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CHAPTER 4 Figure 4.1: Layout of the system. 91 Figure 4.2: Daily water consumption for all three systems (summer). 93 Figure 4.3: Daily water consumption for all three systems (winter). 94 Figure 4.4: Weather conditions for all three systems (summer). 95 Figure 4.5: Weather conditions for all three systems (winter). 95 Figure 4.6: Top temperatures of vessel 1 for all three systems (summer). 97 Figure 4.7: Bottom temperatures of vessel 1 for all three systems (summer). 97 Figure 4.8: Top temperatures of vessel 2 for all three systems (winter). 99 Figure 4.9: Bottom temperatures of vessel 2 for all three systems (winter). 99 Figure 4.10: Daily power consumption of the CO2 heat pump system (summer). 103 Figure 4.11: Daily power consumption of the R-22 heat pump system (summer) 103 Figure 4.12: Daily power consumption of the ILH heat pump system (summer). 104 Figure 4.13: Daily power consumption of the CO2 heat pump system (winter). 106 Figure 4.14: Daily power consumption of the R-22 heat pump system (winter). 106 Figure 4.15: Daily power consumption of the ILH heat pump system (winter). 107 Figure 4.16: Summary of yearly water consumption for all three systems. 109 Figure 4.17: Summary of yearly minimum water supply temperature for the C02 110 system. Figure 4.18: Summary of yearly minimum water supply temperature for the R-22 111 system. Figure 4.19: Summary of yearly minimum water supply temperature for the I!.:.H 111 system. Figure 4.20: Summary of yearly energy consumption for the CO2 system. 112 Figure 4.21: Summary of yearly energy consumption for the R-22 system. 113 Figure 4.22: Summary of yearly energy consumption for the ILH system. 113 CHAPTER 5 Figure 5.1: Peak, off-peak and standard time periods. 118 Figure 5.2: Monthly energy use. 119 Figure 5.3: Monthly energy cost. 120 Figure 5.4: Cost difference between the three systems (%). 121 Figure 5.5: Operating cost over a period of ten years. 122 Figure 5.6: Present value vs. life expectancy. 124 A Techno-Economical Analysis of a CO2 Heat Pump. School ofMechanical Engineering, North-West University IXPDF Image | CO2 HEAT PUMP Analysis
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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
Heat Pumps CO2 ORC Heat Pump System Platform More Info
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