Performance enhancement of solar still through efficient heat exchange mechanism – A review
作者: AE Kabeel , T Arunkumar , DC Denkenberger , Ravishankar Sathyamurthy , None
DOI: 10.1016/J.APPLTHERMALENG.2016.12.044
关键词: Thermal energy storage 、 Wastewater 、 Phase-change material 、 Brackish water 、 Solar still 、 Productivity 、 Energy storage 、 Heat exchanger 、 Environmental engineering 、 Engineering
摘要: Abstract The available water sources are insufficient to meet long-term requirements. People can survive for days, weeks, or months without food, but cannot live more than a week water. requirements of domestic and industrial use have also increased substantially over the years. Also limited supply fresh in many parts world has resulted purification sea water, waste brackish production. So production rightly been accorded high priority countries’ development. This review article analyzes effect various heat exchange mechanisms adopted by researchers augment from different solar still designs. Many authors designed tested conventional stills, modifications basin geometry integration with collectors. It is possible output distillation systems internal energy storage. storage be further phase change materials (PCM), thermal (TESM) inducing larger temperature difference between glass. present paper describes comprehensive on done stills improve productivity. percentage improvement productivity shown these articles.
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