Numerical results are presented for the dimensionless emissive power at the boundary of a nongray semi-infinite medium in radiative equilibrium. The adsorption coefficient of an array of equal intensity, nonoverlapping bands or lines. Specifically, the rectangular, triangular, exponential, Doppler and Lorentz profiles are considered. © 1975
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
Radiative transfer through an absorbing, emitting and heat generating nongray medium confined betwee...
An exact formulation is presented for a nongray two-dimensional, finite, planar, absorbing-emitting ...
An exact formulation is presented for a nongray two-dimensional, finite, planar, absorbing-emitting ...
The problem of energy transfer through a nongray absorbing and emitting medium capable of generating...
Nongray radiation transfer has been studied in a two-dimensional medium taking into account the wind...
This thesis is concerned with solutions of the equation of radiative transfer in non-uniform media, ...
The emissive power and radiative flux at the boundaries are calculated for a two-dimensional, finite...
Exact numerical solutions are presented for the radiative flux and emissive power at the boundary of...
The P-N approximation is extended to treat nongray radiative transfer problems in planar media. The ...
Radiative transfer in a nongray, absorbing-emitting spherical layer is investigated. The absorption ...
This paper considers the non-stationary monochromatic radiative transfer in an infinite one-dimensio...
Abstract: The solution of radiative transfer boundary problem for the plane-parallel atmos...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
Radiative transfer through an absorbing, emitting and heat generating nongray medium confined betwee...
An exact formulation is presented for a nongray two-dimensional, finite, planar, absorbing-emitting ...
An exact formulation is presented for a nongray two-dimensional, finite, planar, absorbing-emitting ...
The problem of energy transfer through a nongray absorbing and emitting medium capable of generating...
Nongray radiation transfer has been studied in a two-dimensional medium taking into account the wind...
This thesis is concerned with solutions of the equation of radiative transfer in non-uniform media, ...
The emissive power and radiative flux at the boundaries are calculated for a two-dimensional, finite...
Exact numerical solutions are presented for the radiative flux and emissive power at the boundary of...
The P-N approximation is extended to treat nongray radiative transfer problems in planar media. The ...
Radiative transfer in a nongray, absorbing-emitting spherical layer is investigated. The absorption ...
This paper considers the non-stationary monochromatic radiative transfer in an infinite one-dimensio...
Abstract: The solution of radiative transfer boundary problem for the plane-parallel atmos...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
International audienceThe original radiation transfer model is dedicated to strongly non homogeneous...
DOI
Add to ORKG
.svg%3Fwidth%3D300&w=3840&q=75)