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Processes 2020, 8, 216 Processes 2020, 8, x FOR PEER REVIEW 4.1. Recuperation of the S-CO2 Cycle 4.1. ReTcuhpeercayticolne othf tehremSa-lCeOfficCiyenclcey ηt and exhaust heat recovery ratio ηre of the recuperation of the Processes 2020, 8, x FOR PEER REVIEW 4. Results and Discussion 10 of 23 10 of 23 10 of 23 4.1. Recuperation of the S-CO2 Cycle 2 S-CO2 cycle for the various compressor inlet conditions are shown in Figures 10 and 11, respectively. The cycle thermal efficiency ηt and exhaust heat recovery ratio ηre of the recuperation of the The cycle thermal efficiency ηt and exhaust heat recovery ratio ηre of the recuperation of the The cycle thermal efficiency is the ratio of net power output to cycle heat absorption. The exhaust S-CO2 cycle for the various compressor inlet conditions are shown in Figures 10 and 11, respectively. S-CO2 cycle for the various compressor inlet conditions are shown in Figures 10 and 11, respectively. heat recovery ratio is the ratio of net power output to the maximum allowable heat rate from the The cycle thermal efficiency is the ratio of net power output to cycle heat absorption. The exhaust The cycle thermal efficiency is the ratio of net power output to cycle heat absorption. The exhaust heat waste heat source. The turbine inlet pressure is fixed at 25 MPa. It is found that at the subcritical area heat recovery ratio is the ratio of net power output to the maximum allowable heat rate from the recovery ratio is the ratio of net power output to the maximum allowable heat rate from the waste where the compressor inlet pressure is lower than the critical pressure 7.38 MPa, ηt and ηre increase waste heat source. The turbine inlet pressure is fixed at 25 MPa. It is found that at the subcritical area heat source. The turbine inlet pressure is fixed at 25 MPa. It is found that at the subcritical area where with the rising of the compressor inlet pressure. When the compressor inlet pressure is higher than where the compressor inlet pressure is lower than the critical pressure 7.38 MPa, ηt and ηre increase the compressor inlet pressure is lower than the critical pressure 7.38 MPa, ηt and ηre increase with the the critical pressure, ηt and ηre increase and then decrease with the rising of the compressor inlet with the rising of the compressor inlet pressure. When the compressor inlet pressure is higher than rising of the compressor inlet pressure. When the compressor inlet pressure is higher than the critical pressure; there is an optimum compressor inlet pressure leading to the highest ηt and ηre. the critical pressure, ηt and ηre increase and then decrease with the rising of the compressor inlet pressure, ηt and ηre increase and then decrease with the rising of the compressor inlet pressure; there is pressure; there is an optimum compressor inlet pressure leading to the highest ηt and ηre. an optimum compressor inlet pressure leading to the highest ηt and ηre. Figure 10. Thermal efficiency for the various compressor inlet pressures and temperatures. Figure 10. Thermal efficiency for the various compressor inlet pressures and temperatures. Figure 10. Thermal efficiency for the various compressor inlet pressures and temperatures. Figure 11. The exhaust heat recovery ratio for the various compressor inlet pressures and temperatures. Figure 11. The exhaust heat recovery ratio for the various compressor inlet pressures and temperatures. Figure 11. The exhaust heat recovery ratio for the various compressor inlet pressures and temperatures.PDF Image | Supercritical CO2 Cycle for ICE Waste Heat Recovery
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