Application of a newly developed super paramagnetic magnetite Fe3O4 nanowafers nanoparticle in the removal of heavy metals from industrial wastewater submerging in the River Nile

Emara, Mostafa M.; Goher, Mohamed E.; Abdo, Mohamed H.; Mahmod, Nesrine M.; El-Shamy, Amr S.

doi:10.21608/ejabf.2016.10607

Application of a newly developed super paramagnetic magnetite Fe3O4 nanowafers nanoparticle in the removal of heavy metals from industrial wastewater submerging in the River Nile

Document Type : Original Article

Authors

10.21608/ejabf.2016.10607

Abstract

This study describes a super paramagnetic magnetite Fe₃O₄ nanowafers adsorbent, using for the completely removal of some heavy metals (Fe⁺², Mn⁺², Cu⁺², Zn⁺², Ni⁺², Pb⁺², and Cd⁺²) from three discharge industrial wastewater samples which consider some pollution sources that submerging in the River Nile. For adsorbent the effect of various parameters such as the initial concentration (100 – 300 ppm), the mass of adsorbent (0.5 – 3 gm), the contact time (1-3 ml/min) and the solution pH (2-10) were determined of Cd metal ions by breakthrough determination. The maximum removal efficiency was found to be 100% in 1gm of SPMMFe₃O₄ NWNPs per 4572 ml at 25 mg/l (10 mg/l Fe⁺², 4 mg/l Mn⁺², 3 mg/l Ni⁺², 2 mg/l Cu⁺², 2 mg/l Zn⁺², 2 mg/l Pb⁺², and 2 mg/l Cd⁺²) of industrial discharge wastewaters were collected from the El-Nasr Company for Coks, Chemicals, Egyptian Iron and Steel factory and Egyptian Sugar & Integrated Industries Company at pH= 7.However, the AMBERLITE IR 120 H resin obtains result 2914.65 ml at the same conditions, this means that the efficiency of super paramagnetic magnetite Fe₃O₄ nanoparticles on a resin (AMBERLITE IR 120 H) supportis greater with 36.25 %. The next step in this work will consist of testing this non-conventional adsorbent on a pilot industrial scale.

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