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Exergoeconomic analysis of a solar photovoltaic-based direct evaporative air-cooling system
摘要: The target of this work is to perform the exergoeconomic analysis of a solar photovoltaic-based direct evaporative air-cooling system. The system was investigated experimentally with different thicknesses of cellulose and straw pads. For inlet air rates up to 1000 m3/h, the maximum changes in the humidity and temperature of outlet air are achieved by a pad with a thickness of 30 cm. A comprehensive mathematical model was developed for the system and the exergoeconomic analysis of the system was carried out. The influence of the effective parameter on the performance of the system was investigated. For an inlet air with a temperature of 30 °C and relative humidity of 30%, the maximum system exergy efficiency was obtained about 20%. With changes in the water temperature from 15 to 27 °C, inlet air rate from 300 to 1500 m3/h, and inlet air temperature from 26 to 34 °C, the system exergoeconomic factor changes up to 60%. The current system was compared with a conventional system and results showed that for four early years of systems lifetime, the exergoeconomic factor of the conventional system is greater than the solar system due to its lower initial investment, and for later years is lower due to its larger operating cost.
关键词: Cellulose and straw pads,Mathematical modeling,Exergoeconomic analysis,Solar photovoltaic panel,Direct evaporative air-cooling
更新于2025-09-16 10:30:52
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Comparative investigation on the exergoeconomic analysis of solar-driven ejector refrigeration systems
摘要: In this article, the economic performance of the solar-driven steam ejector refrigeration system is addressed due to the rising beneficial adoption of this system with regard to using low-grade heat sources. For this purpose, a detailed exergoeconomic analysis on four proposed configurations of this system integrated with precoolers and/or preheaters is performed. At a refrigerant load of 5 kW, the results of this analysis show that it is more advantageous for all configurations to have evaporators work at 278 K with condensers remain at 311 K, whilst the generators are kept working at 362 K. The characteristics of each configuration are comprehensively discussed and compared. Based on the assessment of economic parameters, the fourth configuration provides the highest exergetic efficiency and the lowest total investment cost (0.1891 $/h) compared to the other configurations. The current work furnishes essential information that paves the way for future exergoeconomic studies in this field.
关键词: Solar energy,Exergoeconomic analysis,Ejector refrigeration system,Exergy
更新于2025-09-04 15:30:14