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Figure 6.6: Variations with compressor pressure ratio of the trigeneration exergy efficiency for several gas turbine isentropic efficiencies .......................................................................................................... 122 Figure 6.7: Variations with compressor pressure ratio of energy and exergy efficiencies...................... 123 Figure 6.8: Variations with compressor pressure ratio of exergy efficiency and exergy. ....................... 124 destruction rate for the trigeneration system. ......................................................................................... 124 Figure 6. 9: Variations with compressor pressure ratio of combustion chamber and gas turbine mass flow rate......................................................................................................................................................... 124 Figure 6.10: Variations with compressor pressure ratio of heating and cooling load of the multigeneration. ................................................................................................................................................................ 125 Figure 6.11: Variations with compressor pressure ratio of heating and cooling load of the multigeneration. ................................................................................................................................................................ 125 Figure 6.12: Variations with gas turbine inlet temperature of total exergy destruction rate and exergy efficiency. .............................................................................................................................................. 126 Figure 6.13: Variations of gas turbine inlet temperature of exergy efficiency. ...................................... 127 Figure 6.14: Variations with gas turbine inlet temperature of total exergy destruction rate and exergy efficiency. .............................................................................................................................................. 127 Figure 6.15: Variations with gas turbine inlet temperature of heating and cooling load of the system. . 128 Figure 6.16: Variations with gas turbine inlet temperature of steam and ORC power output. ............... 129 Figure 6.17: Variations with gas turbine inlet temperature of hydrogen production and hot water mass flow rate. ................................................................................................................................................ 129 Figure 6.18: Variations with pressure of high-pressure steam, PHP, on system energy and exergy efficiencies. ............................................................................................................................................ 130 Figure 6.19: Variations with HRSG high pressure of steam cycle and ORC power output. ................... 131 Figure 6.20: Variations with TEVP of various system exergy efficiencies. .............................................. 131 Figure 6.21: Variations with high pressure pinch point temperature of exergy efficiency and total exergy destruction rate. ...................................................................................................................................... 132 Figure 6.22: Variations with high pressure pinch point temperature of total cost rate and total exergy destruction rate. ...................................................................................................................................... 132 Figure 6.23: Comparison of exergy efficiency and unit CO2 emissions of selected types of plants. ....133 Figure 6.24: Unit CO emissions of selected types of plants. .................................................................. 134 Figure 6.25: Variations of unit CO2 emissions with compressor pressure ratio for selected cases. ........ 134 Figure 6.26: Variations of unit CO emissions with compressor pressure ratio for selected cases. ......... 135 Figure 6.27: Variations with compressor pressure ratio of sustainability index and cost rate of environmentalimpact. ...........................................................................................................................136 9PDF Image | Energy Systems for Multigeneration Purposes
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