Masuoda Farhat 1* , Mohammed A Samba 2 , Mahmoud Faysil 2 , Fares Fenniche
الملخص الانجليزي
This investigation delved into the comprehensive assessment of a composite amalgam featuring
hybrid nanoparticles composed of CoFe2O4, an extract from Commiphora Myrrha, and Coal Fly
Ash. The primary objective of this study was to ascertain the potency of this composite in
addressing the intricate challenge of marine oil spill mitigation, particularly within the context
of pervasive environmental contamination. The synthesis of the hybrid nanoparticles was
executed at Sebha University, with the remaining components being procured from established
commercial sources. The meticulous characterization of these constituents was conducted
employing advanced analytical techniques, namely X-ray diffraction spectroscopy (XRD) and
infrared absorption spectroscopy (FTIR). The empirical findings gleaned from the experimental
investigation conspicuously spotlight the superior efficacy achieved through the strategic
employment of hybrid NPs, specifically the CoFe2O4 nanoparticles combined with Commiphora
Myrrha extract, at a compositional ratio of 20:80. Under these conditions, an appreciable oil
removal efficiency of 30.7% was realized, demonstrating the pronounced influence of the
amalgamation on the mitigation process. Notably, this efficacy was realized at a concentration
of 0.06 g, underscoring the optimal operational parameter within this experimental framework.
Remarkably, the pinnacle of success was encountered when hybrid NPs were synergistically
combined with coal fly ash, configuring a proportion of 30:70. This synergistic alliance yielded
a conspicuously impressive oil removal efficiency of 69.7% under identical concentration
conditions of 0.06 g. This outcome significantly underscores the strategic potential of the
composite in the context of marine oil spill remediation. The ramifications of these findings are
notable, as they contribute to the advancement of knowledge in the realm of environmental
contamination management. Furthermore, the demonstrated efficacy of this composite prompts
further inquiry into refining and optimizing the proportionality of its constituents and their
application methodologies. It is recommended that subsequent studies delve into the
mechanisms underlying this composite's performance enhancement, paving the way for the
potential integration of this innovation into practical strategies aimed at alleviating the
detrimental effects of marine oil spills on aquatic ecosys
تاريخ النشر
29/09/2023
الناشر
International Journal of Natural Science and Nanotechnology
مسعودة فرحات | Masouda Farhat | 1057