One Dimensional Steady Flow of a Radiating Gas Past a Heat Source
スポンサーリンク
概要
- 論文の詳細を見る
One dimensional steady flow of a grey gas past a grey non-reflecting heat source is studied. This linearized problem is not only a model of radiative furnace but also one of the simplest problem which concern the interaction between the convection and the thermal radiation. The conductivity and the viscosity are neglected. The kernel substitution solution is obtained and its correction is tried. The exact form for weak radiation and near the heat source for arbitrary radiation strength, the solution by diffusion approximation without slip and numerical results are obtained and compared with each other. The temperature profile shows almost symmetric feature for weak radiation. But when radiation is strong, it gradually shifts far up-stream against the convective cooling and rapidly attains its asymptotic value downstream. Radiation slips are also calculated.
- 社団法人日本物理学会の論文
- 1971-02-05
著者
関連論文
- Secondary Flow Induced by a Circular Cylinder Oscillating in Two Directions
- Steady Radiative Heat Transfer from a Point Heat Source in a Uniform Flow of an Optically Thick Gas
- Asymptotic Theory of an Optically Thick Radiating Gas Flow Past a Smooth Boundary at Moderate Radiation Strength
- Stagnation Point Flow of a Radiating Gas of a Large Optical Thickness
- Flow of a Radiating Gas Induced by Buoyant Force in Radiation layer
- Flow of a Radiating Gas Induced by Buoyant Force in a Radiation Layer Adjacent to a Semitransparent Boundary
- Steady Radiative Heat Transfer from a Line Heat Source in a Uniform Flow of an Optically Thick Gas
- Secondary Flow Induced by Local Temperature Change in Radiation Layer
- Effect of Scattering on Unsteady Radiative Heat Transfer
- One Dimensional Steady Flow of a Radiating Gas Past a Heat Source
- Theory of Unsteady Radiative Heat Transfer in a Semi-Infinite Space
- Transition of Radiation Field in a Radiation Layer
- Radiating Gas Flow of a Large Optical Thickness along a Semi-Infinite Circular Pipe
- Steady Radiating Gas Flow Past a Semi-Infinite Flat Plate at a Constant Temperature for an Optically Thick Case
- Nonlinear Effect of the Rosseland Approsimation in the Analysis of a Thermal Boundary Layer of a Radiating Gas
- Effect of Sudden Change of Wall Temperature in a Thermal Radiating Gas