Study of the transportation behavior of nanoparticles through low‑porosity sand pack in the absence and presence of oil

Nanoparticles exhibit unique physical properties and chemical properties and hence have received much attention from scientists and researchers in different areas of biological sciences. Nanoparticles are employed in a wide range of applications causing large quantities of these materials to be rele...

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Main Authors: Mohd Zulkifli, Mohamad Noor, Chin, I. L. Y, Irawan, S.
Format: Article
Language:English
Published: Springer Verlag 2019
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Online Access:http://umpir.ump.edu.my/id/eprint/24892/1/Study%20of%20the%20transportation%20behavior%20of%20nanoparticles.pdf
http://umpir.ump.edu.my/id/eprint/24892/
https://doi.org/10.1007/s13202-019-0664-3
https://doi.org/10.1007/s13202-019-0664-3
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Summary:Nanoparticles exhibit unique physical properties and chemical properties and hence have received much attention from scientists and researchers in different areas of biological sciences. Nanoparticles are employed in a wide range of applications causing large quantities of these materials to be released into the environment. Yet, issues related to how and where these particles are released into the porous media still remain as major challenges. The objective of this research is directed toward the study of oxide nanoparticles transport in low-porosity sand pack and determine the distance transport by the nanoparticles in the absence and presence of oil. The nanopowders were dispersed in de-ionized water, and the horizontal column was packed with low-porosity sand (30–40% porosity) of the size of 500 µm. This experiment was carried out with four different pore volume of nanoparticle suspensions ranging from 0.25 to 1.0 PV. The column effluents were analyzed using atomic absorption spectroscopy to determine the morphology of the elements existed in the effluents. The resistivity of four different sections (metal rod 1,2, metal rod 2,3, metal rod 3,4 and metal rod 1,4) were measured using a multimeter. The transport of nanoparticles was the smoothest in paraffin oil, followed by water. In the absence of paraffin oil, the conductivity and resistivity value in water were 0.022 S/m and 44.90 Ω m, respectively, after 1.0 PV injection. In the presence of paraffin oil, the conductivity and resistivity reading were 0.026 S/m and 38.66 Ω m, respectively, after 1.0 PV injection. This indicated that the transport of nanoparticles in the presence of oil had lower resistance compared to the resistance in the absence of oil and thus, the distance transported by nanoparticles in the presence of oil was longer compared to the distance transported in the absence of oil.