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Surfactant-Modified Guava Seeds for Anionic Azo Dye Removal: Mechanistic Insights from Batch and Fixed-Bed Systems Toward Sustainable Textile Wastewater Treatment

Author

Listed:
  • Elizabeth Reyes-Valdes

    (Facultad de Ciencias de la Salud, Universidad Vasco de Quiroga, Av. Juan Pablo II 555, Col. Sta. María de Guido, Morelia CP 58090, Mexico)

  • Iris Coria-Zamudio

    (Instituto de Investigación en Metalurgia y Materiales, Universidad Michoacana de San Nicolás de Hidalgo, C.U., Morelia CP 58030, Mexico)

  • Karla Gabriela Domínguez-González

    (Instituto de Investigaciones en Ciencias de la Tierra, Universidad Michoacana de San Nicolás de Hidalgo, C.U., Morelia CP 58030, Mexico)

  • Ana Gabriela Rodríguez-Calderón

    (Departamento de Ingeniería Química y Bioquímica, Instituto Tecnológico de Morelia, Tecnológico Nacional de México, Av. Tecnológico 1500, Morelia CP 58120, Mexico)

  • Ruth Alfaro-Cuevas-Villanueva

    (Instituto de Investigaciones en Ciencias de la Tierra, Universidad Michoacana de San Nicolás de Hidalgo, C.U., Morelia CP 58030, Mexico)

  • Raúl Cortés-Martínez

    (Instituto de Investigaciones en Ciencias de la Tierra, Universidad Michoacana de San Nicolás de Hidalgo, C.U., Morelia CP 58030, Mexico)

Abstract

Valorization of agro-industrial waste into functional materials is fundamental to the circular economy, especially for addressing the persistent contamination by anionic azo dyes in textile wastewater. This study evaluates guava seeds modified with hexadecyltrimethylammonium bromide (GS-M) as low-cost biosorbents for the removal of Direct Blue 71 (DB71), comparing their performance with that of natural seeds (GS-N) in batch systems and fixed-bed columns. Characterization by infrared spectroscopy (FTIR) and electron microscopy (SEM-EDS) confirmed successful surfactant immobilization, thereby creating a cationic surface with strong electrostatic affinity for anionic dye molecules. Batch experiments showed that GS-M achieved 98% DB71 removal within 120 min, whereas GS-N reached only 58% after 300 min. For GS-M, both pseudo-first-order and pseudo-second-order models fit the kinetic data well, consistent with concurrent electrostatic and hydrophobic interactions; GS-N was best described by the Elovich model, indicating rate limitation by electrostatic repulsion. GS-M maintained removal efficiency above 84% across pH 3–9, whereas GS-N was effective under acidic conditions. Langmuir maximum adsorption capacity ( Q o ) values for GS-M were 6.02 mg/g at pH 4 and 7.87 mg/g at pH 8, a 1.5- to 2.2-fold increase over GS-N under matched conditions. Three adsorption–desorption cycles retained ~49% of the initial GS-M capacity, supporting a short-cycle reuse profile rather than indefinite multi-cycle operation. Fixed-bed column performance was highly sensitive to the hydraulic loading rate ( v c ), with breakthrough times increasing nearly eightfold as v c decreased. The Bed Depth Service Time (BDST), Thomas, and Yoon–Nelson models described the dynamic data consistently, yielding a maximum dynamic capacity of 165.6 mg/L under optimal conditions and providing a quantitative basis for scale-up. These results establish surfactant-modified guava seeds as a low-cost, pH-resilient biosorbent system aligned with circular-economy principles for the sustainable remediation of textile wastewater.

Suggested Citation

  • Elizabeth Reyes-Valdes & Iris Coria-Zamudio & Karla Gabriela Domínguez-González & Ana Gabriela Rodríguez-Calderón & Ruth Alfaro-Cuevas-Villanueva & Raúl Cortés-Martínez, 2026. "Surfactant-Modified Guava Seeds for Anionic Azo Dye Removal: Mechanistic Insights from Batch and Fixed-Bed Systems Toward Sustainable Textile Wastewater Treatment," Sustainability, MDPI, vol. 18(12), pages 1-41, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:5849-:d:1962274
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