Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology

Carmencita Lavado-Meza; Miguel Fernandez-Pezua; Leonel De la Cruz-Cerrón; Julio Angeles-Suazo; Leticia Leiva-Arauco; Carmen Lavado-Puente; Gregorio Cisneros-Santos; Nataly Angeles-Suazo; Juan Z. Dávalos-Prado

doi:10.12911/22998993/203698

Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology

Carmencita Lavado-Meza, Miguel Fernandez-Pezua, Leonel De la Cruz-Cerrón, Julio Angeles-Suazo, Leticia Leiva-Arauco, Carmen Lavado-Puente, Gregorio Cisneros-Santos, Nataly Angeles-Suazo, Juan Z. Dávalos-Prado

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Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

Resumen

Face centered cube central composite design (FCCCCD) methodology was applied to optimize the Cr(VI) adsorption capacity of Arabica-coffee pulp biomass (WAC), q_e, as a function of key-factors, such as pH, chromium concentration C₀ and WAC-dose. The quadratic dependence of q_e, with the considered factors, has shown a strong influence of pH. The optimal conditions found in this way were pH 2; C₀ = 75 mg/L and WAC-dose= 0.5 g/L. The characterization of WAC, performed by FTIR and SEM/EDX, allowed the identification of OH, CH, CO, COH functional groups and also showed significant changes, particularly on WAC surface morphology, after biosorption. The experimental isotherm data (q_e vs C_e) was well-fitted to three models: Langmuir, Freundlich and Temkin. Furthermore, thermodynamic and kinetic results showed that Cr(VI) biosorption using WAC is an endothermic and spontaneous reaction, following pseudo-2^nd order kinetics. Finally, this work shows the feasibility of effectively using coffee biomass-waste, a low-cost material, for chromium removal in contaminated aqueous media.

Idioma original	Inglés estadounidense
Páginas (desde-hasta)	381-393
-	13
Publicación	Journal of Ecological Engineering
Volumen	26
N.º	7
DOI	https://doi.org/10.12911/22998993/203698
Estado	Indizado - 2025

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© (2025), (Polish Society of Ecological Engineering (PTIE)). All Rights Reserved.

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Lavado-Meza, C., Fernandez-Pezua, M., De la Cruz-Cerrón, L., Angeles-Suazo, J., Leiva-Arauco, L., Lavado-Puente, C., Cisneros-Santos, G., Angeles-Suazo, N., & Dávalos-Prado, J. Z. (2025). Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology. Journal of Ecological Engineering, 26(7), 381-393. https://doi.org/10.12911/22998993/203698

@article{8734a99807c64589aa83ba1941e94f10,

title = "Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology",

abstract = "Face centered cube central composite design (FCCCCD) methodology was applied to optimize the Cr(VI) adsorption capacity of Arabica-coffee pulp biomass (WAC), qe, as a function of key-factors, such as pH, chromium concentration C0 and WAC-dose. The quadratic dependence of qe, with the considered factors, has shown a strong influence of pH. The optimal conditions found in this way were pH 2; C0 = 75 mg/L and WAC-dose= 0.5 g/L. The characterization of WAC, performed by FTIR and SEM/EDX, allowed the identification of OH, CH, CO, COH functional groups and also showed significant changes, particularly on WAC surface morphology, after biosorption. The experimental isotherm data (qe vs Ce) was well-fitted to three models: Langmuir, Freundlich and Temkin. Furthermore, thermodynamic and kinetic results showed that Cr(VI) biosorption using WAC is an endothermic and spontaneous reaction, following pseudo-2nd order kinetics. Finally, this work shows the feasibility of effectively using coffee biomass-waste, a low-cost material, for chromium removal in contaminated aqueous media.",

keywords = "agricultural waste, arabica-coffee, isotherm, kinetic, optimization Cr(VI) biosorption",

author = "Carmencita Lavado-Meza and Miguel Fernandez-Pezua and \{De la Cruz-Cerr{\'o}n\}, Leonel and Julio Angeles-Suazo and Leticia Leiva-Arauco and Carmen Lavado-Puente and Gregorio Cisneros-Santos and Nataly Angeles-Suazo and D{\'a}valos-Prado, \{Juan Z.\}",

