专题:Heat and Mass Transfer in Porous Media

This cluster of papers focuses on the study of heat transfer, fluid flow, and thermophysical properties in porous media, particularly in metal foams and packed beds. The research covers topics such as thermal conductivity, forced convection, pressure drop, catalytic reactors, and computational fluid dynamics modeling.
最新文献
Thermosolutal mixed convection flow in a vertical pipe with heat generation/absorption and hydromagnetic effects

article Full Text OpenAlex

Heat and Momentum Transfer in MHD Boundary Layer Flow with Radiation and Heat Source/Sink Effects

article Full Text OpenAlex

Effect of Brinkman number on Chemically reactive Bi-viscous Bingham hybrid nanofluid flow across the penetrable sheet with mass transfer

article Full Text OpenAlex

Exploring the rheology of immiscible non-newtonian fluids in a heated curved channel with thermodiffusion and diffusion-thermo effects

article Full Text OpenAlex

Numerical investigation of vapor condensation in brazed plate heat exchangers using response surface methodology with Box–Behnken design

article Full Text OpenAlex

Employing local filling forms of copper foam to improve heat transfer performance of phase change material by an experimental study

article Full Text OpenAlex

Effect of hydrodynamic and thermal anisotropy on convective heat transfer in a fluid saturated porous duct: A finite volume approach

article Full Text OpenAlex

From interface dynamics to Darcy scale description of multiphase flow in porous media

article Full Text OpenAlex

SLM-Fabricated CuCrZr TPMS Heat Exchangers: Influence of Structural Design on Fluid Transport Characteristics

article Full Text OpenAlex

On the Stability of Triple-Diffusive Convection in a Voigt Fluid-Saturated Darcy–Brinkman Porous Medium

article Full Text OpenAlex

近5年高被引文献
High performance, microarchitected, compact heat exchanger enabled by 3D printing

article Full Text OpenAlex 214 FWCI19.6193

A Review of Recent Investigations on Flow and Heat Transfer Enhancement in Cooling Channels Embedded with Triply Periodic Minimal Surfaces (TPMS)

review Full Text OpenAlex 171 FWCI15.1676

Enhancing PCMs thermal conductivity: A comparison among porous metal foams, nanoparticles and finned surfaces in triplex tube heat exchangers

article Full Text OpenAlex 150 FWCI14.0773

Deep learning for mass transport in porous media

article Full Text OpenAlex 136 FWCI24.4677

Heat transfer and fluid flow analysis of microchannel heat sinks with periodic vertical porous ribs

article Full Text OpenAlex 132 FWCI12.3859

Fluid flow and heat transfer of porous TPMS architected heat sinks in free convection environment

article Full Text OpenAlex 126 FWCI11.106

MHD Flow of a Hybrid Nano-Fluid in a Triangular Enclosure with Zigzags and an Elliptic Obstacle

article Full Text OpenAlex 125 FWCI9.8465

Thermo-fluidic transport process in a novel M-shaped cavity packed with non-Darcian porous medium and hybrid nanofluid: Application of artificial neural network (ANN)

article Full Text OpenAlex 123 FWCI9.6063

Research progress of transpiration cooling for aircraft thermal protection

article Full Text OpenAlex 122 FWCI26.3163

Forced convection heat transfer in heat sinks with topologies based on triply periodic minimal surfaces

article Full Text OpenAlex 118 FWCI10.8005