Okra Leaves—Agricultural Waste for the Removal of Cr(III) and Cr(VI) from Contaminated Water

Khaskheli, Mazhar Iqbal; Memon, Saima Q.; Chandio, Zaheer Ahmed; Jatoi, Wahid Bux; Mahar, Mohammad Tariq; Khokhar, Faiz Muhammad

doi:10.4236/ajac.2016.74037

Cited by 10 publications

(4 citation statements)

References 57 publications

(58 reference statements)

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“…Table 4 shows that Gibbs free energy (∆G) values of all metals are negative, means sorption reaction of metal ions on okra leaves sorbent was spontaneous (i.e sorption forces are quite strong to overcome the potential barrier ). Increase of negative value with the increase of temperature favour the sorption process (Khaskheli et al, 2016). In other words it can be said that the degree of spontaneity increases with increasing the temperature (Thajeel, 2013).…”

Section: Thermodynamic Studymentioning

confidence: 99%

“…The affect of concentration on the amount of metal sorbed onto the surface was calculated and the data were evaluated using Langmuir, Freundlich (Khaskheli et al, 2016), D-R, Flory-Huggins and Halsey isotherm equations (Basar, 2006;Vijayaraghavan et al, 2006). All equations were analyzed in following linearized form: ), qmax is the maximum amount of ions sorbed, KL is the Langmuir constant related to the binding energy of solute, KF and 1/n are Freundlich constants representing sorption capacity and sorption intensity, respectively; є is polanyi potential and equal to RTln(1+1/Ce), T is temperature and R is general gas constant; β is related to the mean free energy of sorption per mole of the sorbent when it is transferred from infinite distance in the solution to the surface of the solid by equation:…”

Section: Sorption Isotherm Studiesmentioning

confidence: 99%

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Competitive sorption of nickel, copper, lead and cadmium on okra leaves (Abelmoschus esculentus)

2017

Issue 2

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In this study, potential of okra leaves for the removal of Ni(II), Cu(II), Pb(II) and Cd(II) from the mixed metal aqueous solution were evaluated. The data were analyzed by Freundlich, Langmuir, D-R, Flory-Huggins and Halsey adsorption models. Pseudo first order rate, Pseudo second order rate, Morris-Weber and Elovich equations were employed to understand the kinetics of the reaction. The characterization of the adsorbent was carried out by EDX and FTIR techniques. The order of maximum metal uptake calculated by D-R isotherm was Cu(II) > Pb(II) > Cd(II) and Ni(II), 453 mg g . The method was successfully applied for the removal of these metal ions from the ground water, tap water and wastewater samples collected from different areas of Pakistan.

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Section: Thermodynamic Studymentioning

confidence: 99%

Section: Sorption Isotherm Studiesmentioning

confidence: 99%

Competitive sorption of nickel, copper, lead and cadmium on okra leaves (Abelmoschus esculentus)

2017

Issue 2

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“…Thermodynamic study helps in estimating the nature and feasibility of the sorption reaction (Iftikhar et al, 2009;Khaskheli et al, 2016;Ladeira et al, 2004). Thermodynamic parameters (enthalpy change, entropy change and Gibbs free energy) were calculated by using the following equation.…”

Section: Thermodynamic Studymentioning

confidence: 99%

The utilization of okra leaves as an agricultural waste for the removal of As(III) and As(V)

2021

Global NEST: The International Journal

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<p>In the present study the sorption efficiency of okra leave sorbent for As(III) and As(V) is demonstrated. Sorption reaction is pH and time dependent. The sorbent shows maximum removal of As(III) and As(V) at pH 7 and pH 6 respectively and equilibrium was achieved at 180 minutes. In isotherm study experimental data were explained by Freundlich and Flory-Huggins models. Maximum sorption capacities calculated by Freundlich Isotherm were 5672.0 μg g-1 and 13160 μg g-1 for As(III) and As(V) respectively. Psuedo-second order rate equation and Morris-Weber equation explained the kinetics of sorption reaction. Due to the presence of heterogeneous active sites on the sorbent, surface sorption as well as intra-particle diffusion occurred. Thermodynamically, sorption reaction was endothermic in nature and proceeded spontaneously. Desorption study revealed that 89.82% of As(III) and 97.11% of As(V) were removed with 1M HCl.</p>

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“…[2], Dimocarpus longan [3], and activated carbon from Quercus robur leaves [4], activated carbon from Phoenix dactylifera L. leaves [5], Sauropus androgynus (L.) Merr. [6], Camellia sinensis leaves [7], Citrus × paradisi peelings [8], Abelmoschus esculentus leaves [9], etc., as well as geomaterials such as clay, zeolite, and perlite [5,7,[9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Analytical chemistry in technical approaches: immobilization of biosorbent waste containing heavy metals in cemented materials

et al. 2022

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An ecologically safe and economically justified method of stabilization of the used biosorbents was developed. Sorbent contaminated with heavy metals has been successfully solidified/stabilized using a hydraulic binder. The test results indicated that up to 1% of the biosorbent residue used could be added without compromising the compressive strength of the mortar. The compressive strength of the modified mortars did not change significantly even after 20 freeze/thaw cycles. The analytical methods such as Flame Atomization-Atomic Absorption Spectrometer, Graphite Furnace-Atomic Absorption Spectrometer, and Cold Vapor-Atomic Absorption Spectrometry were utilized to examine the leaching behavior of selected heavy metals during harsh condition exposure. The leachability of selected heavy metals was found to be below the limit allowed by the US EPA after immersion and agitation for 10 days in artificial water solutions (seawater, groundwater, and rainwater). X-Ray Diffraction and Brunauer–Emmett–Teller data showed no significant changes in the crystalline structure and surface area of the modified mortars after treatment. Research showed that mixing the adsorbent used with mortar was effective in immobilizing heavy metals and allowed the implementation of a so-called ‘zero waste’ management method. Graphical abstract

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Okra Leaves—Agricultural Waste for the Removal of Cr(III) and Cr(VI) from Contaminated Water

Cited by 10 publications

References 57 publications

Competitive sorption of nickel, copper, lead and cadmium on okra leaves (Abelmoschus esculentus)

Competitive sorption of nickel, copper, lead and cadmium on okra leaves (Abelmoschus esculentus)

The utilization of okra leaves as an agricultural waste for the removal of As(III) and As(V)

Analytical chemistry in technical approaches: immobilization of biosorbent waste containing heavy metals in cemented materials

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