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Systematic Study of the Effects of System Geometry and Ambient Conditions on Solar Steam Generation for Evaporation Optimization

蒸发 湿度 相对湿度 海水淡化 过程(计算) 环境科学 工作(物理) 材料科学 工艺工程 环境工程 盐度 蒸汽压缩蒸发 气象学 废物管理 石油工程 低温热脱盐 太阳能淡化 碳化 太阳能 蒸发冷却器
作者
Yaoxin Zhang,Sai Kishore Ravi,Swee Ching Tan
出处
期刊:Advanced sustainable systems [Wiley]
卷期号:3 (8) 被引量:66
标识
DOI:10.1002/adsu.201900044
摘要

Abstract Solar steam generation as an emerging solar desalination technology has drawn tremendous research attention owing to its enticing prospects in tackling the rising water crisis across the globe. Despite the numerous reports on materials with high evaporation rates, little is known about how the system geometry and ambient conditions impact the evaporation rate. The ambient relative humidity (RH), which can potentially impact on the evaporation process in the system is one such element that is not well studied. In this work, microchanneled balsa wood is employed as the research model in the quantitative investigations of these effects from the system itself and ambience. Direct implications and the interaction of various factors like ambient RH, hydrophilicity and specific weight of the material, carbonization thickness, and the water salinity are outlined. The trade‐off between surface water content and the interfacial temperature is revealed, and interestingly, a local “low‐humidity” zone is observed over the system's evaporation surface, which can sustain the evaporation even at extremely high RH. By tuning the system/ambience interactions, a systematic approach toward realizing the full potential of steam generators with optimized evaporation rate (10–20% enhancement) is therefore deemed achievable.
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