Redirigiendo al acceso original de articulo en 15 segundos...
Inicio  /  Energies  /  Vol: 10 Núm: 8 Par: August (2017)  /  Artículo
ARTÍCULO
TITULO

Heat Conduction in Porous Media Characterized by Fractal Geometry

Zilong Deng    
Xiangdong Liu    
Yongping Huang    
Chengbin Zhang and Yongping Chen    

Resumen

Fractal geometry (fractional Brownian motion?FBM) is introduced to characterize the pore distribution of porous material. Based on this fractal characterization, a mathematical model of heat conduction is presented to study heat conduction behaviors in porous material with a focus on effective thermal conductivity. The role of pore structure on temperature distribution and heat flux is examined and investigated for fractal porous material. In addition, the effects of fractal dimension, porosity, and the ratio of solid-matrix-to-fluid-phase thermal conductivity (ks/kf) on effective thermal conductivity are evaluated. The results indicate that pore structure has an important effect on heat conduction inside porous material. Increasing porosity lowers thermal conductivity. Even when porosity remains constant, effective thermal conductivity is affected by the fractal dimensions of the porous material. For porous material, the heat conduction capability weakens with increased fractal dimension. Additionally, fluid-phase thermal conduction across pores is effective in porous material only when ks/kf < 50. Otherwise, effective thermal conductivity for porous material with a given pore structure depends primarily on the thermal conductivity of the solid matrix.

 Artículos similares

       
 
Pavla Pekárová, Andrej Tall, Ján Pekár, Justína Vitková and Pavol Miklánek    
This study aimed at the analysis and modelling of the groundwater temperature at the water table in different regions of Slovakia. In the first part, the analysis of the long-term trends of air and soil/ground temperature to a depth of 10 m is presented.... ver más
Revista: Hydrology

 
Haibo Jiang, Dongsen Zhai, Pengfei Xiang and Gang Wei    
In order to study the problem of frost damage to wall rock caused by hydraulic tunnels? phase transition between water and ice at low temperatures in cold regions, a three-field coupling governing equation considering temperature, seepage and stress was ... ver más
Revista: Buildings

 
Alon Davidy    
Pet-coke (petroleum coke) is identified as a carbon-rich and black-colored solid. Despite the environmental risks posed by the exploitation of pet-coke, it is mostly applied as a boiling and combusting fuel in power generation, and cement production plan... ver más

 
Armin Teskeredzic and Rejhana Blazevic    
A mathematical model and robust numerical solution algorithm for radiator heating of an arbitrary room is presented in this paper. Three separate and coupled transient thermal energy equations are solved. A modified transient heat conduction equation is ... ver más

 
Yubai Li, Hongbin Yan, Mehrdad Massoudi and Wei-Tao Wu    
In this paper, we study the effects of the Lorentz force and the induced anisotropic thermal conductivity due to a magnetic field on the flow and the heat transfer of a ferro-nanofluid. The ferro-nanofluid is modeled as a single-phase fluid, where the vi... ver más
Revista: Energies