Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/numerical-construction-of-potential-flows-in-multiply-connected-Gkq0CE5Wmn
References (10)
-
D. Crowdy (2006)
Analytical solutions for uniform potential flow past multiple cylindersEuropean Journal of Mechanics B-fluids, 25
-
K. Amano (1998)
A Charge Simulation Method for Numerical Conformal Mapping onto Circular and Radial Slit DomainsSIAM J. Sci. Comput., 19
-
H Baker (1995)
Abelian Functions -
D. Crowdy, Jonathan Marshall (2005)
Analytical formulae for the Kirchhoff–Routh path function in multiply connected domainsProceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 461
-
S Murashima (1983)
Charge Simulation Method and its Application -
Hidenori Ogata, Dai Okano, K. Amano (2002)
Numerical conformai mapping of periodic structure domainsJapan Journal of Industrial and Applied Mathematics, 19
-
D. Crowdy, Jonathan Marshall (2006)
Conformal Mappings between Canonical Multiply Connected DomainsComputational Methods and Function Theory, 6
-
D. Crowdy, Jonathan Marshall (2007)
Computing the Schottky-Klein Prime Function on the Schottky Double of Planar DomainsComputational Methods and Function Theory, 7
-
K. Amano (1994)
A charge simulation method for the numerical conformal mapping of interior, exterior and doubly-connected domainsJournal of Computational and Applied Mathematics, 53
-
M. Katsurada, H. Okamoto (1996)
The collocation points of the fundamental solution method for the potential problemComputers & Mathematics With Applications, 31
- Publisher
- Springer Journals
- Copyright
- Copyright © 2011 by Heldermann Verlag
- Subject
- Mathematics; Analysis; Computational Mathematics and Numerical Analysis; Functions of a Complex Variable
- ISSN
- 1617-9447
- eISSN
- 2195-3724
- DOI
- 10.1007/BF03321870
- Publisher site
- See Article on Publisher Site
Abstract
We consider inviscid and incompressible flows in two-dimensional multiply connected domains between two infinitely long parallel straight lines, which are simple models describing channel flows such as rivers, streams and canals. In the present paper, we propose two computational methods to construct the complex potentials for a uniform flow, a point vortex, a source and a sink in the multiply connected channel domains. First, we give analytic formulae of the potential flows in a special channel domain with circular holes, which are described in terms of the Schottky-Klein prime function as in Crowdy and Marshall [5]. Second, we make use of the numerical conformal mapping techniques by Amano [1] and Ogata [11] to approximate the complex potentials in the channel domains that contain boundaries of arbitrary shapes. We also confirm that the numerical techniques can be applied to construct the potential flows in a real river. The two methods provide us with analytic representations of the complex potentials, which enable us to compute the velocity field in the channel domains and the force on the boundaries quickly and accurately.
Journal
Computational Methods and Function Theory – Springer Journals
Published: Apr 2, 2013