The Stanton number was originally proposed for describing heat transfer through a smooth surface. A modified one is suggested in this paper to take into account non-smooth surface or fractal surface. The emphasis is put on the heat transfer through fabrics. Key words: Stanton number, heat transfer, fabric, fracta
In this study, the surface-to-surface radiation model of the Fluent CFD code is used to investigate ...
ABSTRACT: Radiation heat transfer within the fabric used in fire protective clothing is one of the c...
Wool fiber has a complex hierarchic structure. The multi-scale fibrils are assembled to form a tree...
The Stanton number was originally proposed for describing heat transfer through a smooth surface....
Numerical simulation is a rapid, effective, and low cost method to predict the heat transfer perform...
The effect of irregularities on the rate of heat conduction from a two-dimensional isothermal surfac...
It is well established that the transfer of heat and matter across the interfacial sublayer in the i...
Abstract. In this paper, a numerical mathematical model, which deals with the water vapor sorption m...
Fabric-covered cylinders are convenient analogs forclothing systems. The geometry is well defined an...
In this paper, the heat transfer coefficient of a body with a fractal surface having the fractal dim...
The air flow and conjugate heat transfer through the fabric was investigated numerically. The object...
Convective heat transfer finds applications in several domains of industry like heat exchangers, gas...
The thermal behavior of fabrics depends on many morphological and structural parameters. In this pap...
This paper focuses on a theoretical investigation of the coupling mechanism of heat transfer and liq...
There have been many attempts in the literature to model human thermoregulation systems in order to...
In this study, the surface-to-surface radiation model of the Fluent CFD code is used to investigate ...
ABSTRACT: Radiation heat transfer within the fabric used in fire protective clothing is one of the c...
Wool fiber has a complex hierarchic structure. The multi-scale fibrils are assembled to form a tree...
The Stanton number was originally proposed for describing heat transfer through a smooth surface....
Numerical simulation is a rapid, effective, and low cost method to predict the heat transfer perform...
The effect of irregularities on the rate of heat conduction from a two-dimensional isothermal surfac...
It is well established that the transfer of heat and matter across the interfacial sublayer in the i...
Abstract. In this paper, a numerical mathematical model, which deals with the water vapor sorption m...
Fabric-covered cylinders are convenient analogs forclothing systems. The geometry is well defined an...
In this paper, the heat transfer coefficient of a body with a fractal surface having the fractal dim...
The air flow and conjugate heat transfer through the fabric was investigated numerically. The object...
Convective heat transfer finds applications in several domains of industry like heat exchangers, gas...
The thermal behavior of fabrics depends on many morphological and structural parameters. In this pap...
This paper focuses on a theoretical investigation of the coupling mechanism of heat transfer and liq...
There have been many attempts in the literature to model human thermoregulation systems in order to...
In this study, the surface-to-surface radiation model of the Fluent CFD code is used to investigate ...
ABSTRACT: Radiation heat transfer within the fabric used in fire protective clothing is one of the c...
Wool fiber has a complex hierarchic structure. The multi-scale fibrils are assembled to form a tree...
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