Two compaction energies, the Reduced British Standard Light (RBSL) and British Standard Heavy (BSH) covering a wide range of compactive efforts were used to investigate the variations in the hydraulic conductivity with compactive effort and bentonite content for sand-bentonite mixes. In this study the Patani sand from South-South Niger Delta, Nigeria was mixed with bentonite at varying percentages of 0%, 2.5%, 5.0%, 7.5%, and 10% by weight of sand. The index properties of the Patani sand are; Specific Gravity - 2.65, fines content (<0.075mm) -4.65%, and SiO_2 content - 97.01%. The bentonite has fines content (<0.075mm) of 83.5%, Liquid limit of 176.4% and Plasticity Index of 115.3%. Test results indicate that hydraulic conductivity (k) of mixtures decreased by three orders of magnitude from 3.919×10~(-7)m/s to 3.792 ×10~(-10) m/s with increasing of bentonite content from 0% to 10% under the RBSL compaction, and from 3.704×10 ~(-7) m/s to 2.700 ×10~(-10) m/s with increasing of bentonite content from 0% to 10% under the BSH compaction. The hydraulic conductivity values at 5% bentonite content of 7.518×10 ~(-9) m/s and 5.673 ×10~(-9) m/s for RBSL and BSH compaction satisfied the specification of hydraulic conductivity, k ≤ 1×10~(-9)m/sec for landfill liners by the United States Environmental Protection Agency. Mixing sand with appropriate bentonite contents and adequate compaction yielded a sand-bentonite mixture having low hydraulic conductivity that could be useful as a hydraulic barrier/waste containment liner for the Niger Delta coastal areas.
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