Cadmium Migration and Distribution Process

Xue Ying Song; Xiao Jun Hu; Cai Xia Jin; Ji Song Yang; Hong Liang Chen; Yong Xia Hou; Yu Shuang Li

doi:10.4028/www.scientific.net/AMR.518-523.1873

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 518-523Cadmium Migration and Distribution Process

Cadmium Migration and Distribution Process

Abstract:

The significant pollution accidents which not only threaten public health and public property safety, but also bring major disaster, have become the world concerning environmental problems. The migration process and feature of CdCl2 in the vertical and horizontal profiles of soil were studied by the stimulating experiment to present the theory for the treatment of significant pollution accident. The column leaching device was taken to simulate the vertical and horizontal migration of CdCl2 in the soil profile under two-phase rainfall during 16 days. The portable manual control negative pressure pump was taken to extract soil solution sample and the CdCl₂ concentration was determined by the atomic absorption spectrophotometer. Results showed that during the whole experiment, the obvious horizontal and vertical migration features of CdCl₂ appeared. The CdCl₂ covered the whole horizontal profile in 0.5 h and the whole vertical profile in 146 hours. The relative variation rate of CdCl₂ in the different depth of bulk showed that the rapid passing time differed in the different depths. The simulating device used in this paper could well investigate the vertical and horizontal distribution and migration of contaminant. Under the condition of greater rainfall, the CdCl₂ gave priority to the horizontal runoff in the surface soil, followed by the vertical migration.

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Periodical:

Advanced Materials Research (Volumes 518-523)

Pages:

1873-1876

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.518-523.1873

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Online since:

May 2012

Authors:

Xue Ying Song, Xiao Jun Hu, Cai Xia Jin, Ji Song Yang, Hong Liang Chen, Yong Xia Hou, Yu Shuang Li

Keywords:

Cadmium (Cd), Migration Process, Soil

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References

[1] Y. Shiraishi: Humangenetic, Vol. 27(1975), p.31

Google Scholar

[2] M.B. Beck: Water science and technology, Vol. 33(1996), p.1

Google Scholar

[3] L.X. Qian, X.L. Zhang, M.G. Liu: Guangzhou environmental science, Vol. 23(2008), p.21

Google Scholar

[4] J. Xu, Y.L. Lv, G.L. Wang: Acta scientiae circumstantiae, Vol. 19(1999), p.567

Google Scholar

[5] C.J. Lu, H. Luo, L.Y. Lv: Environment and sustainable development, Vol. 2(2010), p.30

Google Scholar

[6] J. Bi, C.S. Qu, L. Huang: Environmental monitoring and forewaming, Vol.1 (2009): p.1

Google Scholar

[7] Y.S. Li, L.N. Sun, T.H. Sun, H. Wang: Journal of agricultural environmental science, Vol. 26(2007), p.1386

Google Scholar

[8] M.L. Zhang, X.K. Wang, L. Chen: Journal of Jilin University, Vol. 44(2006): p.673

Google Scholar

[9] H.J. Ai, X. Zhang, C.Y. Liu: Agricultural science and technology, 10(2009), p.108

Google Scholar

[10] J.H. Wei, Y.Q. Guan, D.M. Xia: Journal of Anhui agricultural sciences, 38(2010), p.4118

Google Scholar