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B.6. Effect of using wrong MTC on breakthrough profile The consequence of using the wrong correlation to predict an overall MTC is visually illustrated in Figure B6. Using the Case 1 prediction from Section 4.1 of the main text results in a significantly steeper breakthrough curve compared to the more accurate Case 4 prediction. The Case 1 prediction results in a nearly two-fold reduction in MTZ time compared to the Case 4 prediction when the 0.05 and 0.9 limits used to define the MTZ are used. Assuming the wave velocities are approximately equivalent, this results in a MTZ length prediction that is nearly twice as small as demonstrated experimentally. 1 0.8 0.6 0.4 0.2 0 Experiment Case 1 Prediction Case 4 Prediction 45 46 47 48 49 50 Time (s) Figure B6. Comparison of breakthrough profiles using different predictions for an overall MTC. Experimental breakthrough curve at 267 kPa, room temperature and an inlet N2/O2 gas mixture of 0.75/0.25. The average superficial velocity across MTZ was 2.8 cm/s 166 C/CoPDF Image | LIMITS OF SMALL SCALE PRESSURE SWING ADSORPTION
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