Heat transfer augmentation in developing flow through a ribbed square duct

## Periodic fully developed flow and heat transfer results for a ribbed duct were obtained experimentally and numerically, using the nonlinear and standard k-c turbulence models. Predicted recirculation lengths and maximum Nusselt number locations agreed well with the measured values. Both models

The local heat transfer and pressure drop characteristics of developing turbulent ¯ows of air in three stationary ribbed square ducts have been investigated experimentally. These are: ribbed square duct with constant cross-section (straight duct), ribbed divergent square duct and ribbed convergent s

Turbulent flow in a two-dimensional channel with repeated rectangular rib roughness was numerically simulated using a low Reynolds number form of the k-6 turbulence model. Friction factors and average Stanton numbers were calculated for various pitch to rib height ratios and bulk Reynolds numbers. C

Numerically predicted characteristics of laminar ¯ow and heat transfer through square duct with twisted tape insert are presented in this paper. The transport equations are solved on a non-staggered non-orthogonal grid using the curvilinear version of the ``Complete Pressure Correction'' algorithm.

A numerical study was made to investigate the forced laminar convection in the entrance region of a square duct with one wall subjected to uniform mass transpiration and constant heat flux. Using the concept of pressure deviation and the vorticity-velocity method, the three-dimensional Navier-Stokes