DOI: 10.3390/polym18131605 ISSN: 2073-4360

Rapid Fabrication of Starch–Humic Acid Composite Hydrogel via an Internal Mixer for Dye Adsorption

Xiaoyu Chen, Ao Cheng

To develop a rapid, scalable, and eco-friendly hydrogel for wastewater decontamination, an industrial internal mixer was employed to fabricate a green hydrogel adsorbent based on starch and humic acid. Starch-grafted polyacrylamide hydrogels incorporated with humic acid were rapidly synthesized within 5 min using an internal mixer as the reactor. Starch was gelatinized in situ, followed by graft polymerization with acrylamide via free-radical polymerization and cross-linking with N,N′-methylenebisacrylamide in the same reactor. Humic acid was introduced as a natural modifier to boost the dye adsorption performance of the starch-based hydrogel. The adsorption capacity for methylene blue was evaluated under different humic acid dosages, and the maximum adsorption capacity occurred at a humic acid dosage of 20 g. Additional batch experiments revealed that the adsorption capacity increased with increasing the solution pH (from 22.6 to 54.0 mg g−1 over pH 4–12) and the initial dye concentration (from 14.6 to 34.1 mg g−1 over 40–200 mg L−1), while it decreased with increasing the adsorbent dosage (from 35.9 to 10.6 mg g−1 over 0.1–0.9 g). Distinguished from conventional laboratory stirred reactors that require 2–3 h for hydrogel synthesis, the internal mixer achieves a one-pot synthesis within 5 min, showing outstanding potential for industrial large-scale production. This work provides a time-efficient, industrially compatible strategy to prepare eco-friendly starch–humic acid hydrogels, which show promising potential as sustainable adsorbents for dye-contaminated wastewater treatment.

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