Artigo
Integral transform solution of the Navier–Stokes equations in full cylindrical regions with streamfunction formulation
Registro en:
2040-7939
10.1002/cnm.1222
Autor
Silva, Carlos Alexandre Moreira da
Macêdo, Emanuel Negrão
Quaresma, João Nazareno Nonato
Pereira, Luiz Mariano
Cotta, Renato Machado
Institución
Resumen
A hybrid numerical–analytical solution based on the generalized integral transform technique is proposed to handle the two‐dimensional Navier–Stokes equations in cylindrical coordinates, expressed in terms of the streamfunction‐only formulation. The proposed methodology is illustrated in solving steady‐state incompressible laminar flow of Newtonian fluids in the developing region of a circular tube. The flow modeling also considers two limiting inlet conditions, namely, uniform velocity profile representing a parallel flow, and zero vorticity that characterizes irrotational inlet flow. The integral transform analysis for such a full cylindrical region brings up singularities at the channel centerline, and, as previously described in a work dealing with the boundary‐layer formulation, a way to alleviate this difficulty is to adopt a recently introduced fourth‐order eigenvalue problem as the basis for the eigenfunction expansion. A thorough convergence analysis of the proposed expansion is then undertaken, for different values of Reynolds number, and a set of reference results for the velocity distributions and friction factors are then presented in tabular and graphical forms. Indisponível.