Water Activation in Solar-Powered Vapor Generation

Solar-powered vapor evaporation (SVG), based on the liquid-gas phase conversion concept using solar energy, has been given close attention as a promising technology to address the global water shortage. At molecular level, water molecules escaping from liquid water should overcome the attraction of the molecules on the liquid surface layer to evaporate. For this reason, it is better to reduce the energy required for evaporation by breaking a smaller number of hydrogen bonds or forming weak hydrogen bonds to ensure efficient and convenient vapor production. Many novel evaporator materials and effective water activation strategies have been proposed to stimulate rapid steam production and surpass the theoretical thermal limit. However, an in-depth understanding of the phase/enthalpy change process of water evaporation is unclear. In this review, a summary of theoretical analyses of vaporization enthalpy, general calculations, and characterization methods is provided. Various water activation mechanisms are also outlined to reduce evaporation enthalpy in evaporators. Moreover, unsolved issues associated with water activation are critically discussed to provide a direction for future research. Meanwhile, significant pioneering developments made in SVG are highlighted, hoping to provide a relatively entire chain for more scholars who are just stepping into this field. This review provides a comprehensive understanding on theoretical analyses about vaporization enthalpy, general calculation, and characterization means related to solar-powered water evaporation and the mechanisms of water activation to reduce the enthalpy are outlined. Furthermore, the typical representative and milestone works in solar-powered vapor generation are summarized, aiming to provide a relatively complete development chain and introduce a faster insight into this direction.image

Automated summary

This review provides a comprehensive understanding of theoretical analyses, general calculations, and characterization methods related to solar-powered water evaporation and outlines water activation mechanisms to reduce enthalpy. Furthermore, it summarizes the typical representative works and milestones in solar-powered vapor generation, aiming to provide a relatively complete development chain and introduce a faster insight into this direction.