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Abstract
Membrane-based technologies are widely used in oily wastewater treatment. This study selects two superhydrophilic ultrafiltration (UF) membranes (denoted M1 and M2) for oil-in-water emulsion separation and evaluates the environmental impact of membrane fabrication using life cycle assessment (LCA). Although the two membranes have similar separation performance, M1 exhibits ~40% lower environmental impacts than M2 in almost every category owing to its fewer modification steps, lower electricity use, and less solvent consumption. Electricity consumption, reactive-copolymer synthesis, and toxic-solvent use are identified as environmental hotspots in membrane fabrication. A sensitivity analysis of different energy sources reveals that coal-based electricity has the greatest environmental impact, while photovoltaic energy reduces the impact by up to 71%. Considering solvents, dimethylformamide (DMF) shows a slightly lower environmental impact than N-methyl-2-pyrrolidone (NMP).
Supplementary materials
Title
Supplementary Information
Description
The relevant synthetic procedures, life cycle inventories, and the equations for calculating the permeate flux (Jw), flux reduction (FR), and flux recovery ratio (FRR) are provided in the Supplementary Information.
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