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W3008060096 endingPage "112765" @default.
W3008060096 startingPage "112765" @default.
W3008060096 abstract "Single-step silica nanofluids offer better stability and size-control due to less nanoparticle (NP) agglomeration. Uniform distribution and desired size of NP make nanofluid a rheologically modified fluid to be suitable for carbon utilization applications. Thus, in this work, single-step (sol-gel) technique is used to prepare silica nanofluids of different particle sizes (34–142 nm) in base of polyacrylamide (PAM, 1000 ppm). These nanofluids was tested for CO2 capturing applications using rheological measurements (shear and dynamic) as a function of different conditions [particle concentration = 0.1, 0.5, and 1 wt% and temperature = 303, 323, and 353 K]. Increasing particle size was found to affect rheological properties insignificantly while increasing particle concentration led to increment in viscosity and viscoelastic moduli (elastic: G′ and viscous: G″), good for nanofluid usage in oilfield practices where improved viscosity is required for higher oil recovery. The inclusion of CO2 made nanofluid lighter and thus, viscosity and moduli values slightly reduced for CO2 laden nanofluids. The effect of high temperature (353 K) on capturing potential of nanofluids was found marginal as viscosity and viscoelastic properties and their flow trends remained almost similar at each test temperature, which indicates CO2 capturing into the networks of NP and PAM was intact and even temperature could not deform it. However, a slight reduction in viscosity and moduli of nanofluids was attributed to temperature effect on PAM rheology. Thus, the synthesized nanofluids behaved almost thermally stable and showed marginal effects of flow conditions (shear rate, amplitude, and frequency) on rheological properties and CO2 capturing potential of silica nanofluids, which is of key importance for various applications where conditions differ on a large scale." @default.
W3008060096 created "2020-03-06" @default.
W3008060096 creator A5003649990 @default.
W3008060096 creator A5014668592 @default.
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W3008060096 date "2020-04-01" @default.
W3008060096 modified "2023-10-15" @default.
W3008060096 title "CO2 capturing evaluation of single-step silica nanofluid through rheological investigation for nanofluid use in carbon utilization applications" @default.
W3008060096 cites W1244258818 @default.
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W3008060096 cites W1866514920 @default.
W3008060096 cites W1913615450 @default.
W3008060096 cites W1973756300 @default.
W3008060096 cites W1982341037 @default.
W3008060096 cites W1987168649 @default.
W3008060096 cites W1988976162 @default.
W3008060096 cites W1997921041 @default.
W3008060096 cites W2006894189 @default.
W3008060096 cites W2015668304 @default.
W3008060096 cites W2020194070 @default.
W3008060096 cites W2021168424 @default.
W3008060096 cites W2026080557 @default.
W3008060096 cites W2028845535 @default.
W3008060096 cites W2033035395 @default.
W3008060096 cites W2055437766 @default.
W3008060096 cites W2065320511 @default.
W3008060096 cites W2067251102 @default.
W3008060096 cites W2067700949 @default.
W3008060096 cites W2070281968 @default.
W3008060096 cites W2072777092 @default.
W3008060096 cites W2079762095 @default.
W3008060096 cites W2082302815 @default.
W3008060096 cites W2126249704 @default.
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W3008060096 cites W2318478492 @default.
W3008060096 cites W2460768798 @default.
W3008060096 cites W2463486430 @default.
W3008060096 cites W2513887702 @default.
W3008060096 cites W2556157220 @default.
W3008060096 cites W2557591650 @default.
W3008060096 cites W2560035330 @default.
W3008060096 cites W2570680846 @default.
W3008060096 cites W2605378737 @default.
W3008060096 cites W2769567696 @default.
W3008060096 cites W2771548888 @default.
W3008060096 cites W2782526023 @default.
W3008060096 cites W2791877837 @default.
W3008060096 cites W2804636109 @default.
W3008060096 cites W2891128328 @default.
W3008060096 cites W2893259721 @default.
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W3008060096 cites W2947521012 @default.
W3008060096 cites W2948165823 @default.
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W3008060096 doi "https://doi.org/10.1016/j.molliq.2020.112765" @default.
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