Use of hydrous manganese dioxide as a potential sorbent for selective removal of lead, cadmium, and zinc ions from water

Su, Qin; Pan, Bingcai; Wan, Shunli; Zhang, Weiming; Lv, Lu

doi:10.1016/j.jcis.2010.05.052

Cited by 174 publications

(64 citation statements)

References 42 publications

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“…However, dissolved manganese is generally oxidized so slowly that it takes relatively long time for precipitation, hence it hardly becomes cost effective. The oxidation with chlorine becomes more effective when the pH is greater than 9.5 [4], [5].…”

Section: Introductionmentioning

confidence: 99%

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Puttamat¹,

Pavarajarn²

2016

IJCEA

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Section: Introductionmentioning

confidence: 99%

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Puttamat¹,

Pavarajarn²

2016

IJCEA

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“…However, the q e values obtained in the present work by the fi tting with the Langmuir model (Tables 1 and 2) are similar to some values previously reported; for instance: a) q e = 16.3 mg/g for a MnO 2 -modifi ed diatomite 17 ; b) q e = 0.98 mmol/g (64 mg/g), at pH = 4 and nitrate media for a synthetic manganese oxide 16 and; c) q e = 0.83 mmol/g (55 mg/g), at pH = 4 and nitrate media for a hydrous manganese oxide 29 .…”

Section: Resultsmentioning

confidence: 99%

Adsorption of Zn²⁺ from solutions on manganese oxide obtained via ozone precipitation reaction

Contreras-Bustos

Espejel‐Ayala

Cercado

et al. 2016

Polish Journal of Chemical Technology

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Synthesis via ozone precipitation reaction was used to obtain manganese dioxide (OMD) and it was probed as an adsorbent for zinc ions. Adsorption was followed along shaking time and increasing ratio ] / [Zn 2+ ], and isotherms were obtained at different pH values and in the presence of several anions (chloride, nitrate, sulphate, and acetate). It was found that adsorption equilibrium is fast and follows the pseudo-second order model (q e = 34 ±1 mg/g and K = 0.07 ±0.01 g/mg h). Isotherms were fi tted to Langmuir, Freundlich, and LangmuirFreundlich models, and the best fi tting was found with the last one. The process is dependent on pH and the effi ciency increases from pH 1 to 4. The ratio [NO 3 -] / [Zn 2+ ] up to 3 does not seem to change the behaviour of the process. Regarding the anions, the effi ciency of Zn(II) adsorption occurs according to: acetate > nitrate and sulphate > chloride. Manganese oxide obtained via ozonization is an excellent adsorbent for zinc ions.

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“…The percentage of desorbed metal ion was calculated using the following equation: (11) where: amount des represents the amount of desorbed metal ion and amount ads is the amount of the retained metal ion.…”

Section: Desorption Studiesmentioning

confidence: 99%

“…Heavy metals can damage liver, kidney, bone and nerves by blocking functional groups of vital enzymes. [1][2][3] Various physical and chemical treatment processes such as chemical precipitation, 4,5 ion exchange, 6,7 membrane filtration, 8 coagulation, and adsorption [9][10][11][12] have been widely used to reduce heavy metal content from industrial wastewaters. Nevertheless, most of these methods have several disadvantages, such as complicated treatment process, energy consumption, and are expensive.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Adsorption Capacity of Montmorillonite and Aluminium-pillared Clay for Pb2+, Cu2+ and Zn2+

Humelnicu

Ignat²,

Suchea³

2015

ACSi

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Adsorption capacity of the two adsorbents was investigated as a function of contact time between adsorbent and heavy metal ions solutions, the initial heavy metals concentration of the synthetic wastewater, pH value, temperature and adsorbent mass. Preliminary experiments at different pH values between 2.0 and 7.0 were performed, and were observed that maximum adsorption occurs at pH 5 for copper (q max = 92.59 mg · g -1 ), 6.0 for lead (q max = 97.08 mg · g -1 ) and 6.5 for zinc ions (q max = 73.52 mg · g -1 ), respectively. The sorption capacity of studied adsorbents for Pb 2+ , Cu 2+ and Zn 2+was calculated using Langmuir and Freundlich models. Thermodynamic parameters -enthalpy change (ΔH 0 ), entropy change (ΔS 0 ) and free energy (ΔG 0 ) -were calculated for predicting the nature of adsorption. Scanning electron micrograph (SEM) revealed changes in the surface morphology of the adsorbent as a result of heavy metal ions adsorption. EDS characterization confirmed qualitatively the presence of adsorbed species in the samples. On the basis of the obtained results the adsorption it was proposed an ordered adsorption: Pb 2+ , Cu 2+ and Zn 2+ , on the sorbents we investigated.

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Use of hydrous manganese dioxide as a potential sorbent for selective removal of lead, cadmium, and zinc ions from water

Cited by 174 publications

References 42 publications

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Adsorption of Zn²⁺ from solutions on manganese oxide obtained via ozone precipitation reaction

Evaluation of Adsorption Capacity of Montmorillonite and Aluminium-pillared Clay for Pb2+, Cu2+ and Zn2+

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Use of hydrous manganese dioxide as a potential sorbent for selective removal of lead, cadmium, and zinc ions from water

Cited by 174 publications

References 42 publications

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Adsorption Study for Removal of Mn (II) Ion in Aqueous Solution by Hydrated Ferric (III) Oxides

Adsorption of Zn2+ from solutions on manganese oxide obtained via ozone precipitation reaction

Evaluation of Adsorption Capacity of Montmorillonite and Aluminium-pillared Clay for Pb2+, Cu2+ and Zn2+

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Adsorption of Zn²⁺ from solutions on manganese oxide obtained via ozone precipitation reaction