Litcius/Paper detail

Active Thermal Field Integration for Marangoni‐Driven Salt Rejection and Water Collection

Can Ge, Shuai Guo, Wei Li, Xunlong Zhang, Bin Chen, Xiao Feng, Shichang Yang, Duo Xu, Zhen Yu, Sai Kishore Ravi, Weilin Xu, Jian Fang, Swee Ching Tan

2025Advanced Functional Materials65 citationsDOIOpen Access PDF

Abstract

Abstract Using solar energy to drive seawater desalination via solar steam generation (SSG) is a sustainable strategy for clean water supply. The weak efficiency and poor durability due to salt deposition severely restrict practical SSG operation. Traditional solar evaporators are difficult to simultaneously guarantee efficient evaporation and long‐term salt rejection due to increased salinity. Herein, to tackle this dilemma, a thermal gradient fabric (TGF) evaporator with an auxiliary active thermal field is constructed. Different from traditional works where additional energy resources with improved evaporation rate exacerbate salt accumulation, the auxiliary active thermal field is well integrated with external solar energy to boost ion circulation through moderate Marangoni flow, leading to a continuous salt rejection and superior energy utilization under high‐salinity desalination. The accelerated evaporation rate (2.42 kg m −2 h −1 ) and superior salt resistance (30 days of desalination in 10 wt.% brine) are simultaneously achieved through optimized thermal field construction. An outstanding water collection rate (5.84 kg m −2 ) is observed during high‐salinity outdoor desalination, which proves the practical purification ability. This study provides new insight into the construction of active thermal fields for efficient and sustainable clean water production, is believed.

Topics & Concepts

Materials scienceMarangoni effectSalt waterSalt (chemistry)Field (mathematics)ThermalEngineering physicsNanotechnologyMechanicsThermodynamicsConvectionEnvironmental engineeringEnvironmental sciencePhysicsChemistryPhysical chemistryPure mathematicsMathematicsSolar-Powered Water Purification MethodsMembrane Separation Technologies