Three-dimensional numerical modeling of the temporal evolution of backward erosion piping

Backward erosion piping (BEP) is a complex degradation mechanism in geotechnical flood protection infrastructure (GFPI) that is still relatively less understood, particularly when considering its time-dependent features. This manuscript presents a novel dual random lattice modeling approach for thre...

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Published in:Computers and geotechnics Vol. 171; p. 106381
Main Authors: Wang, Zhijie, Oskay, Caglar, Fascetti, Alessandro
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.07.2024
Subjects:
Backward erosion piping
Computational algorithm
Constitutive law
Numerical modeling
Time evolution
Numerical modeling
Time evolution
Constitutive law
Backward erosion piping
Computational algorithm
ISSN:0266-352X
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Abstract Backward erosion piping (BEP) is a complex degradation mechanism in geotechnical flood protection infrastructure (GFPI) that is still relatively less understood, particularly when considering its time-dependent features. This manuscript presents a novel dual random lattice modeling approach for three-dimensional simulation of BEP, with a focus on its evolution over time. The key novelty of this presented framework is twofold: (1) we propose and incorporate a novel constitutive relationship for computation of time-dependent soil erosion based on the theory of rate processes, and (2) we devise an algorithm for calculation of coupled degradation of the dual lattices for accurate computation of 3-D hydraulic gradients. The constitutive relationship was developed from fundamental granular physics, and brings the potential to provide deeper fundamental physical understanding of the phenomenon. The capabilities of the modeling framework are investigated by comparison with available laboratory experiments which illustrates good agreement in the spatial advancement of piping erosion, pipe progression speeds, as well as the evolution of local gradients. To the best knowledge of the authors, the presented model is the first to be able to capture all of the aforementioned features when simulating BEP.
AbstractList Backward erosion piping (BEP) is a complex degradation mechanism in geotechnical flood protection infrastructure (GFPI) that is still relatively less understood, particularly when considering its time-dependent features. This manuscript presents a novel dual random lattice modeling approach for three-dimensional simulation of BEP, with a focus on its evolution over time. The key novelty of this presented framework is twofold: (1) we propose and incorporate a novel constitutive relationship for computation of time-dependent soil erosion based on the theory of rate processes, and (2) we devise an algorithm for calculation of coupled degradation of the dual lattices for accurate computation of 3-D hydraulic gradients. The constitutive relationship was developed from fundamental granular physics, and brings the potential to provide deeper fundamental physical understanding of the phenomenon. The capabilities of the modeling framework are investigated by comparison with available laboratory experiments which illustrates good agreement in the spatial advancement of piping erosion, pipe progression speeds, as well as the evolution of local gradients. To the best knowledge of the authors, the presented model is the first to be able to capture all of the aforementioned features when simulating BEP.
ArticleNumber 106381
Author Fascetti, Alessandro
Oskay, Caglar
Wang, Zhijie
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  surname: Wang
  fullname: Wang, Zhijie
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  organization: Department of Civil and Environmental Engineering, University of Pittsburgh, 3700 O’Hara Street, Pittsburgh, 15261, PA, USA
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  givenname: Caglar
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  surname: Oskay
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  givenname: Alessandro
  orcidid: 0000-0003-4289-5909
  surname: Fascetti
  fullname: Fascetti, Alessandro
  email: fascetti@pitt.edu
  organization: Department of Civil and Environmental Engineering, University of Pittsburgh, 3700 O’Hara Street, Pittsburgh, 15261, PA, USA
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Keywords Numerical modeling
Time evolution
Constitutive law
Backward erosion piping
Computational algorithm
Language English
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Snippet Backward erosion piping (BEP) is a complex degradation mechanism in geotechnical flood protection infrastructure (GFPI) that is still relatively less...
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StartPage 106381
SubjectTerms Backward erosion piping
Computational algorithm
Constitutive law
Numerical modeling
Time evolution
Title Three-dimensional numerical modeling of the temporal evolution of backward erosion piping
URI https://dx.doi.org/10.1016/j.compgeo.2024.106381
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