Advanced Materials-Based Fluids for Thermal Systems

<p>1. Introduction to nanofluids<br>2. Investigating magnetohydrodynamic natural convection in nanofluid‑saturated enclosures through asymptotic expansions<br>3. Impact of nanoparticle aggregation and uniform horizontal magnetic field on melting heat transfer phenomena of nanofluid flow over rotating disk<br>4. Application of nanofluids in refrigeration and air-conditioning<br>5. Application of ferrofluids for heat transfer enhancement<br>6. Nanofluids - magnetic field interaction for heat transfer enhancement<br>7. Impact of nonlinear thermal radiation and ohmic heating on MHD darcy forchheimer flow of water-based carbon nanotubes in the presence of non-uniform heat source<br>8. Thermophysical properties and heat transfer characteristic of copper oxide-based ethylene glycol/water as a coolant for car radiator<br>9. Discussion on the stability of nanofluids for optimal thermal applications<br>10. Flow boiling behaviour of nanofluids<br>11. Entropy optimization of magneto nanofluid flow over a wedge under the Influence of magnetophoresis<br>12. Non-axisymmetric Homann stagnation point flow of nanofluid towards a flat surface in presence nanoparticle diameter and solid-liquid interfacial layer<br>13. On the hydrothermal performance of radiative hybrid nanofluid over a slippery revolving disk in presence of highly oscillating magnetic field<br>14. Applications of nanofluids and future directions</p>