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W4296048512 endingPage "3214" @default.
W4296048512 startingPage "3214" @default.
W4296048512 abstract "This study aimed to develop novel bio-nanofluids using Solanum torvum extracts in synergy with nanoparticles of different chemical nature as a proposal sustainable for enhanced oil recovery (EOR) applications. For this, saponin-rich extracts (SRE) were obtained from Solanum torvum fruit using ultrasound-assisted and Soxhlet extraction. The results revealed that Soxhlet is more efficient for obtaining SRE from Solanum torvum and that degreasing does not generate additional yields. SRE was characterized by Fourier transformed infrared spectrophotometry, thermogravimetric analysis, hydrophilic-lipophilic balance, and critical micelle concentration analyses. Bio-nanofluids based on SiO2 (strong acid), ZrO2 (acid), Al2O3 (neutral), and MgO (basic) nanoparticles and SRE were designed to evaluate the effect of the chemical nature of the nanoparticles on the SRE performance. The results show that 100 mg L-1 MgO nanoparticles improved the interfacial tension up to 57% and the capillary number increased by two orders of magnitude using this bio-nanofluid. SRE solutions enhanced with MgO recovered about 21% more than the system in the absence of nanoparticles. The addition of MgO nanoparticles did not cause a loss of injectivity. This is the first study on the surface-active properties of Solanum torvum enhanced with nanomaterials as an environmentally friendly EOR process." @default.
W4296048512 created "2022-09-17" @default.
W4296048512 creator A5005984561 @default.
W4296048512 creator A5037859404 @default.
W4296048512 creator A5057256359 @default.
W4296048512 creator A5064755814 @default.
W4296048512 creator A5072521878 @default.
W4296048512 date "2022-09-16" @default.
W4296048512 modified "2023-09-27" @default.
W4296048512 title "Development of Bio-Nanofluids Based on the Effect of Nanoparticles’ Chemical Nature and Novel Solanum torvum Extract for Chemical Enhanced Oil Recovery (CEOR) Processes" @default.
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W4296048512 doi "https://doi.org/10.3390/nano12183214" @default.
W4296048512 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36145002" @default.
W4296048512 hasPublicationYear "2022" @default.