Adsorption of cadmium in vegetable sponge (Luffa cylindrica)

Lindino, Cléber Antônio; Marciniak, Aryane Azevedo; Gonçalves, Affonso Celso; Strey, Leonardo

doi:10.4136/ambi-agua.1340

Cited by 9 publications

(6 citation statements)

References 25 publications

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“…Several researchers have reported adsorption using LAC to be effective in heavy metals removal from industrial effluents; thus, the removal of Pb 2+ in water, removal of divalent metals, methylene blue dye, cyanide ions, cadmium ions, common laboratory dye and adsorption of brilliant green from aqueous solutions have been reported by Adewuyi and Pereira (2017), Oboh et al (2011), Demir et al (2008), Arana et al (2017), Lindino et al (2014), Calciedo et al (2018 and Segun et al (2014). Furthermore, Nwosu-obieogu et al (2021) reported iron (II) adsorption from textile wastewater using LAC.…”

Section: Introductionmentioning

confidence: 99%

Textile wastewater heavy metal removal using Luffa cylindrica activated carbon: an ANN and ANFIS predictive model evaluation

et al. 2022

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This study investigated the application of soft computing models [Artificial neural network (ANN) and Adaptive neuro-fuzzy inference system (ANFIS)] in removing heavy metals [chromium (VI), vanadium (V) and iron (II)] from textile wastewater using Luffacylindrica activated carbon (LAC). The effect of pH, contact time and adsorbent dosage on the adsorptive potential of the prepared LAC were determined using a batch mode experiment. Fourier Transform Infrared Spectroscopy and scanning electron micrograph assessed the potential of the adsorbent in this study. ANN and ANFIS were evaluated using the coefficient of determination (R2) and mean square error (MSE). The result showed that the models demonstrated significant predictive behavior with R2 (9.9999E−1), MSE (5.985E−14) for chromium(VI) removal, R2 (9.9999E−1), MSE (2.33856E−13) for iron(II) removal and R2 (9.9999E−1), MSE (7.22197E−12) for vanadium(V) removal for ANN, while ANFIS predicted R2 (0.76305), MSE (0.037105) for chromium(VI) removal, R2 (0.67652), MSE (0.846) for iron(II) removal, R2 (0.22673), MSE (0.65925) for vanadium(V) removal. Sensitivity analysis carried out with ANFIS (exhaustive search) indicated that the parameters (time, pH and adsorbent dosage) significantly impact the heavy metal removal. Thus, this study shows that ANN and ANFIS are reliable tools for modelling heavy metal removal using LAC. The parameter results obtained are relevant in process design and control.

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Section: Introductionmentioning

confidence: 99%

Textile wastewater heavy metal removal using Luffa cylindrica activated carbon: an ANN and ANFIS predictive model evaluation

et al. 2022

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“…Oboh (2018) reported on the physical properties of luffa cylindrica bisorbent, the specific surface area (BET (m 2 /g), total surface area (m 2 /g), pore diameter range and bulk density (g/cm 3 ) were determined as 0.28, 1.1895, 1051.309204 to 0.003577, and 0.34, respectively, it signified that the surface area is low, with pore diameter and bulk density values in concordance with those found in typical mesoporous materials. A few researchers have reported the use of luffa cylindrica as an adsorbent in removing heavy metal, the removal of Pb 2+ in water (Adewuyi & Pereira, 2017), removal of divalent metals (Oboh, Aluyor, & Audu, 2011), methylene blue dye (Demir, Top, Balko¨se, & lku, 2008), cyanide ions (Arana, González, Navarrete, & Caicedo, 2017), nickel ions (Oboh, 2018), cadmium ions (Lindino, Marciniak, Gonçalves, & Strey, 2014), common laboratory dyes (Caicedo et al, 2018), and adsorption of brilliant green (Segun Esan et al., 2014) from aqueous solutions. Hence, this study presents the use of luffa cylindrica as a potential, environmentally friendly, and low‐cost adsorbent for the remediation of Cr (VI) from textile wastewater.…”

