Improvement of Hole Erosion Test and Results on Reference Soils

AbstractUnderstanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and surface erosion of embankments during storms and floods. It is particularly useful to be able to evaluate the sensitivity of the available soils...

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Published inJournal of geotechnical and geoenvironmental engineering Vol. 139; no. 2; pp. 330 - 339
Main Authors Haghighi, Iman, Chevalier, Christophe, Duc, Myriam, Guédon, Sylvine, Reiffsteck, Philippe
Format Journal Article
LanguageEnglish
Published Reston, VA American Society of Civil Engineers 01.02.2013
Subjects
Applied sciences
Buildings. Public works
Control surfaces
Engineering Sciences
Erosion
Erosion rate
Exact sciences and technology
Flood predictions
Geotechnics
Hydraulic constructions
Port facilities and coastal structures. Lighthouses and beacons
Recording
Risk assessment
Soil erosion
Soil investigations. Testing
Soil water
Technical Papers
Levees
Hole
Soil erosion
Experimental study
Modeling
Laboratory tests
Suspended particle
Suspended solids
Shear stress
Laboratory test
Holes
Levees and dikes
Dikes
Piping erosion
Dike
CE Database subject headings: Soil erosion
CE Database subject headings: Soil erosion Piping erosion Levees Laboratory tests Shear stress Suspended solids
Online AccessGet full text
ISSN1090-0241
1943-5606
DOI10.1061/(ASCE)GT.1943-5606.0000747

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Abstract AbstractUnderstanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and surface erosion of embankments during storms and floods. It is particularly useful to be able to evaluate the sensitivity of the available soils to erosion at an early stage of a project and the risk assessment of an existing earthwork. The presented study is based on laboratory tests with a hole erosion test apparatus and tries to characterize the internal erosion of soils. The test consists of eroding a drilled soil specimen by water flow with a constant pressure drop at the boundaries of the specimen while recording the flow rate and studying the hole enlargement. A new version of the apparatus with improved instruments and an interpretation method is proposed, estimating the erosion rate based on the turbidity of the outflow and independent of hydraulic charge. Several remolded kaolinite-sand mixtures are tested as reference soil textures, and the results are analyzed with the proposed and existing interpretation methods.
AbstractList Understanding the factors that control the transport of soil particles detached by water is essential to predict the contingency of internal and surface erosion of embankments during storms and floods. It is particularly useful to be able to evaluate the sensitivity of the available soils to erosion at an early stage of a project and the risk assessment of an existing earthwork. The presented study based on laboratory tests with Hole Erosion Test apparatus (HET) tries to characterize internal erosion of soils. The test consists of eroding a drilled soil specimen by water flow with a constant pressure drop at the boundaries of the specimen recording the flow rate and study the hole enlargement. A new version of the apparatus with improved instruments and interpretation method is proposed estimating the erosion rate based on the turbidity of the outflow and independent of hydraulic charge. Several remolded kaolinite-sand mixtures been tested as reference soil textures and the results are analyzed with the proposed and the existing interpretation methods.
AbstractUnderstanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and surface erosion of embankments during storms and floods. It is particularly useful to be able to evaluate the sensitivity of the available soils to erosion at an early stage of a project and the risk assessment of an existing earthwork. The presented study is based on laboratory tests with a hole erosion test apparatus and tries to characterize the internal erosion of soils. The test consists of eroding a drilled soil specimen by water flow with a constant pressure drop at the boundaries of the specimen while recording the flow rate and studying the hole enlargement. A new version of the apparatus with improved instruments and an interpretation method is proposed, estimating the erosion rate based on the turbidity of the outflow and independent of hydraulic charge. Several remolded kaolinite-sand mixtures are tested as reference soil textures, and the results are analyzed with the proposed and existing interpretation methods.
Understanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and surface erosion of embankments during storms and floods. It is particularly useful to be able to evaluate the sensitivity of the available soils to erosion at an early stage of a project and the risk assessment of an existing earthwork. The presented study is based on laboratory tests with a hole erosion test apparatus and tries to characterize the internal erosion of soils. The test consists of eroding a drilled soil specimen by water flow with a constant pressure drop at the boundaries of the specimen while recording the flow rate and studying the hole enlargement. A new version of the apparatus with improved instruments and an interpretation method is proposed, estimating the erosion rate based on the turbidity of the outflow and independent of hydraulic charge. Several remolded kaolinite-sand mixtures are tested as reference soil textures, and the results are analyzed with the proposed and existing interpretation methods.
Author Duc, Myriam
Reiffsteck, Philippe
Guédon, Sylvine
Haghighi, Iman
Chevalier, Christophe
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  givenname: Philippe
  surname: Reiffsteck
  fullname: Reiffsteck, Philippe
  organization: Université Paris-Est Senior Researcher, , IFSTTAR, GER, F-75732 Paris
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Issue 2
Keywords Levees
Hole
Soil erosion
Experimental study
Modeling
Laboratory tests
Suspended particle
Suspended solids
Shear stress
Laboratory test
Holes
Levees and dikes
Dikes
Piping erosion
Dike
CE Database subject headings: Soil erosion
CE Database subject headings: Soil erosion Piping erosion Levees Laboratory tests Shear stress Suspended solids
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Snippet AbstractUnderstanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and...
Understanding the factors that control the transport of soil particles detached by water is essential in predicting the contingency of internal and surface...
Understanding the factors that control the transport of soil particles detached by water is essential to predict the contingency of internal and surface...
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StartPage 330
SubjectTerms Applied sciences
Buildings. Public works
Control surfaces
Engineering Sciences
Erosion
Erosion rate
Exact sciences and technology
Flood predictions
Geotechnics
Hydraulic constructions
Port facilities and coastal structures. Lighthouses and beacons
Recording
Risk assessment
Soil erosion
Soil investigations. Testing
Soil water
Technical Papers
Title Improvement of Hole Erosion Test and Results on Reference Soils
URI http://ascelibrary.org/doi/abs/10.1061/(ASCE)GT.1943-5606.0000747
https://www.proquest.com/docview/1855079042
https://www.proquest.com/docview/1864557265
https://univ-eiffel.hal.science/hal-04821714
Volume 139
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