Physical and chemical changes in water resulting from contamination with heavy metals

  • Mohammed Khlaif Challab Ministry of Education
DOI: https://doi.org/10.29350/qjps.2022.27.2.1485
Keywords: Electrical shock ·Quality of Water. Nanoparticle

Abstract

Nanoparticle in each model can be damage to water quality. This study is about nano metal in water that damaged to its quality. Metal divided to layers that electrical shock can lead to dividing of them. In different model in about temperature, Energy and different layer, quality of water be measured. Temperature has reverse relation with water quality. The best temperature to electrical shock in (-20) ˚C. electrical shock has direct effect on quality of water. In total investigation on all layers, electrical shock damaged to all layers and bridging phenomena be occurred in particle that can removed from water. With this process the quality of water will increase.

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References

1. Abdel-Satar, A. M., Ali, M. H., & Goher, M. E. Indices of water quality and metal pollution of Nile River, Egypt. The Egyptian Journal of Aquatic Research, 43(1), 21-29, (2017).‏
2. Zhu, D., Wu, S., & Lu, N. Evaluation of Nutrient and Heavy Metal Pollution in Maozhou River in Shenzhen City. In IOP Conference Series: Earth and Environmental Science (Vol. 170, No. 3, p. 032156), (2018, July). IOP Publishing.‏
3. Messersmith, P. B., & Lee, H. U.S. Patent No. 10,093,557, (2018). Washington, DC: U.S. Patent and Trademark Office.‏
4. Tanjung, R. H. R., &Hamuna, B. Assessment of water quality and pollution index in coastal waters of Mimika, Indonesia. Journal of Ecological Engineering, 20(2), (2019).‏
5. O’Mara, K., Miskiewicz, A., & Wong, M. Y. Estuarine characteristics, water quality and heavy metal contamination as determinants of fish species composition in intermittently open estuaries. Marine and Freshwater Research, 68(5), 941-953, (2017).‏
6. Tanjung, R. H. R., &Hamuna, B. Assessment of water quality and pollution index in coastal waters of Mimika, Indonesia. Journal of Ecological Engineering, 20(2), (2019). ‏
7. Song, J., Duan, X., Han, X., Li, Y., Li, Y., & He, D. The accumulation and redistribution of heavy metals in the water-level fluctuation zone of the Nuozhadu Reservoir, Upper Mekong. Catena, 172, 335-344, (2019).‏
8. Odobašić, A., Šestan, I., &Begić, S. Biosensors for Determination of Heavy Metals in Waters. In Environmental Biosensors. IntechOpen, (2019). ‏
9. Shonouda, M. L., El-Samad, L. M., Mokhamer, H., & Toto, N. Use of oxidative stress and genotoxic biomarkers of aquatic beetles Anaceanaglobulus (Coleoptera: Hydrophilidae) as biomonitors of water pollution. J Entomol, 13, 122-131, (2016). ‏
10. Capillo, G., Silvestro, S., Sanfilippo, M., Fiorino, E., Giangrosso, G., Ferrantelli, V., ... &Faggio, C. Assessment of electrolytes and metals profile of the Faro Lake (Capo Peloro Lagoon, Sicily, Italy) and its electrical shock on Mytilusgalloprovincialis. Chemistry & biodiversity, 15(5), 1800044, (2018). ‏
Published
2022-04-13
How to Cite
Khlaif Challab, M. (2022). Physical and chemical changes in water resulting from contamination with heavy metals. Al-Qadisiyah Journal of Pure Science, 27(1), chem 32-44. https://doi.org/10.29350/qjps.2022.27.2.1485
Issue
Vol 27 No 1 (2022)
Section
Chemistry

Copyright (c) 2022 Mohammed Alhamd

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