Abstract
Abstract In this study, cyanoethyl cellulose (CEC) was used as a membrane material, and polyvinylpyrrolidone (PVP) was used as pore-forming agent to prepare the substrates for the thin-film composite (TFC) forward osmosis (FO) membrane for the first time. The experimental results demonstrate that the properties of the substrates were significantly improved after PVP was added. The scanning electron microscope (SEM) images show that a two-sublayer structure, a fringe-like top sublayer and macrovoids with sponge-like wall bottom sublayer, were formed after the addition of PVP. These improvements contributed to improved membrane performance during FO tests. Meanwhile, after adding PVP, the TFC membranes exhibited good water flux, and excellent specific reverse salt flux. For instance, the TFC-M2 exhibited 9.10/20.67 LMH water flux, 1.35/2.24 gMH reverse salt flux, and 0.15/0.11 g/L specific reverse salt flux in FO/pressure-retarded osmosis mode while using 1 M NaCl as the draw solution and deionized (DI) water as the feed solution.
Highlights
Because of the shortage of freshwater resources, seawater desalination and wastewater treatment have become important issues (Elimelech & Phillip 2011)
The results demonstrated that sulfonated poly(phenylene oxide) (SPPO) alleviated the internal concentration polarization (ICP) during the forward osmosis (FO) process and improved the membrane performance
The result indicates that polyvinyl pyrrolidone (PVP) improved the wettability of the cyanoethyl cellulose (CEC) substrates because of improved porous top surfaces which is discussed in the following morphology study part
Summary
Because of the shortage of freshwater resources, seawater desalination and wastewater treatment have become important issues (Elimelech & Phillip 2011). PVP can significantly improve the pore morphology and hydrophilicity of membrane substrates. Wu et al (2016) used PEG as a pore-forming agent to optimize the hydrophilicity, porosity, and pore size of the TFC FO membrane substrates.
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