year = "2025",

doi = "10.12911/22998993/203698",

language = "American English",

volume = "26",

pages = "381--393",

journal = "Journal of Ecological Engineering",

issn = "2081-139X",

publisher = "Polskie Towarzystwo Inzynierii Ekologicznej (PTIE)",

number = "7",

}

Lavado-Meza, C, Fernandez-Pezua, M, De la Cruz-Cerrón, L, Angeles-Suazo, J, Leiva-Arauco, L, Lavado-Puente, C, Cisneros-Santos, G, Angeles-Suazo, N & Dávalos-Prado, JZ 2025, 'Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology', Journal of Ecological Engineering, vol. 26, n.º 7, pp. 381-393. https://doi.org/10.12911/22998993/203698

TY - JOUR

T1 - Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology

AU - Lavado-Meza, Carmencita

AU - Fernandez-Pezua, Miguel

AU - De la Cruz-Cerrón, Leonel

AU - Angeles-Suazo, Julio

AU - Leiva-Arauco, Leticia

AU - Lavado-Puente, Carmen

AU - Cisneros-Santos, Gregorio

AU - Angeles-Suazo, Nataly

AU - Dávalos-Prado, Juan Z.

PY - 2025

Y1 - 2025

N2 - Face centered cube central composite design (FCCCCD) methodology was applied to optimize the Cr(VI) adsorption capacity of Arabica-coffee pulp biomass (WAC), qe, as a function of key-factors, such as pH, chromium concentration C0 and WAC-dose. The quadratic dependence of qe, with the considered factors, has shown a strong influence of pH. The optimal conditions found in this way were pH 2; C0 = 75 mg/L and WAC-dose= 0.5 g/L. The characterization of WAC, performed by FTIR and SEM/EDX, allowed the identification of OH, CH, CO, COH functional groups and also showed significant changes, particularly on WAC surface morphology, after biosorption. The experimental isotherm data (qe vs Ce) was well-fitted to three models: Langmuir, Freundlich and Temkin. Furthermore, thermodynamic and kinetic results showed that Cr(VI) biosorption using WAC is an endothermic and spontaneous reaction, following pseudo-2nd order kinetics. Finally, this work shows the feasibility of effectively using coffee biomass-waste, a low-cost material, for chromium removal in contaminated aqueous media.

AB - Face centered cube central composite design (FCCCCD) methodology was applied to optimize the Cr(VI) adsorption capacity of Arabica-coffee pulp biomass (WAC), qe, as a function of key-factors, such as pH, chromium concentration C0 and WAC-dose. The quadratic dependence of qe, with the considered factors, has shown a strong influence of pH. The optimal conditions found in this way were pH 2; C0 = 75 mg/L and WAC-dose= 0.5 g/L. The characterization of WAC, performed by FTIR and SEM/EDX, allowed the identification of OH, CH, CO, COH functional groups and also showed significant changes, particularly on WAC surface morphology, after biosorption. The experimental isotherm data (qe vs Ce) was well-fitted to three models: Langmuir, Freundlich and Temkin. Furthermore, thermodynamic and kinetic results showed that Cr(VI) biosorption using WAC is an endothermic and spontaneous reaction, following pseudo-2nd order kinetics. Finally, this work shows the feasibility of effectively using coffee biomass-waste, a low-cost material, for chromium removal in contaminated aqueous media.

KW - agricultural waste

KW - arabica-coffee

KW - isotherm

KW - kinetic

KW - optimization Cr(VI) biosorption

UR - https://www.scopus.com/pages/publications/105005167602

U2 - 10.12911/22998993/203698

DO - 10.12911/22998993/203698

M3 - Original Article

AN - SCOPUS:105005167602

SN - 2081-139X

VL - 26

SP - 381

EP - 393

JO - Journal of Ecological Engineering

JF - Journal of Ecological Engineering

IS - 7

ER -

Optimization of hexavalent chromium biosorption onto Arabica-coffee waste using response surface methodology

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