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List of Figures Figure 1.1: Arrangement of the primary IHX in a pool-type SFR Figure 1.2: The density spike near the critical point of CO2 Figure 1.3: Heatric TM Printed Circuit Heat Exchangers Figure 1.4: PCHE with two S-CO2 plates to each Na plate and a helium fill-gas plate Figure 2.1: The Simple Recuperative Brayton Cycle Figure 2.2: The S-CO2 Recompression Cycle Figure 2.3: Turbine size comparison for different fluids Figure 2.4: Efficiency Comparison of S-CO2 Recompression Cycle to other cycles Figure 2.5: Pipe paths in the Recompression Cycle of CYCLES III Figure 2.6: The original output “res.txt” from the original CYCLES Figure 2.7: The effect of impurities on the critical temperature of CO2 Figure 2.8: The efficiency of a pure ethane simple cycle Figure 2.9: The effect of dissociation on the ethane cycle Figure 2.10: The effect of turbine inlet temperature on cycle efficiency Figure 2.11: The effect of a helium leak detection gas on the S-CO2 cycle efficiency Figure 2.12: The compressor work as the helium mole fraction is changed Figure 2.13: The effect of air impurity on the S-CO2 cycle Figure 3.1: Design ranges for different compressor types Figure 3.2: The meridional plane view of a typical centrifugal compressor Figure 3.3: A straight vaned diffuser Figure 3.4: Example compressor performance map showing the surge line Figure 3.5: Fast-running fluid property subroutines for S-CO2 produced by Gong Figure 3.6: Range of Applicability for Gong’s S-CO2 property subroutines Figure 3.7: A single-stage main compressor map from CCODS showing unusual features Figure 3.8: The velocity triangles at impeller inlet and outlet Figure 3.9: A simplified schematic of an impeller showing the definition of backsweep angle Figure 3.10: The process for determining impeller performance Figure 3.11: The flow path in the vaneless space Figure 3.12: The pressure ratio of the main compressor for varying speeds Figure 3.13: The total-to-static efficiency of the main compressor for varying speeds Figure 3.14: The pressure ratio of the recompressing compressor for varying speeds Figure 3.15: The total-to-static efficiency of the two-stage recompressing compressor for varying speeds Figure 3.16: The pressure ratio of the modeled test compressor for varying speeds Figure 3.17: The total-to-static efficiency of the modeled test compressor for varying speeds Figure 4.1: Schematic of the intermediate loop Figure 4.2: The temperature drop in a 24 m long intermediate pipe Figure 4.3: Heat Lost in a 24 m long intermediate pipe Figure 4.4: The division of the tube length according to heat transfer regime in SoSaT Figure 4.6: Rankine Cycle efficiency as a function of temperature and pressure 10PDF Image | Supercritical Carbon Dioxide Cycle Analysis
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