Powdered biosorbent from pecan pericarp (Carya illinoensis) as an efficient material to uptake methyl violet 2B from effluents in batch and column operations

Salomón, Yamil L. de O.; Georgin, Jordana; Franco, Dison S.P.; Netto, Matias Schadeck; Grassi, Patrícia; Allasia, Daniel; Oliveira, Marcos L.S.; Dotto, Guilherme Luiz

doi:10.1016/j.apt.2020.05.004

Cited by 46 publications

(17 citation statements)

References 40 publications

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“…Consequently, the saturation time of the column increased. These results are consistent with those presented by other researchers who studied the packed-bed column biosorption of methyl violet 2B onto Carya illinoensis pericarp 56 , congo red onto Bengal gram seed husk 57 , remazol reactive dyes onto R. arrhizus NCIM 997 46 , yellow dye tartrazine onto M. oleifera 45 , and direct blue 71 onto cross-linked chitosan-glutaraldehyde beads 29 .…”

Section: Resultssupporting

confidence: 92%

Continuous biosorption of acid red 27 azo dye by Eichhornia crassipes leaves in a packed-bed column

Ramírez-Rodríguez

Morales-Barrera

Cristiani‐Urbina

2021

Sci Rep

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In this work, the biosorption behavior of acid red 27 (AR27) dye using Eichhornia crassipes leaves (LECs) in a packed-bed column was investigated by varying relevant operational parameters and assessment of mathematical models. Results showed that the zero-charge point of LECs was 2.37 and that optima pH and volumetric flux of the influent solution for AR27 biosorption were 2.0 and $$56.5\ \hbox {L}/\hbox {m}^{2}\cdot \hbox {h}$$ 56.5 L / m 2 · h , respectively. The maximum specific and volumetric biosorption capacities were observed at influent AR27 concentrations and with LEC bed heights ranging between 50 and 400 mg/L and 2 and 8 cm, respectively. It was also found that if LEC bed height was increased and volumetric flux and AR27 concentration of the influent solution decreased, service and saturation time increased. Modeling results revealed that the Thomas, bed depth service time, Yoon–Nelson, dose-response, and logistic models accurately described the dynamic performance of the packed-bed column in terms of pH, AR27 concentration, and volumetric flux of influent AR27 solution, as well as that of LEC bed height. The findings revealed that LECs exhibited remarkable potential for the biosorption of AR27 from aqueous solutions in a packed-bed column and could potentially be useful for the treatment of AR27-laden wastewater.

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Section: Resultssupporting

confidence: 92%

Continuous biosorption of acid red 27 azo dye by Eichhornia crassipes leaves in a packed-bed column

Ramírez-Rodríguez

Morales-Barrera

Cristiani‐Urbina

2021

Sci Rep

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“…The FTIR spectra of ANW before and after adsorption of CR are shown in Figure 1. The bond at 3,322 cm −1 corresponds to hydroxyl −O–H stretching vibration fond on cellulose hemicelluloses and lignin (El Messaoudi et al , 2021c; Salomón et al , 2020; Shakoor and Nasar, 2019). The small strength band at approximately 2,924 cm −1 is attributed to −C − H stretching (El Messaoudi et al , 2017b; Siengchum et al , 2013) and the bands at 1,718 cm −1 and 1,626 cm −1 represent stretching vibrations of –C = O of esters and acids (Jawad and Abdulhameed, 2020; Surip et al , 2020) and aromatic –C = C (El Messaoudi et al , 2016a), respectively.…”

Section: Resultsmentioning

confidence: 99%

Removal of Congo red from aqueous solution in single and binary mixture systems using Argan nutshell wood

