Abstract
Water-stable and eco-friendly membranes were fabricated from carboxymethyl cellulose (CMC) acting as anionic adsorbent and cellulose nanofibrils (CNFs) as strengthening filler by solvent- and unidirectional freeze-casting processes, both supported with simultaneous citric acid (CA) mediated cross-linking. Spectroscopic, thermogravimetric and potentiometric titration techniques were applied to evaluate the efficacy of the cross-linking as well as to quantify the processing-dependant surface charge. In addition, the CMC/CNF assembling and membrane porosity were identified microscopically as the combinatorial effect of components ratio and the applied fabrication technique. Finally, the membrane’s cationic dyes adsorption capacity and kinetic were evaluated depending on the dyes ionization constants, solution pH, and the contact time using batch equilibrium experiment, and further evaluated for filtration performance at optimal pH. The resulting, freeze-casted membranes demonstrate anisotropic to isotropic and highly (> 90%) porous structures with gradient pore sizes (from few nm up to 200 µm range). This provides relatively high and stable flux rates (150–190 kL/m2 h MPa) with ~ 100% cationic dye adsorption, fast dynamic (8.536–5.446 kg/g min) and capacity (1828–1398 g/kg), which highlight their potential in dead-end filtration technologies without need for additional separation step. The similar dye adsorption capacity was assessed for denser and nano-porous (< 50 nm) solvent-casted membranes, however, with much lower and time-declining flux rates (100–10 L/m2 h MPa), demonstrating their potential usage in spiral wound-cross-flow modules. Both types of membranes anyhow showed high dye removal capacity (≥ 90%) even after 4th (solvent-casted) and 50th (freeze-casted) reusing cycle, present a high-value alternative to commercial activated carbons or other bio-nano-absorbents.
Highlights
The highly coloured wastewaters discharged from industrial and agricultural industries cause serious threats to the environment, because of their potential toxicities, carcinogenicity and non-biodegradability and due to their visibility problems, have been the targets of great attention over recent years [1]
The thinner membranes prepared from 13.6 mL of 7CNF/1CMC and 4CNF/4CMC dispersions were used for this study
The 4CNF/4CMC-based membrane differ to highest extent among samples by means of frequency and intensity of measured signal, which was hardly visible by Scanning Electron Microscopy (SEM) (Fig. 4)
Summary
The highly coloured wastewaters discharged from industrial and agricultural industries cause serious threats to the environment, because of their potential toxicities, carcinogenicity and non-biodegradability and due to their visibility problems, have been the targets of great attention over recent years [1]. The aim of the presented study was (1) to fabricate water-stable membranes from CMC acting as ionic adsorbent and CNFs as the stabilizing and structural filler by using non-toxic CA as a cross-linker, and (2) to evaluate the membranes cationic dyes adsorption capacity and kinetic, as well as filtration performance (dye removal and flux rate) in relation with their fabrication routes (solvent- vs freeze-casting process).
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