Section: Introductionmentioning

confidence: 99%

Biosorption of chromium (VI) from textile waste water using luffa cylindrica activated carbon

Nwosu‐Obieogu

Okolo

2020

Environmental Quality Mgmt

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Luffa cylindrica was applied as a low-cost adsorbent for removing chromium (VI) from textile industry effluent in this study. The adsorbent was characterized using scanning electron micrograph (SEM). A batch mode experiment was conducted to study the effect of pH, contact time, and adsorbent dosage on the adsorptive potential of the prepared luffa cylindrica activated carbon. The characterization results from SEM indicate that the adsorbents' potential was fully exploited in this study. A significance test conducted using ANOVA indicated that contact time and adsorbent dosage had the most effect on the adsorptive removal of Cr (VI). The optimum removal efficiency was 99.90% at pH 8.0, 99.8% at 60 min of contact time, and 99.82% at an adsorbent dosage of 1.0 g. The experimental results were analyzed using the Langmuir and Freundlich adsorption isotherm models, and the Freundlich isotherm provided a better correlation for Cr (VI) adsorption. The kinetic data by the pseudo-first-order kinetic model gave a better fit than the pseudo-second-order kinetic model.

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“…Some examples of the application of biomass in the adsorption of heavy metals can be found in lead and copper adsorption of pine cone at pH 5.0 (Awad and Erkurt, 2014), in lead removal by pine bark (Montes-Atenas and Schroeder, 2015; Cutillas-Barreiro et al , 2014), or using kelps (Feng and Aldrich, 2004) and vegetable sponge (Lindino et al , 2014).…”

Section: Introductionmentioning

confidence: 99%

Lead adsorption and subsequent gasification with Pinus elliottii waste

Antonelli

Lindino

Bariccatti

et al. 2017

MEQ

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Purpose The purpose of this paper is to investigate the use of Pinus wood waste in lead adsorption as a remediation technique in aqueous medium and its subsequent use in obtaining synthesis gas. Design/methodology/approach The capacity of the timber in the lead adsorption was studied in aqueous medium at various pH, determining the amount adsorbed in equilibrium. Then, the same timber was added in a fixed bed, co-current flow of two stage gasifier type, working temperature of 900°C, for obtaining synthesis gas. The synthesis gas composition was evaluated by the spectrophotometry in the infrared region and the gas chromatography and lead content in the ash and gas was determined by the atomic absorption spectrophotometry. Findings In laboratory tests carried out, the optimal pH for lead removal was pH 4 with 96.15 percent removal rate, reaching equilibrium after 180 min. In pilot scale the lead removal after 72 hours was 96 percent. The average production of syngas was 11.09 m³h−1. For tests with the motor-generator, the best condition occurred with charge of 2.0 kW, wherein gas consumption per kW produced reached 4.86 m³ kW−1, resulting in a 14.81 percent efficiency rate. The gas analysis showed an average concentration of 14.85 percent H2, 30.1 percent CO2, and 50.49 percent of atmospheric air. The concentration of lead in the gas was below the limit established by law. Pinus elliottii waste proved to be an excellent adsorbent, with removing more than 96 percent of the Pb ion present in aqueous solution and a starting material in the gasifier to generate synthesis gas. Research limitations/implications This paper describes the waste wood application in the treatment of contaminated environments and for obtaining syngas providing a sustainable process. Originality/value This paper shows a process that combines the remediation of contaminated environmental with power generation systems, allowing efficient management of contaminated environments.

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Adsorption of cadmium in vegetable sponge (Luffa cylindrica)

Cited by 9 publications

References 25 publications

Textile wastewater heavy metal removal using Luffa cylindrica activated carbon: an ANN and ANFIS predictive model evaluation

Textile wastewater heavy metal removal using Luffa cylindrica activated carbon: an ANN and ANFIS predictive model evaluation

Biosorption of chromium (VI) from textile waste water using luffa cylindrica activated carbon

Lead adsorption and subsequent gasification with Pinus elliottii waste

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