Shrinkage behaviour of landfill clay liner materials in dry zone

Priyankara, N. H.; Thenuwara, Tate; Kawamoto, Ken; Alagiyawanna, A. M. N.

doi:10.3208/jgssp.lka-02

Cited by 3 publications

(3 citation statements)

References 4 publications

(2 reference statements)

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“…ber can result in a decrease in the CIF value (Priyankara et al, 2016). Adding coconut ber to composites containing expansive soils can reduce the development potential of the soil.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, a 5% coconut ber mixture was used in this study. This percentage was chosen following Priyankara et al (Priyankara et al, 2016), who examine variations in CIF using 10% bentonite and 5% coconut ber resulting in a reduced CIF value due to the presence of coconut ber breaking the soil specimen into reduced lumps. A total of six variations were used which are presented in Table 2.…”

Section: Sample Preparationmentioning

confidence: 99%

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Investigation into the cracking potential of different composite liners under wetting-drying cycles

Puspita,

Budihardjo,

Samadikun

2023

Preprint

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The formation of cracks in compacted clay liners used as landfill liners creates a preferential pathway for water flow and pollutant transport, resulting in polluted soil and an increase in the hydraulic conductivity of the soil. The desiccation crack intensity in six variations in the materials of clay soil commonly used for landfill liner was studied using the wetting-drying cycle method and analyzed using crack intensity factor (CIF) values for 15 days with observations every 8 hours; the crack intensity was identified based on color sensitivity using MATLAB R2018b software. The results indicate that the more bentonite clay there is in the soil, the higher its CIF value becomes because bentonite has a high plasticity index. Adding lime and coconut fiber is associated with a lower CIF, and higher plastic and liquid limits are associated with higher CIF values. The CIF pattern identified in the soil variations (V1 to V6) shows that the highest CIF value is in V4 (4.11%), and the lowest CIF value is in V3 (0.0138%), with the reduction of CIF in two groups of clayey soils (A1 and A2) during the experiment was over A1 (10%) and A2 (16%). According to the results of this study, desiccation cracking testing on soil using the wetting-drying cycle method using CIF values analyzed every 8 hours is promising for characterizing environmental conditions with accurate observations.

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“…ber can result in a decrease in the CIF value (Priyankara et al, 2016). Adding coconut ber to composites containing expansive soils can reduce the development potential of the soil.…”

Section: Resultsmentioning

confidence: 99%

Section: Sample Preparationmentioning

confidence: 99%

Investigation into the cracking potential of different composite liners under wetting-drying cycles

Puspita,

Budihardjo,

Samadikun

2023

Preprint

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“…In this study, the incorporation of additional materials, such as coconut fiber, was able to control shrinkage cracking; therefore, coconut fiber was selected as a composite material to determine the optimal blend of materials that could be employed in the landfill leachate retention layer system. According to Priyankara et al (2016), the incorporation of coconut husk into soil mixtures reduces the plasticity properties of the soil, and soil volume changes caused by cracks can be minimized and controlled [16]. In addition, conducted a similar study using fly ash, bentonite, and 1% quicklime at bentonite concentrations of 0% (FAB0), 15% (FAB15), 20% (FAB20), and 25% (FAB25) [17].…”

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confidence: 99%

Evaluating Coconut Fiber and Fly Ash Composites for Use in Landfill Retention Layers

2023

Global NEST: The International Journal

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<p>This study utilized a series of experimental tests, including the Atterberg limit, standard Proctor, permeability, and direct shear tests. Three composites were investigated: 85% fly ash-10% bentonite (V1), 90% fly ash-5% bentonite (V2), and 95% fly ash-0% bentonite (V3). All composites contained 5% coconut fiber. The plasticity index (PI) increased significantly from 19.10% to 22.15%, with a change in bentonite content from 0% to 10%. All composite met the landfill liner plasticity index standards. The permeability values were low and satisfied local criteria, namely 1.052 x 10-5 (V1), 1.260 x 10-5 (V2), and 1.394 x 10-5 (V3). Composite V2 has the best value with a cohesion value of 55 kPa and a shear angle of 22°.Therefore, composite V3 was the most promising composite as an alternative covering material for landfills because it has the lowest atterberg limits results, the lowest OMC, and the results from the direct shear test that meet the criteria even though it is not the best result among the three variations. However, by supporting the OMC value and good plasticity, the V3 composite was chosen. This study is beneficial and valuable in the engineering, selection, and design of materials used for the construction of landfill liners. .</p>

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Desiccation and crack behavior of modified waste materials–clay mixture as landfill liner: a systematic review

Puspita,

Budihardjo,

Samadikun

2024

Int. J. Environ. Sci. Technol.

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Shrinkage behaviour of landfill clay liner materials in dry zone

Cited by 3 publications

References 4 publications

Investigation into the cracking potential of different composite liners under wetting-drying cycles

Investigation into the cracking potential of different composite liners under wetting-drying cycles

Evaluating Coconut Fiber and Fly Ash Composites for Use in Landfill Retention Layers

Desiccation and crack behavior of modified waste materials–clay mixture as landfill liner: a systematic review

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