USE OF (POMACEA CANALICULANTA) SHELL FOR THE REMOVAL OF LEAD FORM AQUEOUS SOLUTIONS
DOI:
https://doi.org/10.36103/ijas.v54i6.1865Keywords:
adsorption, water treatment, mollusca, heavy metal removalAbstract
This study was aimed to find a new, cheap available adsorbent for the removing of Pb from water, using shells of Mollusca (Pomacea canaliculanta). In order to estimate the efficiency of the new adsorbent in removing the heavy metal, batch experiments were achived. At the beginning the best contact time was determined which is equal to 2 hours. then the effect of the initial lead concentrations was studied which demonstrated a direct correlation between the removal efficiency of the adsorbent and the Pb concentration up to 93.98 percent at lead concentration of 60 ppm. After that the effect of adsorbent weight on the removal of the metal was examined which show that 0.75 gm give the best removal efficiency up to 79.08 of the lead initial concentration, as well as the pH value effect on the lead adsorption was evaluated. The results show that the proposed adsorbent has a very good ability for removing the lead, through the whole experiments.
References
Al-Aboudi, H. J., A. J. Al-Rudainy, and A. A. Maktoof. 2022. Accumulation Of lead and cadmium in tissues of cyprinus carpio collected from cages of Al-Gharraf River /Thi Qar / Iraq. Iraqi Journal of Agricultural Sciences, 53(4): 819–824. https://doi.org/10.36103/ijas.v53i4.1594
Alghamdi A. A., A. Al-Odayni, W. S. Saeed, A. Al-Kahtani, F. A. Alharthi and T. Aouak .2019. Efficient adsorption of lead (ii) from aqueous phase solutions using polypyrrole-based activated carbon. Materials. 12, doi:10.3390/ma12122020
Al-Hassoon, S. N.H., A. S.J. Z., Al-Hayani, and M. A. J. Al-Obbaidi, 2019. Adsorption isotherm of lead on calcium carbonate. 50(special issue):48-53.doi: https://doi.org/10.36103/ijas.v50ispecial.176
Al-Hayani, A.S. J. Z., S. N. H. Al-Hassoon, and M. A. J. Al-Obaidi. 2022. Adsorption of copper on surfaces of feasible materials (plant waste, sludge and bentonite) metal. Iraqi Journal of Agricultural Sciences, 53(3):654–659. https://doi.org/10.36103/ijas.v53i3.1575
Al-Muttairi A. K., S. A. Mustafa and J. M. Salman. 2018. A comparative efficiency study of two adsorbent materials to remove eosin y dye from aqueous solutions. Baghdad Science Journal.15(4): 387-391. https://doi.orq/10.21123/bsj.2018.154.0387
Alsaadoon D.W.K., F. M. Hassan and W. M. Mahdi .2023. Assessement of water quality of diyala river using overall index of pollution (OIP) in Iraq. Iraqi Journal of Agricultural Science. 54(3): 682–690. https://doi.org/10.36103/ijas.v54i3.1748
Akinyeye, O. J., T. B. Ibigbami, and O. Odeja.2016. Effect of chitosan powder prepared from snail shells to remove lead (II) ion and nickel (II) ion from aqueous solution and its adsorption isotherm model. American Journal of Applied Chemistry. 4(4): 146-156.
Doi: https://10.11648/j.ajac.2016040.15
Azimi A., A. Azari, M. Rezakazemi and M. Ansarpour.2017. Removal of heavy metals from industrial wastewaters: a review. chemBioEng reviews. Wiley-VCH. 4(1):1–24.doi: https://doi.org/10.1002/cben.201600010
Azouaoua N., M. Belmedanib, H. Mokaddema and Z. Sadaoui.2013. Adsorption of lead from aqueous solution onto untreated orange barks. Chemical Engineering Transactions. The Italian Association of Chemical Engineering. 32:55-60. doi: https://10.3303/CET1332010
Dakhil I. H.2015.Adsorption of lead from industrial effluents using rice husk. International Journal of Engineering and Management Research. 5(1): 2394-6962.
De Brito F. C. and R. C. Joshi .2016. The golden apple snail Pomacea canaliculata: a review on invasion, dispersion and control. Outlooks on Pest Management. 27(4): 157-163. doi: https://10.1564/v27_aug_03
Esmaeilia, H., S. Tamjidib, M. Abeda.2020. Removal of Cu(II), Co(II) and Pb(II) from synthetic and real wastewater using calcified solamen vaillanti snail shell. Desalination and Water Treatment. 174 (2020) 324–335. Doi: https://10.5004/dwt.2020.24880
Estebenet A. L. and P. R. Martín .2002. Pomacea canaliculata (Gastropoda: Ampullariidae): life-history traits and their plasticity. BIOCELL. 26(1): 83-89
Ghogomu J. N., S. N. Muluh, D. L. Ajifack, A. A. B. Alongamo and D. T. Noufame .2016. Adsorption of lead (ii) from aqueous solution using activated carbon prepared from raffia palm (Raphia hookeri) fruit epicarp. International Organization of Scientific Research. Journal of Applied Chemistry. 9(7): 74-85.
doi: https://10.9790/5736-0907017485
Lopushniak, V. I. and H. M. Hrytsuliak. 2021. The intensity of the heavy metals by topinambur in the conditions of the oil-polluted areas. Iraqi Journal of Agricultural Sciences, 52(6):1334–1345. https://doi.org/10.36103/ijas.v52i6.1473
Nada, K. B., M. S.Salman, A. F. Harpy, A R .Ajeena, and A .H. Falih. 2022 .Stabl isotopes and hydrochemical parameter as indicators of al-Razzaza lake water interaction with groundwater surrounding / karbala governorate- Iraq. Iraqi Journal of Agricultural Science. 53(2):341–352. https://doi.org/10.36103/ijas.v53i2.1541
Radwan E. H., G. H. Fahmy, M. A. K. Saber and M. E. K. Saber.2017. The impact of some organic and inorganic pollutants on fresh water (Rashid branch, River Nile). Egyptian Journal of Advances in Biology. 10(2): 2133-2145.
Doi: https://10.24297/jab.v10i2.6481
Raii M., D. P.Minh, F. J. E. Sanz and A. Nzihou .2014. Lead and cadmium removal from aqueous solution using an industrial gypsum by-product. Procedia Engineering. Elsevier. 83:415 – 422.doi : https://doi.org/10.1016/j.proeng.2014.09.050
Rao L. N., G. Prabhakar and S. Feroz. 2010. Adsorption of lead and zinc from aqueous solution using Ficus benghalensis L. as adsorbent. International Journal of Engineering Studies. 2(2): 231–246
Salihi I. U., S. R. M. Kutty and M. H. Isa .2017. Adsorption of lead ions onto activated carbon derived from sugarcane bagasse. IOP Conference Series: Materials Science and Engineering 201.
doi: https://10.1088/1757-899X/201/1/012034
Salman J. M., A. K. Al-Muttairi, S. A. Mustafa and N. A. Abd-Hussian .2017. Biosorption of sifranin-o dye from aqueous solutions by using the shells of Carbicula flumina. Mesopotamia Environmental Journal.3(3): 25-29.
WHO. 2011. Lead in drinking-water: background document for development of WHO guidelines for drinking-water quality. WHO Press. WHO/SDE/WSH/03.04/09/ Rev/1.
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