Hydraulic conductivity and leachate removal rate of genetically different compacted clays

Oyediran, Ibrahim Adewuyi; Olalusi, David Ayodele

doi:10.1007/s41062-017-0097-0

Cited by 9 publications

(6 citation statements)

References 42 publications

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“…Badv and Omidi (2007) explained that increase in permeability may be due to the contraction of double layer and increased pore spacing resulting from the adsorption of divalent cations into the soil matrix. Compaction of the soil may have engendered cracking of the weak substrate of the soil resulting in the formation of new macro pores with high permeability (Oyediran and Olalusi, 2017). Also, the dissolution of clay minerals in the soil by crude oil as the pore water is replaced by crude oil may also have led to increase in pore spaces, hence increase in The variation of Quartz and Kaolinite in the presence of crude oil in the soil resulted in an inverse relationship.…”

Section: Discussionmentioning

confidence: 99%

Variations in geotechnical characteristics of some crude oil contaminated soils

Oyediran¹,

Enya²

2020

Glo Jnl Geo Sci

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Variations based on the effects of curing time and environmental exposures on the geotechnical characteristics of some crude oil contaminated soils were investigated. 2 to 10% by weight of crude oil was added to soils as a simulation of contamination. The contaminated soils were cured under room temperature (unexposed) as well as outside in the open air (exposed) for 21, 63 and 189 days. Geotechnical, geochemical and mineralogical analyses were carried out on the contaminated and uncontaminated soil samples. Results indicate that for the unexposed soils, the LL and PL increased as crude oil concentration (COC) increased up to 4%, above which both decrease. But the reverse was the case for PI after curing for 21 days. With increasing curing time to 63 and 189 days, LL and PL both increased with increase in COC while PI decreased. The UCS increased with increase in oil content up to 4%, but decreased as oil content increased above 4%. Furthermore, UCS decreased with increase in curing time. Across all curing periods, MDD increased upon addition of crude oil up to 4%, thereafter it decreased with increase in COC. The hydraulic conductivity decreased with increase in COC and curing time. For the exposed soils, LL, PL and PI all increased upon addition of crude oil up till 4% before decreasing as the amount of oil increased above 4% for the curing duration of 21 days. For 63 and 189 days, LL and PL decreased while PI increased. Maximum dry density (MDD) showed same variation trend in exposed soils similar to that shown by the unexposed soils. Hydraulic conductivity increased with increase in COC and curing time. Thus, crude oil is observed to be capable of altering the geotechnical properties of soils exposed to it. Furthermore, contaminated soils exposed to the open air and longer curing time were significantly modified than the unexposed variant and with reduced exposure time. Keywords: Geotechnical variation, Contamination, Curing environment, Curing time, Exposure

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Section: Discussionmentioning

confidence: 99%

Variations in geotechnical characteristics of some crude oil contaminated soils

Oyediran¹,

Enya²

2020

Glo Jnl Geo Sci

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“…As the moisture content of the smectite clay changes from dry to wet of optimum, some fabrics of the smectite clay particles tended to change from a flocculated to a dispersed arrangement because of compaction. Higher effective stress produced closer alignment of particles along the failure surface thereby, yielding a decrease in the voids that conducted flow thus, lowering the hydraulic conductivity at higher effective stress (Oyediran and Olalusi 2017). This smectite clay demonstrated a capacity to attenuate the movement of contaminants and prolong the release of a metal load-bearing contaminated water.…”

Section: Geotechnical Performance Of the Niger Delta Clay Interacted mentioning

confidence: 97%

Untitled

2020

AJS

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Mission ATINER is an Athens-based World Association of Academics and Researchers based in Athens. ATINER is an independent and non-profit Association with a Mission to become a forum where Academics and Researchers from all over the world can meet in Athens, exchange ideas on their research and discuss future developments in their disciplines, as well as engage with professionals from other fields. Athens was chosen because of its long history of academic gatherings, which go back thousands of years to Plato's Academy and Aristotle's Lyceum. Both these historic places are within walking distance from ATINER"s downtown offices. Since antiquity, Athens was an open city. In the words of Pericles, Athens"…is open to the world, we never expel a foreigner from learning or seeing". ("Pericles" Funeral Oration", in Thucydides, The History of the Peloponnesian War). It is ATINER"s mission to revive the glory of Ancient Athens by inviting the World Academic Community to the city, to learn from each other in an environment of freedom and respect for other people"s opinions and beliefs. After all, the free expression of one"s opinion formed the basis for the development of democracy, and Athens was its cradle. As it turned out, the Golden Age of Athens was in fact, the Golden Age of the Western Civilization. Education and (Re)searching for the "truth" are the pillars of any free (democratic) society. This is the reason why

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“…(2005), Meril (2014) and Dutta and Mishra (2016) believe that bentonite hydraulic conductivity increases with an increasing concentration of potentially toxic metals, such as Cu 2+ , Pb 2+ , Zn 2+ , in the solution. The authors (Arasan, 2010; Evangeline and John, 2010; Shariatmadari et al., 2011; Meril, 2014; Lu et al., 2015; Kobayashi et al., 2017; Oyediran and Olalusi, 2017; Li et al., 2019; Wang et al., 2019; Xu et al., 2019) agree as to the direction of changes in hydraulic conductivity of bentonites after exposure to landfill leachates, such as NaCl, KCl, CaCl 2 , MgCl 2 , ZnCl 2 , CuCl 2 , HCl, HNO3, NH 4 Cl, CH 3 COOH. Generally, the value of hydraulic conductivity increases.…”

Section: Introductionmentioning

confidence: 99%

Assessment of the influence of copper and zinc on the microstructural parameters and hydraulic conductivity of bentonites on the basis of SEM tests

Nartowska

Kozłowski

Gawdzik

2019

Heliyon

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The aim of this study was to determine the influence of potentially toxic metals, such as Cu 2þ and Zn 2þ ions, on the microstructural parameters of bentonites and their hydraulic conductivity (K), calculated based on the empirical formulas for clays according to Hazen-Tkaczukowa (formula 1 based on granulometric parameters) and Kozłowski et al., (2011) (formula 2 based on microstructural parameters). Metal ions influence the microstructure changes of bentonites, which can lead to changes in the geotechnical parameters that are used in empirical K formulas. The research was carried out on model clays (SWy-3, Stx-1b and Slovak bentonite), which were modified by introducing Cu 2þ or Zn 2þ ions into the structure. A significant dependence was observed between an increase in the Cu 2þ ion content in clay and an increase in the pore area. Therefore, the value of the hydraulic conductivity was estimated with the use of formula 2, which proved to be a useful tool for determining hydraulic conductivity in the case of bentonites contaminated with Cu 2þ ions. In contrast, the effect of Zn 2þ ions on the granulometric parameters was significant, and formula 1 proved to be useful tool for determining hydraulic conductivity in the case of bentonites contaminated with Zn 2þ ions. The results showed that the behavior of bentonites saturated with Cu 2þ and Zn 2þ ions differed. Therefore, the authors believe that the empirical formulas of the hydraulic conductivity of the clays saturated with potentially toxic metals should be based on the selected clay parameters dependent upon the nature of the ion.

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Hydraulic conductivity and leachate removal rate of genetically different compacted clays

Cited by 9 publications

References 42 publications

Variations in geotechnical characteristics of some crude oil contaminated soils

Variations in geotechnical characteristics of some crude oil contaminated soils

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Assessment of the influence of copper and zinc on the microstructural parameters and hydraulic conductivity of bentonites on the basis of SEM tests

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