You can read my paper below, I get experimental work and extend it with numerical analysis by ANSYS then estimate many results by develop an ANN program.
You can read my paper below, I get experimental work and extend it with numerical analysis by ANSYS then estimate many results by develop an ANN program.
Dear Prof, there are some explinations regard this matter and one of them hydrodynamics effects of Brownian motion for nanoparticles, also, molecular level layering of liquid at liquid-particle interface. Ballistic nature of heat transport for particle may be responsable for rapid heat transport for particles in liquids. More investigation regard this topic will give insight direction for more explenations in future. Regards
When nanoparticles of higher thermal conductivity are dispersed in a lower thermal conductivity liquid, they will be suspended in the liquid forming a new homogeneous mixture (nanofluid). The new mixture exhibits a new physical properties that consisting the two mixed components (base fluid and nanoparticles), hence the thermal conductivity of the nanofluid will be plausibly higher than the lower component (according to Maxwell theory).