EXPERIMENTAL INVESTIGATION OF GREEN NANOFLUIDS: ASSESSMENT OF WETTABILITY, VISCOSITY AND THERMAL CONDUCTIVITY
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Metallic nanoparticles are a type of nanomaterial
synthesized from metallic precursors. Due to their unique
physiochemical, electrical, and optical properties, metallic
nanoparticles are widely studied and applied in various areas
such as medicine, electronics, and heat transfer systems.
However, conventional synthesis methods to produce metallic
nanoparticles face challenges such as instability and
environmental concerns, prompting the exploration of greener
synthesis methods. Green synthesis uses natural resources like
plants and algae as reducing agents, offering a more
environmentally friendly approach for the synthesis of metallic
nanoparticles. These green-synthesized metallic nanoparticles
can enhance heat transfer by becoming part of nanofluids (NFs),
which are colloidal mixtures of NPs in a fluid base. NFs,
employed for heat transfer. As a result, it is essential to
characterize the NFs regarding wettability, viscosity, and
thermal conductivity. The results of the spectrophotometer
confirmed the green synthesis of NPs, and it was observed that
the increase in NP concentration impacted the contact angle,
improving the ability to wet. The thermal conductivity is also
modified, with an improvement of 11.3% compared to distilled
water, without a significant increase in fluid viscosity.
