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Temp Exp Feed CO2 Conc. PL R.R. HP CO2 Rec [%] HP CO2 Pur [%] [°C] 70 100 25 [%] [kPa] [%] Experiment Modeling Experiment Modeling E-1 16.00 E-2 16.05 E-3 16.05 E-5 16.00 E-6 16.00 E-11 10.04 E-13 16.00 E-17 15.99 5.02 2.0 91.68 5.01 3.0 90.81 5.12 4.0 94.06 6.94 4.0 87.16 10.28 4.0 70.39 5.06 3.0 90.62 5.02 3.0 93.17 5.50 3.0 91.66 88.64 96.83 90.11 95.43 92.10 96.54 86.15 95.93 70.00 93.68 87.32 86.79 91.00 97.61 81.13 96.05 95.87 95.58 95.60 95.72 94.28 86.24 96.86 93.60 Table 4.3 Summary of PSA cycle experimental results compared with simulation. The more energy consumption is due to the higher flow rate. The base case met the DOE criteria of 90% CO2 recovery, 95% CO2 purity and energy consumption of less than 20 kJ/mol CO2 captured. Figure 4.8 shows the energy consumption for three different CnD pressures (PL), 5, 7 and 10 kPa. The highest pressure of the process (PH) was kept constant for all three runs. As it can be seen from Figure 4.8 that the energy consumption is lower for 7 kPa as Experiment E-1 5.92 E-2 6.26 E-3 6.58 E-5 5.39 E-6 4.42 E-11 4.48 E-13 6.80 E-17 5.03 Energy [kJ/mol of CO2] 17.93 18.63 19.17 16.73 17.10 22.02 20.12 16.70 Energy [kJ] Table 4.4 Energy consumption selected experiments from simulation 33PDF Image | Development of a Pressure Swing Adsorption (PSA) Cycle for CO2 Capture
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CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
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