| Title | Recent Advances in High-Rate Solar-Driven Interfacial Evaporation |
|---|---|
| ID_Doc | 14920 |
| Authors | Kim, HT; Philip, L; McDonagh, A; Johir, M; Ren, JW; Shon, HK; Tijing, LD |
| Title | Recent Advances in High-Rate Solar-Driven Interfacial Evaporation |
| Year | 2024 |
| Published | Advanced Science, 11, 26 |
| Abstract | Recent advances in solar-driven interfacial evaporation (SDIE) have led to high evaporation rates that open promising avenues for practical utilization in freshwater production and industrial application for pollutant and nutrient concentration, and resource recovery. Breakthroughs in overcoming the theoretical limitation of 2D interfacial evaporation have allowed for developing systems with high evaporation rates. This study presents a comprehensive review of various evaporator designs that have achieved pure evaporation rates beyond 4 kg m-2 h-1, including structural and material designs allowing for rapid evaporation, passive 3D designs, and systems coupled with alternative energy sources of wind and joule heating. The operational mechanisms for each design are outlined together with discussion on the current benefits and areas for improvement. The overarching challenges encountered by SDIE concerning the feasibility of direct integration into contemporary practical settings are assessed, and issues relating to sustaining elevated evaporation rates under diverse environmental conditions are addressed. Recent advances in solar-driven interfacial evaporation show promising potential for desalination and water purification. Breakthroughs have surpassed 2D limitations, achieving very high evaporation rates. This review explores innovative evaporator designs, including rapid evaporation materials, passive 3D systems, and integration with alternative energy. Operational mechanisms, benefits, and challenges for practical implementation are discussed, fueling curiosity for potential solutions. image |
| https://onlinelibrary.wiley.com/doi/pdfdirect/10.1002/advs.202401322 |
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