Comparison of Coupled and Uncoupled Consolidation Equations Using Finite Element Method in Plane-Strain Condition

Baqersad, Mohamadtaqi; Haghighat, Abbas Eslami; Rowshanzamir, Mohammadali; Bak, Hamid Mortazavi

doi:10.28991/cej-2016-00000042

Cited by 17 publications

(5 citation statements)

References 13 publications

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“…Numerical modelling follows Biot's consolidation theory that extends Terzaghi's consolidation theory by incorporating the effect of the deformation of the solid skeleton of the porous medium on the consolidation process. Biot consolidation theory allows the coupling between the solid deformation and fluid flow, with the assumptions of fully saturated, homogenous soil, seepage flow is governed by Darcy's law, small strain and poroelastic model apply [27]. The analytical and numerical analyses follow the geometry in Figure 2.…”

Section: ∆𝜎𝜎 ′ = ∆𝑢𝑢mentioning

confidence: 99%

Predictive Modelling of Land Subsidence Due to Groundwater Level Decline in Gedebage District, Bandung, Indonesia

Sarah,

Soebowo,

Satriyo

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

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The Gedebage district in Bandung city has experienced a vast physical development in recent years. Previous geodetic studies showed that the area undergoes high-rate land subsidence. The subsurface soil of the Gedebage area has remarkably high compressibility, void ratio, and water content. A thick sequence of soft organic clay of 20-27 m exists, making the area prone to subside. As the district continues to develop, it is important to predict the future rate of land subsidence in the area. This paper aims to analyze the contribution of groundwater exploitation to the land subsidence rate. A combination of 1-dimensional Terzaghi consolidation analytical analysis and numerical modeling was employed in this study. Groundwater level data up to 2015 was used, and hydrostatic condition was assumed to occur in 1986. Results show that the Gedebage area has subsided as much as 161 cm since 1986. Modeling results are consistent with geodetic survey results. It is predicted that the land subsidence will slow down in the next 40 years, provided that the groundwater level remains stable.

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Section: ∆𝜎𝜎 ′ = ∆𝑢𝑢mentioning

confidence: 99%

Predictive Modelling of Land Subsidence Due to Groundwater Level Decline in Gedebage District, Bandung, Indonesia

Sarah,

Soebowo,

Satriyo

et al. 2023

IOP Conf. Ser.: Earth Environ. Sci.

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“…Both triangular elements and tetrahedral elements are compatible with complex geometry. A structured grid is easy to develop in simple geometry [18]. It needs less time and memory to resolve.…”

Section: Geometrymentioning

confidence: 99%

Flow Simulation and Energy Loss Estimation in the Nappe Flow Regime of Stepped Spillways with Inclined Steps and End Sill: A Numerical Approach

2016

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Recently, the usage of stepped spillways, as energy dissipaters, has increased and led to a reduction in the size of the stilling basin. Extensive experimental considerations, plus the high cost and extended time required for laboratory methods, are among the major issues that require precise attention to determine optimal step design. This research deals with comparing the 2-D numerical simulation and experimental description in stepped spillways equipped with inclined steps and end sill together and presents a brisk, reliable, low-cost, and non-experimental approach to designing the steps. In this new type and complicated geometry, simulation is more complicated than horizontal steps, because it needs more accuracy around the end sills. The VOF Method and the k-ε standard turbulence model are proposed to simulate the flow pattern and evaluate the energy loss over stepped spillway. Energy dissipations obtained through the numerical approach have been compared with laboratory measurements and demonstrate reasonable agreement. Also, the flow pattern, velocity vectors and flow direction resulted from numerical simulation is in a good agreement with the experimental results.

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“…Characteristic of asphalt material impacts on asphalt quality and driving safety [1]. Segregation of aggregates alters material properties and accelerates deterioration's rate [2,3]. Pavement segregation is one of the main concerns affecting the performance of asphalt pavements.…”

Section: Introductionmentioning

confidence: 99%

Asphalt Mixture Segregation Detection: Digital Image Processing Approach

Baqersad

Hamedi

Mohammadafzali

et al. 2017

Advances in Materials Science and Engineering

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Segregation determination in the asphalt pavement is an issue causing many disputes between agencies and contractors. The visual inspection method has commonly been used to determine pavement texture and in-place core density test used for verification. Furthermore, laser-based devices, such as the Florida Texture Meter (FTM) and the Circular Track Meter (CTM), have recently been developed to evaluate the asphalt mixture texture. In this study, an innovative digital image processing approach is used to determine pavement segregation. In this procedure, the standard deviation of the grayscale image frequency histogram is used to determine segregated regions. Linear Discriminate Analysis (LDA) is then implemented on the obtained standard deviations from image processing to classify pavements into the segregated and nonsegregated areas. The visual inspection method is utilized to verify this method. The results have demonstrated that this new method is a robust tool to determine segregated areas in newly paved FC9.5 pavement types.

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Comparison of Coupled and Uncoupled Consolidation Equations Using Finite Element Method in Plane-Strain Condition

Cited by 17 publications

References 13 publications

Predictive Modelling of Land Subsidence Due to Groundwater Level Decline in Gedebage District, Bandung, Indonesia

Predictive Modelling of Land Subsidence Due to Groundwater Level Decline in Gedebage District, Bandung, Indonesia

Flow Simulation and Energy Loss Estimation in the Nappe Flow Regime of Stepped Spillways with Inclined Steps and End Sill: A Numerical Approach

Asphalt Mixture Segregation Detection: Digital Image Processing Approach

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