Pages that link to "Item:Q1038150"

The following pages link to Experimental determination of thermal conductivity of three nanofluids and development of new correlations (Q1038150):

Displaying 22 items.

• Mixed convection heat transfer of nanofluids over backward facing step having a slotted baffle (Q279187) (← links)
• Thermal and hydraulic characteristics of nanofluid in a triangular grooved microchannel heat sink (TGMCHS) (Q295178) (← links)
• Impact analysis of natural convection on thermal conductivity measurements of nanofluids using the transient hot-wire method (Q550750) (← links)
• Thermal conductivity of non-Newtonian nanofluids: experimental data and modeling using neural network (Q631126) (← links)
• Temperature-dependent aggregation and diffusion in nanofluids (Q632533) (← links)
• Heat conduction in nanofluids: structure-property correlation (Q650574) (← links)
• Numerical investigation of effective parameters in convective heat transfer of nanofluids flowing under a laminar flow regime (Q650583) (← links)
• A critical synthesis of thermophysical characteristics of nanofluids (Q650589) (← links)
• A fractal model for predicting the effective thermal conductivity of liquid with suspension of nanoparticles (Q1423418) (← links)
• Determination of one unknown thermal coefficient through a mushy zone model with a convective overspecified boundary condition (Q1666208) (← links)
• Solvothermal synthesis and electrical conductivity model for the zinc oxide-insulated oil nanofluid (Q1933234) (← links)
• Improvement in thermal conductivity of paraffin by adding high aspect-ratio carbon-based nano-fillers (Q2015611) (← links)
• Use of neural network and machine learning in optimizing heat transfer and entropy generated in a cavity filled with nanofluid under the influence of magnetic field: a numerical study (Q2128027) (← links)
• Numerical investigation and optimization of natural convection and entropy generation of alumina/H\(_2\)O nanofluid in a rectangular cavity in the presence of a magnetic field with artificial neural networks (Q2161643) (← links)
• Numerical simulation of nanofluid convective heat transfer in an oblique cavity with conductive edges equipped with a constant temperature heat source: entropy production analysis (Q2217173) (← links)
• Mixed convection heat transfer in a CuO-water filled trapezoidal enclosure, effects of various constant and variable properties of the nanofluid (Q2289973) (← links)
• Direct numerical simulation of thermal conductivity of nanofluids: the effect of temperature two-way coupling and coagulation of particles (Q2379405) (← links)
• Analyzing geometric parameters in inclined enclosures filled with magnetic nanofluid using artificial neural networks (Q6040726) (← links)
• Numerical investigation, environmental consideration, and the use of machine learning in optimizing the dimensions of a rectangular blade between two blades in the presence of a magnetic field (two-phase method) (Q6043962) (← links)
• Frictional, thermal, and total entropy generation of two-phase nanofluid turbulent flow in a circular heatsink: a numerical study (Q6044000) (← links)
• Influences of blowing and internal heating processes on steady MHD mixed convective boundary layer flows of radiating titanium dioxide-ethylene glycol nanofluids (Q6549736) (← links)
• Convective heat transfer of laminar nano-fluids flow through a rectangular micro-channel with different types of baffle-corrugation (Q6573101) (← links)