The permeability of natural fibre drains, capturing their micro-features

Nguyên, Thanh Trung; Indraratna, Buddhima

doi:10.1680/jgrim.16.00032

Cited by 12 publications

(5 citation statements)

References 49 publications

(85 reference statements)

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“…A composite of natural fibres such as fibre bundles and bands can have a significantly large porosity with relatively strong resistance to compression, making them effectively deliver pore water [33,34]. This is why the use of natural fibres to create fibre drains (also known as biodegradable BPVDs) has attracted significant interest with considerable success in practice.…”

Section: Concepts and Mechanismmentioning

confidence: 99%

Natural Fibre for Geotechnical Applications: Concepts, Achievements and Challenges

Nguyên

Indraratna

2023

Sustainability

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Enhancing the use of natural fibre for geotechnical purposes has attracted greater attention in the past decade, mainly because of the tangible benefits that this green approach would bring to our sustainable infrastructure developments. While this topic has been subjected to often sceptical review or discussions, they usually focus on narrow aspects such as soil reinforcement, resulting in a lack of thorough assessment over different aspects and applications. The current paper hence aims to not only provide a more balanced review between theoretical concepts and practical perspectives, but also to link different functions of natural fibre that would facilitate design effectiveness. Three major geotechnical purposes of natural fibre in terms of the practice are identified and discussed, i.e., (i) soil reinforcement; (ii) enhanced drainage for soil consolidation; and (iii) filtration, separation and erosion controls. In these distinct applications, natural fibres, despite being used in different forms such as geotextiles, drains and individual fibres, often give significant contributions to improving soil structures, resulting in greater stabilization of the entire system. The key unique feature of natural fibres is their ability to generate biological bonding with soil media (i.e., biodegradation associated with reinforcement), while substantially improving the tensile strength of the soil structure, thus providing larger resistance to mud pumping, liquefaction, internal instability and erosion. Apart from successful findings and applications in practice, main challenges that are currently hampering the wider application of natural fibres will be addressed in this paper.

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Section: Concepts and Mechanismmentioning

confidence: 99%

Natural Fibre for Geotechnical Applications: Concepts, Achievements and Challenges

Nguyên

Indraratna

2023

Sustainability

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“…In this approach, the determination of the Kozeny constant is the most controversial issue because it is mainly influenced by the geometric characteristics of porous media, which are hard to define. A number of studies have investigated the relationship between Kozeny constant and porosity, fiber diameter or tortuosity [74][75][76][77][78][79].…”

Section: Gas Transfer In Slip-flow and Rarefied Regime In Filtersmentioning

confidence: 99%

Low pressure gas transfer in fibrous media with progressive infiltration: correlation between different transfer modes

Charles

Descamps

Vignoles

2022

International Journal of Heat and Mass Transfer

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“…Limitations of the different relationships for permeability estimations can be found in these and other works (Gao et al 2019;Toumpanou et al 2021). Kozeny-Carman equation has gone far beyond the theoretical condition that it was supposed to be (see Costa 2006;Nguyen and Indraratna 2017).…”

Section: Including Porosity In Permeability Estimationmentioning

confidence: 99%

New granulometric expressions for estimating permeability of granular drainages

Díaz-Curiel

Miguel²,

Biosca

et al. 2022

Bull Eng Geol Environ

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This paper describes a new formulation for estimating the permeability of drainages composed of natural sands with no clay content, starting from the parameters obtained from the grain size distribution. The conventional relationships for estimating permeability are functions of granulometric factors and porosity. However, for media typically used as drainage, the grain size grading is a determinant factor, so the porosity dependence can be replaced by a function of the average grain size and grading. The methodology used in this study consists of fitting a set of measured permeability values to a joint expression of the average grain size and the granulometric grading coefficient. To this end, a new effective diameter that can be obtained numerically and graphically is defined, and the permeability relationship is solely dependent on this diameter. To estimate later changes in drainage packing and the consequent variations in porosity, a contrasting modification of the Kozeny–Carman equation is established. This equation considers the grain size grading and is applicable to any granular media.

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The permeability of natural fibre drains, capturing their micro-features

Cited by 12 publications

References 49 publications

Natural Fibre for Geotechnical Applications: Concepts, Achievements and Challenges

Natural Fibre for Geotechnical Applications: Concepts, Achievements and Challenges

Low pressure gas transfer in fibrous media with progressive infiltration: correlation between different transfer modes

New granulometric expressions for estimating permeability of granular drainages

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