Abstract
The drastic property changes of supercritical CO<sub>2</sub> (SCO<sub>2</sub>) make the performance of SCO<sub>2</sub> compressors different from that of conventional compressors. This study deals with the real-gas effect on the SCO<sub>2</sub> compressor performance by theoretical analysis and numerical validation. A set of similitude parameters are firstly deduced by dimensional analysis. Then keeping these parameters unchanged, the performance variation of a SCO<sub>2</sub> compressor is analyzed when the inlet flow condition changes in a certain temperature and pressure range. Results show that the proposed similitude method could accurately reflect the variation trend of SCO<sub>2</sub> compressor performance under different inflow conditions. The real-gas effect enables the compressor to obtain higher pressure ratio with lower temperature rise. It is recommended that the inlet temperature of SCO<sub>2</sub> compressor should be as close as possible to the critical temperature and the pressure should be about 150 kPa higher than the corresponding pseudo-critical pressure at the same temperature.
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