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W3048657640 abstract "Heat exchanger design is one of the most important design parameters, which affects the performance of active solar stills equipped with heat exchanger. However, up to the present, there is a limited number of experimental studies investigate the impact of this parameter. The present work aims to study the integration of a novel designed multi-scale heat exchanger to active solar still coupled with a parabolic trough collector experimentally. This novel design is based on the practical implications of the constructal theory. The performance of the proposed heat exchanger is then compared with the conventional ones such as parallel channels and serpentine heat exchangers. Total distillate production of active solar still integrated with new heat exchanger is 34.1% and 30.4% higher than the stills integrated with parallel channels and serpentine heat exchangers, respectively. Furthermore, the highest overall energy efficiency of 39.4% was obtained utilizing the novel design heat exchanger. The enhancement in distillate production and efficiency for the still with the new design heat exchanger is in fact due to the higher brine temperature, the higher temperature difference between brine (i.e. evaporation surface) and the condensing surface, lower pressure drop, and consequently higher volumetric flow rate of heat transfer fluid." @default.
W3048657640 created "2020-08-18" @default.
W3048657640 creator A5038612745 @default.
W3048657640 creator A5061009451 @default.
W3048657640 creator A5063004893 @default.
W3048657640 date "2020-11-01" @default.
W3048657640 modified "2023-10-14" @default.
W3048657640 title "Experimental investigation of a double slope active solar still: Effect of a new heat exchanger design performance" @default.
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W3048657640 doi "https://doi.org/10.1016/j.applthermaleng.2020.115875" @default.
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