<p>Numerical values of Mass flux at the wall when N<sub>1</sub> = N<sub>2</sub> = 1.0, N<sub>3</sub> = 0.1, λ = 0.1, M = 0.1, Kr = 0.1, Pr = 1.2.</p
The role of density and velocity profiles in the flow of particles through apertures has been recently...
<p>Comparisons of heat transfer coefficient with wall and without wall at 33kW/m<sup>2</sup> and 120...
Hence the asymptotic Nusselt number for the case of linear wall temperature-variation is Nu „ = (1 ...
<p>Numerical values of heat flux at the wall when N<sub>2</sub> = 1.0, N<sub>3</sub> = 0.1, λ = 0.1,...
<p>Numerical values of skin friction at the wall when <i>N</i><sub>2</sub> = 1.0.</p
<p>Numerical values of heat transfer rate at the wall for change in the values of different paramete...
<p>Numerical values of wall temperature gradient <i>θ’</i> (0)in the case of regular fluid (<i>Nb</i...
<p>Computational results of wall temperature gradient <i>θ</i>’(0) for different values of parameter...
International audienceIn magnetic fusion experiments, a simple technique to evaluate the heat flux o...
<p>Values of heat transfer characteristics at wall for different emerging parameters when h–<sub>f<...
Summary. Accurate computation of heat flux is a primary motivation for convection calculations, yet ...
A numerical flux function is developed for handling the flow across a porosity interface. The flux f...
Raw experimental data on heat transfer from the wall are presented in the form of electric signals (...
The flow field and the flow rate of a gas in a two-dimensional plane pore of finite length are found...
<p>Comparison of heat transfer rate at the wall of water and Cu-water nanofluid for change in Brinkm...
The role of density and velocity profiles in the flow of particles through apertures has been recently...
<p>Comparisons of heat transfer coefficient with wall and without wall at 33kW/m<sup>2</sup> and 120...
Hence the asymptotic Nusselt number for the case of linear wall temperature-variation is Nu „ = (1 ...
<p>Numerical values of heat flux at the wall when N<sub>2</sub> = 1.0, N<sub>3</sub> = 0.1, λ = 0.1,...
<p>Numerical values of skin friction at the wall when <i>N</i><sub>2</sub> = 1.0.</p
<p>Numerical values of heat transfer rate at the wall for change in the values of different paramete...
<p>Numerical values of wall temperature gradient <i>θ’</i> (0)in the case of regular fluid (<i>Nb</i...
<p>Computational results of wall temperature gradient <i>θ</i>’(0) for different values of parameter...
International audienceIn magnetic fusion experiments, a simple technique to evaluate the heat flux o...
<p>Values of heat transfer characteristics at wall for different emerging parameters when h–<sub>f<...
Summary. Accurate computation of heat flux is a primary motivation for convection calculations, yet ...
A numerical flux function is developed for handling the flow across a porosity interface. The flux f...
Raw experimental data on heat transfer from the wall are presented in the form of electric signals (...
The flow field and the flow rate of a gas in a two-dimensional plane pore of finite length are found...
<p>Comparison of heat transfer rate at the wall of water and Cu-water nanofluid for change in Brinkm...
The role of density and velocity profiles in the flow of particles through apertures has been recently...
<p>Comparisons of heat transfer coefficient with wall and without wall at 33kW/m<sup>2</sup> and 120...
Hence the asymptotic Nusselt number for the case of linear wall temperature-variation is Nu „ = (1 ...
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