Application of EFDC Model in Preventing Water Quality Deterioration through Water Circulation

Xue Yi You; Shao Feng Chen; Qing Hua Hong; Zhi Guang Niu

doi:10.4028/www.scientific.net/AMM.148-149.1374

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 148-149Application of EFDC Model in Preventing Water...

Application of EFDC Model in Preventing Water Quality Deterioration through Water Circulation

Abstract:

The EFDC model is applied to predict the flow field of two typical circulating water body impacted by both pump driven current and wind-driven current. The result demonstrates that there exists strong effect between pump driven current and wind-driven current. The wind can effectively reduce the area of low velocity zone of pump drive current as well as the power consumption of pump. And the increased high velocity area could better inhibit the algae growth and thus prevents degradation of water quality.

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Periodical:

Applied Mechanics and Materials (Volumes 148-149)

Pages:

1374-1377

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.148-149.1374

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Online since:

December 2011

Authors:

Xue Yi You, Shao Feng Chen, Qing Hua Hong, Zhi Guang Niu

Keywords:

Circulating Water, EFDC Model, Water Quality, Wind-Driven Current

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References

[1] D. Tian: Comparative studies on antisepsis effects in landscape water by different technologies (Northwest A & F University, China 2010).

Google Scholar

[2] X.H. Wu and Q.J. Li: Ecology and Environment Vol. 19 (2010), p.1732.

Google Scholar

[3] P.A. Liao and X.L. Hu: Beijing Water Resources Vol. 2 (2005), p.12.

Google Scholar

[4] K.R. Jin and J.M. Hamrick: Journal of Hydraulic Engineering Vol. 106 (2000), p.758.

Google Scholar

[5] W.P. Gong, J. Shen and B. Hong: Marine Environmental Research Vol. 68 (2009), p.203.

Google Scholar

[6] J.M. Hamrick: A Three-dimensional environmental fluid dynamics computer code: theoretical and computational aspects (The College of William and Mary, 1992).

Google Scholar

[7] X.Q. Wang and W. Wei: Journal of Ocean University of Qingdao, Vol. 5 (2001), p.640.

Google Scholar

[8] J. Zhou, C. Zeng and L.L. Wang: Chinese Journal of Hydrodynamics Vol. 4 (2009), p.440.

Google Scholar

[9] C. Koutitas, M. Asce and B. O' Connor: J. Phys. Oceanogr Vol. 11 (1981), p.324.

Google Scholar

[10] B.P. Han, Z.G. Han and X. Fu: Algal photosynthesis: mechanisms and models (Beijing Science Press, China 2003).

Google Scholar