Khomri

Messaoudi

Dbik

et al. 2021

PRT

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Purpose Argan nutshell wood (ANW) has been used in this study as an agricultural solid waste to remove Congo red (CR) from an aqueous solution in single and mixture binary in the presence of methylene blue (MB) or crystal violet (CV). Design/methodology/approach The ANW was characterized by Fourier transform infrared and scanning electron microscope analysis. The effect of ANW dose (8–40 gL−1), contact time (0–180 min), pH of the solution (4–11) and CR dye concentration (100–500 mgL−1) on CR adsorption was studied in batch mode and evaluated by kinetic and isotherm models in a single system. In the binary system, the CR removal was studied from a CR + MB and CR + CV mixture with different percentages of dyes, ranging from 0% to 100%. Findings The pseudo-second-order and the Langmuir models could best describe the CR sorption onto ANW in a single system. In addition, in the case of the binary system, there is the appearance of a synergistic phenomenon between the CR and the other cationic dyes and the CR adsorption capacity increased until 12.24 mg g-1 and 12.06 mg g-1 in the presence of the MB and CV in the mixture, respectively. Practical implications This study demonstrated that ANW prepared can be suggested as an excellent potential adsorbent to remove dyes from wastewaters from single and mixture systems. Originality/value This study is original.

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“…The spectra of UDS and TDS are shown in Figure 2. The bond at 3435 cm −1 corresponds to hydroxyl —OH stretching vibration found on cellulose hemicelluloses and lignin (Salomón et al , 2020; Shakoor and Nasar, 2019). The peak observed on spectrum UDS at 1747 cm −1 is attributed to stretching vibration of —C—O owing to carboxyl group COOH and may be assigned to carboxylic acids of xylan in hemicelluloses (El Messaoudi et al , 2016a; Guo et al , 2016).…”

Section: Resultsmentioning

confidence: 99%

“…The spectra of UDS and TDS are shown in Figure2. The bond at 3435 cm À1 corresponds to hydroxyl -OH stretching vibration found on cellulose hemicelluloses and lignin(Salom on et al, 2020;Shakoor and Nasar, 2019). The peak observed on spectrum UDS at 1747 cm À1 is attributed to stretching vibration of -C -O…”

mentioning

confidence: 95%

Desorption of crystal violet from alkali-treated agricultural material waste: an experimental study, kinetic, equilibrium and thermodynamic modeling

Messaoudi

Khomri

Chegini

et al. 2021

PRT

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Purpose This paper aims to focus on studying the batch desorption of adsorbed crystal violet (CV) from date stones (Phoenix dactylifera), untreated (UDS) and treated using NaOH (TDS). Design/methodology/approach The process variables such as different desorbing agents, volume and concentration of the desorbing agent, contact time, dye concentration before adsorption and temperature affecting CV desorption from CV-loaded untreated date stones (CV@UDS) and treated adsorbent (CV@TDS) were optimized. The UDS and TDS were regenerated using 0.6 m HCl as eluent. Findings The HCl solution was an excellent eluent for the CV desorption from CV@UDS (96.45%) and CV@TDS (98.11%). The second-order model and the Langmuir model well exemplified experimental data with maximum desorption capacities were 63.29 mg g−1 for the CV@UDS and 243.90 mg g−1 for the CV@TDS. The calculated thermodynamic showed that the CV desorption was spontaneous, endothermic and physical. Good regeneration and reusability of UDS and TDS for the CV removal for four consecutive adsorption–desorption cycles. Practical implications This study provided a good example of reusing UDS and TDS with NaOH for fast removal of a toxic organic pollutant, CV from the wastewaters. Originality/value The use of UDS and TDS with NaOH for the first time for desorption study and their reusability to removing CV from their aqueous solutions.

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Powdered biosorbent from pecan pericarp (Carya illinoensis) as an efficient material to uptake methyl violet 2B from effluents in batch and column operations

Cited by 46 publications

References 40 publications

Continuous biosorption of acid red 27 azo dye by Eichhornia crassipes leaves in a packed-bed column

Continuous biosorption of acid red 27 azo dye by Eichhornia crassipes leaves in a packed-bed column

Removal of Congo red from aqueous solution in single and binary mixture systems using Argan nutshell wood

Desorption of crystal violet from alkali-treated agricultural material waste: an experimental study, kinetic, equilibrium and thermodynamic modeling

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