... conductive-**radiative** **heat** **transfer** in absorbing and transmitting medium is very complicated and cumbersome (see ...conductive-**radiative** **transfer** problem can only be obtained numerically ...

6

... The method used to predict **radiative** **heat** **transfer** in combustion chambers in this work is the Patankar’s method. Here, the two- dimensional moment of intensity partial differential equations are ...

8

... conductive-**radiative** **heat** **transfer** problem. Especially, for a **heat** conduction problem in a periodically perforated domain with a non-local boundary condition modelling the radia- tive ...

6

... that **radiative** **heat** **transfer** is the major mode of **heat** **transfer** in high-porosity insulations at temperatures of excess of 400 – 500 ...

159

... 16 **RADIATIVE** **HEAT** **TRANSFER** ...the **radiative** energy falling onto a ...the **radiative** **heat** rate hitting the detector? (b) Assuming that the pyrometer has been calibrated for the ...

33

... the **radiative** **heat** **transfer**. The unsteady state **heat** **transfer** equation is solved for the temperature and **heat** flux in and around the fibers that constitute a nonwoven fibrous ...

7

... the **radiative** **heat** **transfer** flow of mi- cropolar fluid past a vertical permeable flat plat embedded in a porous medium varying surface **heat** ...

17

... 4.4.4 Radiation Source Term The gradient of flux, (∇.q), which is used in the energy source term in the Euler equations, is computed for the circuit breaker for both the P1 model and FVM. As shown in Fig. 4.21 at the ...

61

... with **radiative** **heat** **transfer** past a flat plate moving through a binary mixture for a Sisko fluid has been obtained by solving the governing equations using numerical ...reaction, **heat** source, ...

11

... the **radiative** **heat** **transfer** between two ...the **radiative** **heat** **transfer** between two objects in a variety of situations in which they are separated by a distance smaller than λ Th ...

200

... of **radiative** **heat** **transfer**, with thermal sources inside one of the scattering bodies, to yield the general bounds that comprise our primary ...

9

... the **radiative** **heat** **transfer** is significant, which renders the problem highly non-linear even with the assumption of a differential approximation for the **radiative** **heat** ...

12

... of **radiative** **heat** **transfer** at the nanoscale is very different from that at the ...describe **radiative** **heat** **transfer** when the distance separating two bodies is smaller than the ...

29

... and **radiative** **heat** **transfer** in the ethylene furnace environment is crucial as an initial phase of incorporating the ideas to the real world ...

48

... transient **radiative** **heat** **transfer** in anisotropically scattering, absorbing and emitting medium subject to diffuse and/or collimated short-pulsed laser ...

8

... An analysis of oscillatory flow of a viscoelastic fluid and mass **transfer** along a porous oscillating channel with **radiative** **heat** **transfer** in presence of first-order chemical reaction is ...

6

... surface **radiative** **heat** **transfer** strongly influences the system thermodynamics, leading to a significant increase of the fluid–solid interface ...different **heat** **transfer** modes, are ...

16

... convective **heat** dissipation coefficient under different cooling conditions), an online parameter estimation scheme is needed to improve modelling ...convection **heat** **transfer**, the **radiative** ...

22

... convective **heat** dissipation coefficient under different cooling conditions), an online parameter estimation scheme is needed to improve modelling ...convection **heat** **transfer**, the **radiative** ...

22

... a **radiative** **heat**-**transfer** aspects of an optically thick fluid it seems to be appeared in the literature as studied by many ...diative **heat** **transfer** in a rotating and optically thin ...

6