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Laminar mixed convection in the entrance region of inclined pipes with high uniform heat fluxes

Conference ·
OSTI ID:687611
;  [1];  [2]
  1. Univ. de Sherbrooke, Quebec (Canada)
  2. Univ. de Moncton, New Brunswick (Canada). School of Engineering
+ Show Author Affiliations

Laminar internal flows with heat transfer are often influenced by buoyancy, which affects the velocity and temperature fields and can enhance heat transfer, reduce the length of the entry region, and induce transition to turbulence. Because of the implications of these phenomena in thermal applications such as heat exchangers, solar collectors, pipelines, etc., the problem of internal mixed convection has been studied extensively for various duct shapes and different thermal boundary conditions. The effects of natural convection on the simultaneously developing laminar flow inside a uniformly heated inclined tube have been numerically studied using the three-dimensional parabolic formulation and the SIMPLE-C algorithm. It has been observed that the buoyancy-induced secondary flow develops quite rapidly, drastically perturbing the flow and thermal field. Its intensity increases to a maximum and then decreases to a certain asymptotic state as the fully developed conditions occur. The axisymmetry of the flow and the thermal field is destroyed. The isotherms are considerably distorted because of the strong stratification inside the fluid due to the secondary flow. Such effects increase appreciably with increasing Grashof number but tend to decrease as the tube inclination increases. The point of the maximum axial velocity is located on the diameter {theta} = 0, {pi} and well below the tube axis for horizontal tubes. This point moves upward for the case of inclined tubes. It has been generally found that buoyancy forces enhance appreciably the wall shear stress, as well as the heat transfer to the fluid. The average wall shear stress increases considerably with increasing tube inclination. The asymptotic Nusselt number depends strongly on the tube inclination.

Sponsoring Organization:
Natural Sciences and Engineering Research Council of Canada, Ottawa, ON (Canada)
OSTI ID:
687611
Report Number(s):
CONF-980650--
Country of Publication:
United States
Language:
English

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Related Subjects

42 ENGINEERING
FORCED CONVECTION
INCLINATION
LAMINAR FLOW
NATURAL CONVECTION
NUMERICAL ANALYSIS
PIPES
THREE-DIMENSIONAL CALCULATIONS