Analysis of Unsteady Seepage Behavior of Rumei High Core Wall Rockfill Dam by FEM

Zhen Zhong Shen; Liang Zhong; Xian Dun Chai

doi:10.4028/www.scientific.net/AMM.724.175

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 724Analysis of Unsteady Seepage Behavior of Rumei...

Analysis of Unsteady Seepage Behavior of Rumei High Core Wall Rockfill Dam by FEM

Abstract:

The Rumei core wall rockfill dam hydropower station is in Lancang River in the Mangkang county of the Tibet autonomous region with maximum height of 315m and crest length of 666.2m. Due to the high core wall rockfill dam has been more than 300m high, water level sudden drawdown of the unsteady seepage condition shall be taken into consideration, according to the given water level drop speed (5m/d) calculate condition, analysis of the seepage field distribution of the different water level, free surface of different time, each material partition of the dam and foundation soil seepage gradient, etc are given. The results showed that the free surface of the upstream dam shell rockfill body dropping fast than the water level dropping speed of the reservoir. The seepage gradient of the upstream shell is very small, which will not cause adverse effect on the upstream dam slope stability. The free surface of the downstream dam shell rockfill body changes little, which will not cause adverse effect on the downstream of the dam slope stability. As the water level falls, the free surface of the core wall dropping speed is slow, far less than the water dropping speed of the reservoir. In the process of emptying reservoir, the free surface of the core wall remains in a high position, which should cause enough attention.

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Periodical:

Applied Mechanics and Materials (Volume 724)

Pages:

175-179

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.724.175

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Online since:

January 2015

Authors:

Zhen Zhong Shen, Liang Zhong*, Xian Dun Chai

Keywords:

FEM, Rumei Core Wall Rockfill dam, Unsteady Seepage Behavior

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References

[1] Su, B. Y., Shen, Z. Z. and Zhao, J.: The Cut-off Negative Pressure Method for Soling Filtration Problems Based on the Theory of Variational Inequalities. Journal of Hohai University (Natural Science). Vol. 27(3) (1996), pp.22-29.

Google Scholar

[2] Shen, Z. Z., Li, C. L., Xu, L. Q. and Ma, Y.: Study on Unstable Seepage Field Characteristic and Seepage Control Measures of Wutagou Floodway. The International Conference on Environmental Pollution and Public Health. Chengdu, China(2010).

DOI: 10.1109/icbbe.2010.5515507

Google Scholar

[3] Shen, Z. Z., Zhang, X., Lu, X. and Wei, J. Z.: Seepage Control Optimization of Left Bank of Laohuzui Hydropower Station. Journal of Hydraulic Engineering. Vol: 37(10) (2006), pp.1230-1234.

Google Scholar

[4] Wang, J. X. and Shen, Z. Z.: Seepage stability evaluation for dams of Fuhuashan Reservoir. Proceeding of International Conference on Management and Service Science. Wuhan, China(2009).

DOI: 10.1109/icmss.2009.5303295

Google Scholar

[5] Mao, X. Y. and Pan, S. H.: Back analysis of initial seepage field of complex dam foundation at Shuangjiangkou Hydropower Station. Rock and Soil Mechanics. Vol: 10, S1(2008).

Google Scholar

[6] Zhao, J., Shen, Z. Z. and Lai M.: The Improved Convert Permeability Coefficient Method and Variable Permeability Coefficient Method Used for Seepage Calculation in Karst Regions. New Developments in Dam Engineering (Proceedings of the 4th International Conference on Dam Engineering). Nanjing, China(2004).

DOI: 10.1201/9780203020678.ch134

Google Scholar

[7] Zhao, J. and Shen Z. Z. (1997).: Improved Calculation Method of Seepage of Tailings Dam Complex Drainage. Journal of Hohai University (Natural Science). Vol: 25( 2) (1997), pp.110-113.

Google Scholar

[8] Shen, Z. Z. and Mao, C. M. (1994).: Calculation and automated mapping for flow net of steady seepage field. Journal of Hohai University (Natural Science). Vol: 22(5) (1994), pp.75-77.

Google Scholar