Two fractal models for determination of the effective thermal conductivity of bidispersed porous media are developed based on the fractal theory and electrical analogy technique. The theoretical predictions from the proposed fractal thermal conductivity models are compared with those from the previous lumped-parameter model and from experimental data. The results from the proposed fractal models are shown to be in good agreement with both the lumped-parameter model and the experimental data
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
A generalized model for the effective thermal conductivity of porous media is derived based on the f...
Quantitative evaluation of the effective thermal conductivity of porous media has received wide atte...
An approximate model, a fractal geometry model, for the effective thermal conductivity of three-phas...
A fractal analysis of effective thermal conductivity for unsaturated fractal porous media is present...
The effective thermal conductivity of porous materials is a function of the intrinsic characteristic...
Accurate estimation of the thermal conductivity of porous materials is crucial for the modeling of h...
The improvement in the insulation material performance is one of the recent crucial problems. The en...
AbstractSeveral studies have shown that fractal geometry is a tool that can replicate and investigat...
The modeling of the microstructure of the materials is growing. Several studies have shown that frac...
Several studies have shown that fractal geometry is a tool that can replicate and investigate the na...
Thermal conductivity of dry porous building materials is determined by configuration of their solid ...
The permeability of the fractal porous media is simulated by Monte Carlo technique in this work. Bas...
Thermal conductivity is one of the most important parameters for construction and building materials...
Abstract- The model developed by Springer and Tsai is extended using non-linear volume fraction in p...
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
A generalized model for the effective thermal conductivity of porous media is derived based on the f...
Quantitative evaluation of the effective thermal conductivity of porous media has received wide atte...
An approximate model, a fractal geometry model, for the effective thermal conductivity of three-phas...
A fractal analysis of effective thermal conductivity for unsaturated fractal porous media is present...
The effective thermal conductivity of porous materials is a function of the intrinsic characteristic...
Accurate estimation of the thermal conductivity of porous materials is crucial for the modeling of h...
The improvement in the insulation material performance is one of the recent crucial problems. The en...
AbstractSeveral studies have shown that fractal geometry is a tool that can replicate and investigat...
The modeling of the microstructure of the materials is growing. Several studies have shown that frac...
Several studies have shown that fractal geometry is a tool that can replicate and investigate the na...
Thermal conductivity of dry porous building materials is determined by configuration of their solid ...
The permeability of the fractal porous media is simulated by Monte Carlo technique in this work. Bas...
Thermal conductivity is one of the most important parameters for construction and building materials...
Abstract- The model developed by Springer and Tsai is extended using non-linear volume fraction in p...
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
A generalized model for the effective thermal conductivity of porous media is derived based on the f...
Quantitative evaluation of the effective thermal conductivity of porous media has received wide atte...