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Figure 6.45: Effects of varying pinch point temperature on heating and cooling loads of the system. ... 161 Figure 6. 46: Effects of varying pinch point temperature on hot water and hydrogen production rates. 161 Figure 6.47: Effects of varying pinch point temperature on exergy efficiency and total exergy destruction rate. ........................................................................................................................................................ 162 Figure 6.48: Effects of varying pinch point temperature on net power output and fresh water mass flow rate. ........................................................................................................................................................ 163 Figure 6.49: Effects of varying pinch point temperature total cost rate and fresh water mass flow rate. 163 Figure 6.50: Effects of varying ORC turbine inlet pressure on exergy efficiency. ................................. 164 Figure 6.51: Effects of varying ORC turbine inlet pressure on heating and cooling loads of the system. ................................................................................................................................................................ 165 Figure 6.52: Effects of varying ORC turbine inlet pressure on the power to heating and cooling ratios. 166 Figure 6.53: Effects of varying ORC turbine inlet pressure on hydrogen production and total exergy destruction rate. ...................................................................................................................................... 166 Figure 6.54: Effects of varying ORC turbine inlet pressure on exergy destruction rate for ORC cycle and absorption chiller. .................................................................................................................................. 167 Figure 6.55: Effects of varying ORC turbine inlet pressure on total cost rate and total exergy destruction rate. ........................................................................................................................................................ 167 Figure 6.56: Effects of varying ORC turbine inlet pressure on total cost rate net power output. ........... 168 Figure 6.57: Effects of varying ORC pump inlet temperature on exergy efficiency and total exergy destruction rate. ...................................................................................................................................... 169 Figure 6.58: Effects of varying ORC pump inlet temperature on heating and cooling loads of the system. . ................................................................................................................................................................ 169 Figure 6.59: Effects of varying ORC pump inlet temperature on exergy efficiency. ............................. 170 Figure 6.60: Effects of varying ORC pump inlet temperature on net power output. .............................. 170 Figure 6.61: Effects of varying ORC pump inlet temperature on power to heating and cooling ratios. . 171 Figure 6.62: Effects of varying ORC pump inlet temperature on total cost rate and exergy efficiency. . 171 Figure 6.63: Comparison of exergy efficiencies and environmental impacts for three types of plants. .. 172 Figure 6. 64: Effect of varying ORC turbine inlet pressure on CO2 emissions. ...................................... 173 Figure 6.65: Effects of varying ORC pump inlet temperature on CO2 emissions. .................................. 174 Figure 6.66: Effects of varying pinch point temperature on CO2 emissions. .......................................... 174 Figure 6.67: Pareto Frontier: Best trade off values for the objective functions ...................................... 177 Figure 6.68:Results of all evaluations during 300 generations using genetic algorithm. A clear approximation of the Pareto front is visible on the lower part of the figure. .......................................... 178 11PDF Image | Energy Systems for Multigeneration Purposes
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