Salt-solution-infused thin-film condenser prepared for anti-frost application
•
Energy consumption is expected to decrease >50%
•
Atmospheric water harvested simultaneously assisted by solar energy
Summary
Frost is undesirable in many applications. Previous methods of defrosting are either energy intensive or ineffective in the long term. Meanwhile, frost is a valuable freshwater source whose production is delayed due to the solid state and lengthy accumulation of frost. Here, a salt-solution-infused thin-film condenser (SSTFC) is proposed for anti-frost at low energy consumption and simultaneous freshwater production. The SSTFC is composed of a highly permeable lower layer for salt solution infusion and an ultrathin hydrophobic top layer for constraining the infused solution and incorporating condensed vapor into the underlying solution at various low temperatures. The gradually diluted salt solution can be passively transported for regeneration and freshwater production by solar energy. The regenerated salt solution can be pumped back to the SSTFC for continuous operation of the system. Energy consumption can be saved by >50% compared to conventional methods.
Graphical abstract
Keywords
condensation
anti-frost
atmospheric water harvesting
solar energy
low energy consumption
breakthrough pressure
Data and code availability
All data are available from the lead contact upon reasonable request.