Extremum analysis based on exergy and economic principle for ejector-absorption cycles combined with regenerative organic-Rankine and gas-turbine cycles

“…Water from the waste heat boiler is used as a heat carrier for overheating and evaporation in a low-pressure turbine. The parameters of the working medium at the inlet to the active nozzle of LVE are t p1 = 104 °С, p p1 = 1.6⋅10 5 Pa. Pressure at the outlet of the ejector is diffe rent and depends on the design of the scheme. For a scheme based on LVE, it is p out = 1⋅10 5 Pa, for the LVE+LRVP scheme -p out = 0.8⋅10 5 Pa. A vapor-air mixture pressure at the inlet to LVE p s1 = 0.17⋅10 3 Pa.…”

“…The authors of [4,5] conducted theoretical and practical studies that showed that the maximum efficiency of steam-jet ejectors has already been achieved and cannot be increased. In [6], it is noted that in order to improve the condensation process in steam-gas plants, it is necessary to search for new, alternative devices that would be more efficient and economical than steam jets.…”

Improving the efficiency of condensation installations of steam turbines by applying liquid-vapor ejector

“…Water from the waste heat boiler is used as a heat carrier for overheating and evaporation in a low-pressure turbine. The parameters of the working medium at the inlet to the active nozzle of LVE are t p1 = 104 °С, p p1 = 1.6⋅10 5 Pa. Pressure at the outlet of the ejector is diffe rent and depends on the design of the scheme. For a scheme based on LVE, it is p out = 1⋅10 5 Pa, for the LVE+LRVP scheme -p out = 0.8⋅10 5 Pa. A vapor-air mixture pressure at the inlet to LVE p s1 = 0.17⋅10 3 Pa.…”

“…The authors of [4,5] conducted theoretical and practical studies that showed that the maximum efficiency of steam-jet ejectors has already been achieved and cannot be increased. In [6], it is noted that in order to improve the condensation process in steam-gas plants, it is necessary to search for new, alternative devices that would be more efficient and economical than steam jets.…”

Improving the efficiency of condensation installations of steam turbines by applying liquid-vapor ejector

“…Finally, instead of using the expansion valve and compressor (Comp), an ejector (EJC) has been employed. According to the literature [ 60 ], using an EJC can significantly reduce energy consumption and losses. Besides that, the produced electrical energy can meet the electrical requirements of all the installed electric equipment in the proposed energy system.…”

Cost and environmental analysis and optimization of a new and green three-level waste heat recovery-based cogeneration cycle: A comparative study

“…In another research, a cooling and power generation system composed of a gas turbine, heat recovery steam generators (HRSG), regenerative organic Rankine cycle (ORC), and ejector absorption refrigeration cycle has been studied. 16 The result of exergy analysis revealed that the combustion chamber of the gas turbine (GT) indicated the highest exergy destruction ratio (45.81%) and lowest exergoeconomic factor (0.0051). Overall exergy efficiency and total product cost of the system in its optimum condition are 44.2% and 54.84 $/GJ, respectively.…”

“…Exergy analysis indicates that reactors have the highest exergy destruction rate among the system's components (57.3% of total). In another research, a cooling and power generation system composed of a gas turbine, heat recovery steam generators (HRSG), regenerative organic Rankine cycle (ORC), and ejector absorption refrigeration cycle has been studied 16 . The result of exergy analysis revealed that the combustion chamber of the gas turbine (GT) indicated the highest exergy destruction ratio (45.81%) and lowest exergoeconomic factor (0.0051).…”

Conceptual design and energy, economic and environmental ( 3E ) analysis of a natural gas‐based integrated system with reduced CO ₂ emission for multigeneration of electricity, freshwater, syngas, and oxygen