海水淡化
渗透汽化
膜
溶剂化
材料科学
色散(光学)
分子动力学
分子
扩散
化学物理
海水淡化
化学工程
化学
热力学
计算化学
渗透
物理
有机化学
工程类
光学
生物化学
作者
Shen-Hui Li,Heng Mao,Ying‐Nan Feng,Li‐Hao Xu,Hui Qi,Zhi‐Ping Zhao
标识
DOI:10.1038/s41467-025-62664-3
摘要
Pervaporation (PV) desalination, a promising technology to produce clean water, lacks some fundamental understanding of the molecular transport mechanism. We perform molecular dynamic simulations to unravel the molecular transport mechanism in polyvinyl alcohol PV desalination membranes. It is revealed that the dispersion forms of confined water molecules transform from nano-sized clusters to single molecules as the concentration gradient decreases within the membrane. The diffusion modes of confined water molecules with various dispersion forms are distinguished. The solvation free energy analysis explains the compensation mechanism of ions in membranes. Based on the simulation results, an analytical expression is derived to describe the relationship between the transport diffusion coefficient and solubility of confined water molecules. Using this analytical expression, a solution-diffusion model is established to calculate the permeability of PV desalination, and is validated with experimental results. These findings pave an avenue for building a theoretical framework of PV desalination. To deeply explore the molecular transport mechanisms of pervaporation desalination, Li et al. conducted molecular simulations to reveal the dispersion form and diffusion mode of confined water in polyvinyl alcohol membranes and derived a validated mass transfer model from molecular insights.
科研通智能强力驱动
Strongly Powered by AbleSci AI