Modelling atrazine sorption in carbon-rich substrates: a case study

Dick, Deborah P.; Lara, Larissa Z.; Costa, Janaina B. da; Fontaniva, Cristiano; Lüdtke, Ana Cristina; Knicker, Heike

doi:10.51694/AdvWeedSci/2022;40:00025

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RESEARCH ARTICLE • Adv Weed Sci 40 • 2022 • https://doi.org/10.51694/AdvWeedSci/2022;40:00025 copy

Modelling atrazine sorption in carbon-rich substrates: a case study

Authorship SCIMAGO INSTITUTIONS RANKINGS

Abstract

Background

The use of carbonaceous materials for environmental remediation is attractive due to low expense and high sorption capacity. However, their efficiency in contaminant removal is affected by substrate composition and sorption mechanism.

Objective

This study investigated atrazine sorption and desorption in three carbon-rich substrates. Data were evaluated considering isotherm models and sorbent chemical composition.

Methods

Sorption was performed by the batch equilibrium method with three substrates obtained from pig slurry composting with different proportions (w/w) of charcoal fines (CF): CF0, CF9 (9% CF), and CF18 (18% CF). The substrates were characterized by elemental analysis, ¹³C NMR CP/MAS spectroscopy. The Freundlich and Dubinin-Radushkevich (DRK) models better fitted the sorption data (0.96>R²>0.81), followed by Temkin (0.95>R²>0.76). Charcoal addition to composting substrates increased carbon content and the aromaticity in the order CF0<CF9< CF18. However, the sorption affinity decreased in the opposite order as indicated by the Kf values: 675, 335 and 290 L kg^-1, respectively. Values of the E parameter (DRK) varied from 8.05 to 8.29 kJ mol^-1, suggesting a predominant physical sorption mechanism, whereas the Bt coefficient (Temkin) indicated an endothermic process. Desorption was only observed at higher atrazine concentrations (>10 mg L^-1), and the desorption Kf values were greater than the respective sorption values.

Conclusions

Atrazine sorption in the tested C-rich substrates is not governed by the carbon content or aromaticity. The low sorption reversibility implies a low atrazine mobility from the tested substrates and suggests their potential for herbicide removal in the environment.

Composted pig slurry; Charcoal fines; Chemical composition; Isotherm models; ¹³C NMR CP/MAS

	pH_H2O	C_T / (g kg^-1)	N / (g kg^-1)	C/N	SA / (m² g^-1)	CEC / (mmolc kg^-1)
CF	9.9	505.0	14.0	36.0	3.90	133.0
CF0	7.4	316.1	14.9	21.2	2.75	459.0
CF9	7.7	380.0	17.1	22.2	2.64	369.0
CF18	8.0	378.1	21.7	17.4	2.65	366.0

Chemical shift / ppm/ proportion	Alkyl-C	N/O-Alkyl C + O-alkyl C	Aryl C	Carboxyl/carbonyl C
Chemical shift / ppm/ proportion	/ 0-45 (%)	/ 45-110 (%)	/ 110-160 (%)	/ 160-220 (%)
CF	14.6	6.1	68.0	6.4
CF0	15.2	76.6	7.7	0.5
CF9	19.0	42.7	31.0	7.3
CF18	14.8	50.6	32.1	2.5

Isotherm model	CF0	CF9	CF18
Freundlich
K_F / (L kg^-1)	674.76	334.91	290.25
1/n	0.97	1.04	0.95
R²	0.81	0.89	0.96
ΔG⁰ (kJ mol^-1)	-16.14	-14.40	-14.05
Temkin
A_t / (L g^-1)	1.13	0.71	0.63
B_t x 10^-6/ (J mol^-1)	12.34	11.22	9.23
R²	0.95	0.76	0.82
Dubinin-Radushkevich
Q_s / (mol g^-1)	2.87 x10^-3	1.94 x 10^-3	6.90 x 10^-4
K_ad / (mol² J^-2)	7.43x10^-9	7.72 x10^-9	7.82x10^-9
E / (kJ mol^-1)	8.20	8.05	8.29
R²	0.84	0.87	0.95

	K_d / (L kg^-1)	K_oc / (L kg^-1)	K_d/SA (L m^-2)
CF0	1210	3828	0.44
CF9	368	969	0.14
CF18	235	622	0.09

	K_F(d) / (L kg^-1)	1/n_d	R²
CF9	3.7 x 10⁴	1,18	0,98
CF18	4.6 x 10³	0,82	0,65

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[1] * Corresponding author: <deborah.dick@ufrgs.br>