particle (right). τp = 1.9 and γ1 = 0.7 for all predictions for both particle sizes. γ2 = 0.5 for both case 1 and 2 predictions for both particle sizes. For case 3 and 4, γ2 = 3.2 for 0.5 mm particle and γ2 = 0.75 for 2 mm particle 111PDF Image | LIMITS OF SMALL SCALE PRESSURE SWING ADSORPTION
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