Add to ORKGOverheating of power electronic devices has become a significant issue due to their continued miniaturization and increased heat flux that needs to be dissipated. Ferrofluids (magnetic nanofluids) have been shown to have higher thermal conductivity than their base aqueous or oil based fluids due to the solid magnetic nanoparticles that make up the ferrofluid. This allows higher convective heat transfer rates and, importantly, the ability to externally effect the flow using a magnetic field. In this paper, we focus on material characterization of ferrofluids and measurement of heat transfer rates for single-phase ferrofluidic forced convective flow in microchannels. We show that heat transfer properties of the flow are enhanced with the use ...
The past decade has witnessed rapid advances in thermal-fluid applications involving nanoparticles d...
This Final Year Project involves the experimental investigation of functional nanofluids and thermal...
AbstractWater-based ferrofluids present a new energy transfer fluid with tunable properties. Previou...
Some experimental tests were conducted to reveal the enhancement of the ferrofluid heat transfer und...
The increasing interest in developing nanofluids in general and ferrofluids in particular offers a p...
Nanofluids are colloidal compounds, where the solid phase material is composed of nano sized particl...
Ferrofluids are colloidal suspensions, in which the solid phase material is composed of magnetic nan...
This paper presents a comparative numerical study of heat transfer enhancement in steady, laminar, h...
As electrical devices become smaller, it is essential to maintain operating temperature for safety a...
This research study presents a numerical study on forced convection heat transfer of an aqueous ferr...
Overheating of power electronic devices has become a significant issue due to their continued miniat...
In this paper, we study the effects of the Lorentz force and the induced anisotropic thermal conduct...
Applying a magnetic field on a ferrofluid flow induces a large increase of the convective heat trans...
Applying a magnetic field on a ferrofluid flow induces a large increase of the convective heat trans...
International audienceThis paper presents an experimental investigation on forced convective heat tr...
The past decade has witnessed rapid advances in thermal-fluid applications involving nanoparticles d...
This Final Year Project involves the experimental investigation of functional nanofluids and thermal...
AbstractWater-based ferrofluids present a new energy transfer fluid with tunable properties. Previou...
Some experimental tests were conducted to reveal the enhancement of the ferrofluid heat transfer und...
The increasing interest in developing nanofluids in general and ferrofluids in particular offers a p...
Nanofluids are colloidal compounds, where the solid phase material is composed of nano sized particl...
Ferrofluids are colloidal suspensions, in which the solid phase material is composed of magnetic nan...
This paper presents a comparative numerical study of heat transfer enhancement in steady, laminar, h...
As electrical devices become smaller, it is essential to maintain operating temperature for safety a...
This research study presents a numerical study on forced convection heat transfer of an aqueous ferr...
Overheating of power electronic devices has become a significant issue due to their continued miniat...
In this paper, we study the effects of the Lorentz force and the induced anisotropic thermal conduct...
Applying a magnetic field on a ferrofluid flow induces a large increase of the convective heat trans...
Applying a magnetic field on a ferrofluid flow induces a large increase of the convective heat trans...
International audienceThis paper presents an experimental investigation on forced convective heat tr...
The past decade has witnessed rapid advances in thermal-fluid applications involving nanoparticles d...
This Final Year Project involves the experimental investigation of functional nanofluids and thermal...
AbstractWater-based ferrofluids present a new energy transfer fluid with tunable properties. Previou...