摘要
The effect of friction factor on the unsteady state mixed convective-radiative heat transfer in an inclined cylindrical annulus is investigated from continuity, momentum and energy equations. The outer cylinder is kept at a constant temperature while the inner cylinder is heated with constant heat flux. The governing equations are normalized and solved using the vorticity-stream function and the BFC (body fitted coordinates) methods. The two heat transfer mechanisms of convection and radiation are treated independently and simultaneously. A computer program (Fortran 90) was built to calculate Nusselt number (Nu) and friction factorffor unsteady state condition for fluid Prandtl number fixed at (Pr = 0.7) (for air as working fluid) with radius ratio (/~ = 2.6), Rayleigh number (0 〈 Ra 〈 103), Reynolds number (50 〈 Re 〈 2,000), conduction-radiation parameter (0 〈 N 〈 10), optical thickness (0 〈 l" 〈 10) and different annulus inclination with horizontal plane (0~ _〈 d 〈 90~) for concentric cylindrical annulus. For the range of parameters considered, results show that radiation enhance heat transfer. It is also indicated in the results that as 3 increasefwill be decrease and also when Re increasefwill be decrease for any value of Ra causing increase in heat transfer. The maximum value off can be recognized at ~ = 90~ and the minimum value at 6 = 0~ for low Re. There is an optimum value of annulus inclination that gives maximum value of Nu, this maximum value appears at 90~ of annulus inclination comparison of the result with the previous work shows a good agreement.
