Eigenfunction Expansion Solution for Boundary-Layer Equations in Cylindrical Coordinates: Simultaneously Developing Flow in Circular Tubes

Autor:	Renato M. Cotta, Joao N. N. Quaresma, S. P. A. Paz, Emanuel Negrão Macêdo
Rok vydání:	2007
Předmět:	Numerical Analysis Boundary layer Continuity equation Stream function Mathematical analysis Laminar flow Cylindrical coordinate system Eigenfunction Condensed Matter Physics Integral transform Integral equation Mathematics
Zdroj:	Numerical Heat Transfer, Part A: Applications. 52:1123-1149
ISSN:	1521-0634 1040-7782
DOI:	10.1080/10407780701364445
Popis:	The Generalized Integral Transform Technique (GITT) is employed, via a novel eigenfunction expansion, in the solution of the steady-state continuity, momentum, and energy equations under the boundary-layer formulation and cylindrical coordinates, and applied to the solution of simultaneously developing laminar flow inside circular ducts. The streamfunction formulation is adopted to automatically satisfy the continuity equation and to eliminate the pressure field. A fourth-order eigenvalue problem is thus considered for the velocity field, eliminating the difficulties associated with the singularity at the channel centerline through this recently introduced expansion basis. A thorough analysis of convergence behavior is undertaken for both the velocity and temperature proposed eigenfunction representations, and here illustrated for representative values of governing parameters and positions along the channel. Results for quantities associated with applications, such as the product of the friction factor–Re...
Databáze:	OpenAIRE
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