地下水渗流与地面沉降耦合模拟

金玮泽; 骆祖江; 陈兴贤; 谈金忠

doi:10.3799/dqkx.2014.058

Volume 39 Issue 5

May 2014

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Jin Weize, Luo Zujiang, Chen Xingxian, Tan Jinzhong, 2014. Coupling Simulation of Groundwater Seepage and Land Subsidence. Earth Science, 39(5): 611-619. doi: 10.3799/dqkx.2014.058

Citation:

Jin Weize, Luo Zujiang, Chen Xingxian, Tan Jinzhong, 2014. Coupling Simulation of Groundwater Seepage and Land Subsidence. Earth Science, 39(5): 611-619. doi: 10.3799/dqkx.2014.058

Jin Weize, Luo Zujiang, Chen Xingxian, Tan Jinzhong, 2014. Coupling Simulation of Groundwater Seepage and Land Subsidence. Earth Science, 39(5): 611-619. doi: 10.3799/dqkx.2014.058

Citation:

Jin Weize, Luo Zujiang, Chen Xingxian, Tan Jinzhong, 2014. Coupling Simulation of Groundwater Seepage and Land Subsidence. Earth Science, 39(5): 611-619. doi: 10.3799/dqkx.2014.058

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Coupling Simulation of Groundwater Seepage and Land Subsidence

doi: 10.3799/dqkx.2014.058

Jin Weize^1
,,
Luo Zujiang^{1
,
,},
Chen Xingxian^{1, 2},
Tan Jinzhong³

1.
School of Earth Science and Engineering, Hohai University, Nanjing 210098, China
2.
Jiangsu Geology & Mineral, Exploration Bureau, Nanjing 210018, China
3.
Jiangsu Nanjing Institute of Geo-Engineering Investigation, Nanjing 21004, China

Received Date: 2013-10-10
Publish Date: 2014-05-01

Abstract

Abstract

In order to accurately simulate land subsidence caused by seepage field as a result of groundwater exploitation and stress field, two models are established in this study: one is groundwater seepage and land subsidence coupling numerical simulation model of the three-dimensional seepage of groundwater and one-dimensional vertical consolidation in light of Terzaghi effective stress principle; and the other is three-dimensional coupling model of groundwater seepage and land subsidence based on the Biot's consolidation theory combined with the nonlinear rheological theory of soil, extending the constitutive relation in Biot's consolidation theory to viscoelastic plasticity, taking into consideration of the dynamic change relationship of mechanical parameters and hydraulic parameters. The comparison and analysis show that the changing tendency of land subsidence calculated by groundwater seepage and land subsidence coupling numerical simulation model of the three-dimensional seepage of groundwater and one-dimensional vertical consolidation is the same as that of water level variation. When the water level falls back to the initial water level, total subsidence is 0. Land subsidence calculated by Biot's three-dimensional full coupling model falls behind of water level change. When the water level falls back to the initial water level, soil does not rebound to initial 0 subsidence state. There exists permanent remain of subsidence. In aspect of parameter change, porosity, hydraulic conductivity and Poisson's ratio have the tendency of decreasing first and then increasing. Modulus of elasticity has the tendency of decreasing first and then increasing. But these parameter values tend to be stable, corresponding to land subsidence variation.
- Terzaghi effective stress principle,
- Biot's consolidation theory,
- groundwater,
- subsidence,
- coupling,
- parameter variation

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References(29)

References

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