Solar-Powered Sustainable Water Production: State-of-the-Art Technologies for SunlightEnergy-Water Nexus

Alternative water resources (seawater, brackish water, atmospheric water, sewage, etc.) can be converted into clean freshwater via high-efficiency, energy-saving, and cost-effective methods to cope with the global water crisis. Herein, we provide a comprehensive and systematic overview of various solar-powered technologies for alternative water utilization (i.e., sunlight-energy-water nexus), including solar-thermal interface desalination (STID), solar-thermal membrane desalination (STMD), solar-driven electrochemical desalination (SED), and solar-thermal atmospheric water harvesting (ST-AWH). Three strategies have been proposed for improving the evaporation rate of STID systems above the theoretical limit and designing all-weather or all-day operating STID systems by analyzing the energy transfer of the evaporation and condensation processes caused by solar-thermal conversion. This review also introduces the fundamental principles and current research hotspots of two other solar-driven seawater or brackish water desalination technologies (STMD and SED) in detail. In addition, we also cover ST-AWH and other solar-powered technologies in terms of technology design, materials evolution, device assembly, etc. Finally, we summarize the content of this comprehensive review and discuss the challenges and future outlook of different types of solar-powered alternative water utilization technologies.

Automated summary

This article provides a comprehensive overview of solar-powered technologies for alternative water utilization, including STID, STMD, SED, and ST-AWH. It discusses strategies for improving the evaporation rate of STID systems, as well as the fundamental principles and research hotspots of STMD and SED technologies. Additionally, it covers technology design, materials evolution, and device assembly of ST-AWH and other solar-powered technologies.