Optimization of Seepage Prevention Form of the Zhen’an Pumped Storage Power Station

Zhen Zhong Shen; Li Zhang; Li Qun Xu

doi:10.4028/www.scientific.net/AMM.724.180

Paper Titles

Thermal Analysis of Concrete Structures with Pipe-Cooling System by a New Algorithm
p.161

Wind Tunnel Experiment on the Wind Effects of Low-Rise Buildings in Rural Areas
p.166

Differential Settlement among Diaphragm Wall and Upright Column Piles
p.171

Analysis of Unsteady Seepage Behavior of Rumei High Core Wall Rockfill Dam by FEM
p.175

Optimization of Seepage Prevention Form of the Zhen’an Pumped Storage Power Station
p.180

Research on Determination Loose Zone of Surrounding Rock in Highway Tunnel
p.185

Optimization Research on Geometric Parameters of Scallop-Shaped Lattice Shells
p.192

An Evaluation System for Seismic Retrofitting Schemes of an Existing Building Using Energy Dissipation Device
p.197

Acceleration Data Acquisition and Analysis Method of Shaking Table Test
p.205

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 724Optimization of Seepage Prevention Form of the...

Optimization of Seepage Prevention Form of the Zhen’an Pumped Storage Power Station

Abstract:

The main dam of the upper reservoir of Zhen'an pumped storage power station in Shaanxi Province, China, is a concrete face rockfill dam with height of 125.90m and crest length of 363.00m. The in-situ drilling and geological prospecting show that the groundwater level is higher than the normal water level in part of the left bank and the reservoir tail, leading to the reversed seepage problem of the groundwater through concrete slab under drawdown condition. Based on the establishment and calculation of the three-dimentional finite element seepage model, the analysis and comparison was made between the overall seepage prevention composed of concrete slab + composite geomembrane and the partial seepage prevention composed of concrete slab + composite geomembrane + vertical grouting curtain [1,2]. The result was found that the seepage gradient requirement was met up by both forms, but due to the prevention of supply from the groundwater in the left bank and reservoir tail, the uplift pressure was formed locally in the overall seepage prevention, whereas such problem did not exist in the partial form. With the extra water supply from the groundwater, the partial seepage prevention works better in terms of leakage. Besides, the design of coarse sand drainage layer is well-served in reducing the water pressure beneath the composite geomembrane on the bottom of the reservoir [3]. It is suggested that the high groundwater should be fully utilized for security and economic benefit. The achievement and experience of this partial seepage prevention design should be taken into consideration for other similar projects.

You might also be interested in these eBooks

Structural Engineering, Vibration and Aerospace Engineering II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 724)

Pages:

180-184

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.724.180

Citation:

Cite this paper

Online since:

January 2015

Authors:

Zhen Zhong Shen, Li Zhang, Li Qun Xu

Keywords:

Drainage Layer, Groundwater, Pumped Storage Power Station, Seepage Prevention

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] 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. (2008).

Google Scholar

[2] Shen, Z. Z. and Mao, C. M.: 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

[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] Xie, X. D., Li, H. X.: Simulation of the Seepage Field in the Danjiangkou Reservoir Area. Applied Mechanics and Materials. Advances in Civil Engineering(2011).

Google Scholar

[5] Wang D., Shen, Z. Z. and Tao, X. H.: Three-dimensional Finite Element Analysis and Assessment for Seepage Field of a Tailing Dam. Journal of Hohai University (Natural Science). Vol: 40(30) (2012), pp.307-312.

Google Scholar

[6] Lin, W. B. and Shen, Z. Z.: Finite Element Analysis of Uplift Pressure and Its Control of Plunge Pools after A high Arch Dam. The 1st International Conference on Long Time Effects and Seepage Behavior of Dams, Nanjing, China(2008).

Google Scholar

[7] Shen, Z. Z., Tao, X. H. and Wu, Y. J.: Penalty Function Element-free Method for Solving Seepage Field of Embankments. Journal of Hohai University (Natural Science). Vol: 36(1) (2008), pp.48-52.

Google Scholar