Fully coupled elastoplastic hydro‐mechanical analysis of unsaturated porous media using a meshfree method

Ghaffaripour, Omid; Esgandani, Golnaz Alipour; Khoshghalb, Arman; Shahbodagh, Babak

doi:10.1002/nag.2931

Cited by 46 publications

(17 citation statements)

References 114 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, the procedure to calculate the effective stress is explained here for the sake of completeness, and to be used when the soil of interest contains a considerable amount of fines. To this end, the method of effective stress (Khalili 2004;Ghaffaripour et al 2019) is used, in which in the unsaturated region of the soil we have,…”

Section: Effective Stress Calculation Above the Water Tablementioning

confidence: 99%

Investigation of the geotechnical properties and estimation of the relative density from the standard penetration test in sandy soils (Case study: north east of Iran)

Amini

Khoshghalb²,

Etemadifar

2021

Preprint

Self Cite

View full text Add to dashboard Cite

In the present research, SPT results are adopted to establish relationships for estimation of the relative density in a sandy soil. SPTs are performed in 20 boreholes in Astaneh-ye Ashrafiyeh city in Iran. Laboratory tests including mineralogy, relative density, soil gradation, Atterberg limits, and unit weight were performed on the soil samples. The SPT numbers were then properly corrected. In particular, the correct procedure for correction of the SPT number against the existing overburden effective stress is discussed when the SPT is performed in the vadose zone where the soil may be unsaturated. The soil in the study area is dominantly classified as SP-SM. The relationship between the relative density as one of the most important parameters for dominantly granular soils, with the corrected SPT number (N 1(60) ) and fines content is then investigated and discussed using artificial neural network and statistical analysis. Results showed that for the soil of interest, the developed relationship performs better than those established in the literature, hence demonstrating the value of developing locally tuned relationships for important projects.

show abstract

Section: Effective Stress Calculation Above the Water Tablementioning

confidence: 99%

Investigation of the geotechnical properties and estimation of the relative density from the standard penetration test in sandy soils (Case study: north east of Iran)

Amini

Khoshghalb²,

Etemadifar

2021

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…It plays a critical role in unsaturated soil mechanics, 19–26 and significantly influences oil recovery predictions 27,28 . The solid deformation is intricately coupled with fluid pressures via nonlinear constitutive laws 29–33 relating the capillary pressure to degree of saturation. In some cases, the constitutive law may even display hysteresis with respect to wetting and drying 34 .…”

Section: Introductionmentioning

confidence: 99%

“…Modeling multiphase poromechanics with capillarity requires the solution of a coupled system of nonlinear algebraic equations 31,44–49 . Here, we consider fully‐implicit methods in which all governing variables are updated simultaneously.…”

Section: Introductionmentioning

confidence: 99%

Preconditioners for multiphase poromechanics with strong capillarity

Camargo

White

Castelletto

et al. 2021

Num Anal Meth Geomechanics

View full text Add to dashboard Cite

This paper aims to enhance the performance of Newton–Krylov solvers for coupled poromechanical problems with two‐phase flow. In particular, we investigate the impact of capillary pressure on preconditioning strategies. Capillarity complicates the coupling between the solid deformation and fluid pressure degrees of freedom, as well as increases the nonlinearity of the system. Depending on the capillary pressure relation used in the constitutive formulation, the flow equations may exhibit a spectrum of advection‐dominated to diffusion‐dominated behavior. We propose preconditioning approaches that account for this behavior and lead to robust numerical performance within a broad range of regimes.

show abstract

“…The field-scale applications of the water flow and solute transport models, and calculations of soil available water content, a widely used parameter in agronomic models, is greatly facilitated by the development of PTFs. The SWRC provides critical information about the soil moisture dynamics ("movement", "flow" and "transport") in unsaturated soils and has a wide range of applications including estimation of field capacity and soil available water [2], hydraulic conductivity [3], horizontal and vertical infiltration [4], and modeling-related problems in porous media [5,6].…”

Section: Introductionmentioning

confidence: 99%

Developing Pseudo Continuous Pedotransfer Functions for International Soils Measured with the Evaporation Method and the HYPROP System: I. The Soil Water Retention Curve

Singh

Haghverdi

Öztürk

et al. 2020

Water

View full text Add to dashboard Cite

Direct measurements of soil hydraulic properties are time-consuming, challenging, and often expensive. Therefore, their indirect estimation via pedotransfer functions (PTFs) based on easily collected properties like soil texture, bulk density, and organic matter content is desirable. This study was carried out to assess the accuracy of the pseudo continuous neural network PTF (PCNN-PTF) approach for estimating the soil water retention curve of 153 international soils (a total of 12,654 measured water retention pairs) measured via the evaporation method. In addition, an independent data set from Turkey (79 soil samples with 7729 measured data pairs) was used to evaluate the reliability of the PCNN-PTF. The best PCNN-PTF showed high accuracy (root mean square error (RMSE) = 0.043 cm3 cm−3) and reliability (RMSE = 0.061 cm3 cm−3). When Turkish soil samples were incorporated into the training data set, the performance of the PCNN-PTF was enhanced by 33%. Therefore, to further improve the performance of the PCNN-PTF for new regions, we recommend the incorporation of local soils, when available, into the international data sets and developing new sets of PCNN-PTFs.

show abstract

Fully coupled elastoplastic hydro‐mechanical analysis of unsaturated porous media using a meshfree method

Cited by 46 publications

References 114 publications

Investigation of the geotechnical properties and estimation of the relative density from the standard penetration test in sandy soils (Case study: north east of Iran)

Investigation of the geotechnical properties and estimation of the relative density from the standard penetration test in sandy soils (Case study: north east of Iran)

Preconditioners for multiphase poromechanics with strong capillarity

Developing Pseudo Continuous Pedotransfer Functions for International Soils Measured with the Evaporation Method and the HYPROP System: I. The Soil Water Retention Curve

Contact Info

Product

Resources

About