Deformation Module Dynamic Inversion of Xietan Sewage Treatment Plant Slope when Exposed to Reservoir Water Level Fluctuation Based on Fluid-Solid Coupling Theory

Xing Lin Wang; Zhen Hua Zhang; Qian Cheng Sun; Shao Jun Li

doi:10.4028/www.scientific.net/AMR.594-597.2446

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A Method to Determine the Optimal Water Injection Intensity Based on Oil Production Rate and Water Cut
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Deformation Module Dynamic Inversion of Xietan Sewage Treatment Plant Slope when Exposed to Reservoir Water Level Fluctuation Based on Fluid-Solid Coupling Theory
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 594-597Deformation Module Dynamic Inversion of Xietan...

Deformation Module Dynamic Inversion of Xietan Sewage Treatment Plant Slope when Exposed to Reservoir Water Level Fluctuation Based on Fluid-Solid Coupling Theory

Abstract:

This paper selects the Xietan sewage treatment plant slope as research object, used the fluid-solid coupling finite element analysis software (ABAQUS) and intelligent displacement back analysis method to dynamically inverse the deformation module of rock and soil of the slope when exposed to water level fluctuation. The results show that the calculation displacement values of measuring point which based on the inversion method is very close to that based on field measurement, which indicates the intelligent displacement back analysis method is suitable to dynamically inverse rock and soil physical and mechanical parameters of slope when exposed to reservoir water level fluctuation.

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Periodical:

Advanced Materials Research (Volumes 594-597)

Pages:

2446-2450

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.594-597.2446

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Online since:

November 2012

Authors:

Xing Lin Wang, Zhen Hua Zhang, Qian Cheng Sun, Shao Jun Li

Keywords:

Deformation Module, Fluid Solid Coupling, Intelligent Inversion Methods

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References

[1] Geological investigation & foundation construction company of Hubei Province: The engineering geological investigation report of XieTan sewage treatment plant slope of Zigui county of Hubei Province [R]. (Geological investigation & foundation construction company of Hubei Province, Wuhan 2009).

DOI: 10.17775/cseejpes.2018.01450

Google Scholar

[2] Liu handing, Jiang tong, Et Al: Rock mechanics parameter optimization theory and applications (Yellow River Conservancy Press, Zhengzhou, Henan 2006)

Google Scholar

[3] Fang kaitai, Ma changxin: The Orthogonal and uniform design. (Science Press, Beijing 2001).

Google Scholar

[4] Sheng qian: Excavation disturbed zone of deep cutting rock slopes and mechanics behavior of engineering rock mass.(Chinese Academy of Sciences, Graduate School Doctoral Dissertation Wuhan 2002).

Google Scholar

[5] Qi qinghe: Hydraulic structures (China Water & Power Press , Beijing 1986).

Google Scholar

[6] Zhang zhenhua: Study on dynamic warning method of bank slopes in deep-cut valley during the course of excavation. (Chinese Academy of Sciences, Graduate School Doctoral Dissertation, Wuhan 2008).

Google Scholar

[7] Zhang xin: based on fluid - solid coupling theory of ABAQUS Bank Landslide stability analysis (Shandong University master's thesis, Jinan 2005).

Google Scholar