Laminar Flow between Two Eccentric Tubes
Laminar Flow between Two Eccentric Tubes
This Demonstration plots the contour lines of the dimensionless velocity of a fully developed laminar flow between two eccentric tubes. The dimensionless radius of the outer tube is 1. Using the sliders, you can specify the inner tube radius, eccentricity, the number of collocation points on the other radius, and the number of terms in the series solution.
U/
U
max
Details
Details
Annular tubes are frequently used in double-pipe heat exchangers. The position of the internal tube has a big influence on the friction coefficient and heat transfer. White (1974) reported results about the annular channel developed by Piercy, Hooper and Winny (1933) on the basis of harmonic functions and conformal transformations. Sparrow, Loeffler, and Hubbard (1961) explored a hybrid method based on separation of variables and numerical collocation of one of the boundary conditions. This Demonstration explores similar methods to plot the velocity field of a fully developed laminar flow between two eccentric tubes.
References
References
N. A. V. Piercy, M. S. Hooper, and H. F. Winny, "Viscous Flow through Pipes with Cores," Phil. Mag., Series 7, 15, 1933 pp. 647-676.
E. M. Sparrow, A. L. Loeffler, and H. A. Hubbard, "Heat Transfer to Longitudinal Laminar Flow between Cylinders," J. Heat Transfer, 83, 1961 pp. 415-422.
F. M. White, Viscous Fluid Flow, New York: McGraw-Hill, Inc., 1974.
External Links
External Links
Permanent Citation
Permanent Citation
Mikhail Dimitrov Mikhailov
"Laminar Flow between Two Eccentric Tubes"
http://demonstrations.wolfram.com/LaminarFlowBetweenTwoEccentricTubes/
Wolfram Demonstrations Project
Published: March 7, 2011