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Preparation of Adsorbent Materials from Rice Husk via Hydrothermal Carbonization: Optimization of Operating Conditions and Alkali Activation

Author

Listed:
  • Jhosué Naranjo

    (Department of Chemical Engineering, Universidad San Francisco de Quito USFQ, Diego de Robles s/n y Avenida Interoceánica, Quito 170901, Ecuador)

  • Evelyn Juiña

    (Department of Chemical Engineering, Universidad San Francisco de Quito USFQ, Diego de Robles s/n y Avenida Interoceánica, Quito 170901, Ecuador)

  • Carlos Loyo

    (School of Chemical Sciences and Engineering, Yachay Tech University, Hda. San José s/n y Proyecto Yachay, Urcuquí 100119, Ecuador)

  • Michelle Romero

    (Instituto de Investigación Geológico y Energético, Av. de la República E7-263, Quito 170518, Ecuador)

  • Karla Vizuete

    (Centro de Nanociencia y Nanotecnología, Universidad de las Fuerzas Armadas ESPE, Av. General Rumiñahui s/n y Ambato, Sangolquí 171103, Ecuador)

  • Alexis Debut

    (Centro de Nanociencia y Nanotecnología, Universidad de las Fuerzas Armadas ESPE, Av. General Rumiñahui s/n y Ambato, Sangolquí 171103, Ecuador)

  • Sebastian Ponce

    (Department of Chemical Engineering, Universidad San Francisco de Quito USFQ, Diego de Robles s/n y Avenida Interoceánica, Quito 170901, Ecuador)

  • Herman A. Murillo

    (Department of Chemical Engineering, Universidad San Francisco de Quito USFQ, Diego de Robles s/n y Avenida Interoceánica, Quito 170901, Ecuador)

Abstract

Hydrothermal carbonization (HTC) of rice husk was optimized in terms of the adsorption capacity at equilibrium (q e ) and hydrochar mass yield (MY). The studied variables were reaction temperature, residence time, and biomass-to-water ratio by means of response surface methodology. In both cases, reaction temperature resulted the most significant parameter promoting high q e values at higher temperatures when treating methylene blue (MB) as the target pollutant. Nevertheless, MY was low (~40%) when focusing on a possible industrial application. Hence, maximizing q e and MY simultaneously by optimization of multiple responses emerges as a promising solution to improve MY values (>60%) with no significant differences regarding the q e response. Furthermore, additional activation was conducted on optimal hydrochars to further investigate the enhancement of q e . As a result, no statistical differences between non-modified and activated hydrochars were observed for q e ; however, the pseudo-second-order constant (k 2 ) seemed to be increased after alkali activation, mainly due to a larger surface area. Non-modified and activated hydrochars were characterized via SEM, FTIR, XRD, and BET, resulting in two significant effects contributing to MB adsorption: increased surface area and functionalized hydrochar surface. Consequently, this work provides valuable insights on subsequent application of this HTC optimization scheme at an industrial scale.

Suggested Citation

  • Jhosué Naranjo & Evelyn Juiña & Carlos Loyo & Michelle Romero & Karla Vizuete & Alexis Debut & Sebastian Ponce & Herman A. Murillo, 2023. "Preparation of Adsorbent Materials from Rice Husk via Hydrothermal Carbonization: Optimization of Operating Conditions and Alkali Activation," Resources, MDPI, vol. 12(12), pages 1-14, December.
  • Handle: RePEc:gam:jresou:v:12:y:2023:i:12:p:145-:d:1298310
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