Water Erosion and Extension of Ground Fissures in Weihe Basin Based on DEM-CFD Coupled Modeling

Wang, Fujiang; Wang, Feiyong; Gong, Xülong; Zhang, Yan; Li, Guoqing

doi:10.3390/w15132321

Cited by 3 publications

(1 citation statement)

References 30 publications

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“…In recent decades with the rapid development of computer technology, fluid simulation technology based on the DEM has become an important method for many researchers to study seepage or multiphase flow problems [17][18][19], which provides a powerful reference for the study of the microscopic mechanisms of fluid flow and other coupling problems [20][21][22]. At present, the fluid-structure coupling methods based on discrete element theory are mainly divided into the traditional computational fluid dynamics (CFD) method based on the Euler grid [23], the smooth particle fluid dynamics (SPH) method based on Lagrange particles [24], and the mesoscopic lattice Boltzmann method (LBM) [25]. The seepage problem in this study belongs to low-speed flow and laminar flow and does not need to consider turbulent flow.…”

Section: Introductionmentioning

confidence: 99%

Experimental and DEM-CFD Coupling Investigations on the Characteristics and Mechanism of Seepage Erosion for Cohesionless Soil

Su,

Dai,

Zhang

et al. 2023

Water

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Seepage erosion is one of the main reasons for the local collapse or instability of embankments. To investigate the characteristics and mechanism of seepage erosion for cohesionless soils, model tests using an independently developed seepage erosion device and numerical simulations based on a discrete element method-computational fluid dynamics (DEM-CFD) coupling model were carried out. The results show that the seepage erosion process of cohesionless soil could be characterized by four stages: stable seepage, upward migration of fine particles, boiling of sand samples, and erosion damage. The skeleton structure of a soil sample under seepage flow was continually changed due to the loss of fine soil particles, which resulted in a significant decrease in the sample strength and could, ultimately, lead to the failure of the sample. The results of this study can provide references and bases for the design, construction, and long-term service of embankments or earth dams under complex seepage conditions, reducing the risk of seepage erosion.

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Section: Introductionmentioning

confidence: 99%

Experimental and DEM-CFD Coupling Investigations on the Characteristics and Mechanism of Seepage Erosion for Cohesionless Soil

Su,

Dai,

Zhang

et al. 2023

Water

View full text Add to dashboard Cite

show abstract

Experimental and Numerical Studies of Water–Sand Flow in Fractured Porous Media

Li,

Liu,

et al. 2024

Rock Mech Rock Eng

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Experimental and DEM-CFD coupling investigations on the characteristics and mechanism of seepage erosion for cohesionless soil

Shen¹,

Dai²,

Ting³

et al. 2023

Preprint

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Seepage erosion is one of the main reasons for the local collapse or instability of embankments. To investigate the characteristics and mechanism of seepage erosion for cohesionless soils, the model tests by using an independently developed seepage erosion device and the numerical simulations based on the Discrete Element Method-Computational Fluid Dynamics (DEM-CFD) coupling model were carried out. The results show that the seepage erosion process of the cohesionless soil can be characterized by four stages: stable seepage stage, fine particles upward migration stage, sand samples boiling stage, and erosion damage stage. The skeleton structure of soil sample under seepage flow is continually changed due to the loss of fine soil particles, which results in a significant decrease in the sample strength and may ultimately lead to the failure of the sample. The results of this study can provide references and bases for the design, construction, and long-term service of embankments or earth dams under the complex seepage condition, reducing the risk of seepage erosion.

show abstract

Water Erosion and Extension of Ground Fissures in Weihe Basin Based on DEM-CFD Coupled Modeling

Cited by 3 publications

References 30 publications

Experimental and DEM-CFD Coupling Investigations on the Characteristics and Mechanism of Seepage Erosion for Cohesionless Soil

Experimental and DEM-CFD Coupling Investigations on the Characteristics and Mechanism of Seepage Erosion for Cohesionless Soil

Experimental and Numerical Studies of Water–Sand Flow in Fractured Porous Media

Experimental and DEM-CFD coupling investigations on the characteristics and mechanism of seepage erosion for cohesionless soil

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