Difference between revisions of "Peter and Meylan 2004"
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and also present the fomulation in a complete manner (treating bodies | and also present the fomulation in a complete manner (treating bodies | ||
of arbitrary geometery for example). | of arbitrary geometery for example). | ||
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+ | == Abstract == | ||
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+ | We extend the finite-depth interaction theory of [[Kagemoto and Yue 1986]] to water of infinite depth and bodies of arbitrary geometry. The sum over the discrete roots of the dispersion equation in the finite-depth theory becomes an integral in the infinite-depth theory. This means that the infinite dimensional diffraction transfer matrix in the finite-depth theory must be replaced by an integral operator. In the numerical solution of the equations, this integral operator is approximated by a sum and a linear system of equations is obtained. We also show how the calculations of the diffraction transfer matrix for bodies of arbitrary geometry developed by [[Goo and Yoshida 1990]] can be extended to infinite depth, and how the diffraction transfer matrix for rotated bodies can be calculated easily. This interaction theory is applied to the wave forcing of multiple ice floes and a method to solve the full diffraction problem in this case is presented. Convergence studies comparing the interaction method with the full diffraction calculations and the finite- and infinite-depth interaction methods are carried out. | ||
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+ | If you have a subscription, you can download the paper at the | ||
+ | [http://dx.doi.org/10.1017/S0022112003007092 publisher's website]. | ||
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+ | [[Category:Reference]] |
Latest revision as of 11:46, 6 June 2006
Malte A. Peter and Michael H Meylan, Infinite depth interaction theory for arbitrary bodies with application to wave forcing of ice floes, J. of Fluid Mechanics., 500, pp 145-167.
This paper extended Kagemoto and Yue Interaction Theory to infinite depth and also present the fomulation in a complete manner (treating bodies of arbitrary geometery for example).
Abstract
We extend the finite-depth interaction theory of Kagemoto and Yue 1986 to water of infinite depth and bodies of arbitrary geometry. The sum over the discrete roots of the dispersion equation in the finite-depth theory becomes an integral in the infinite-depth theory. This means that the infinite dimensional diffraction transfer matrix in the finite-depth theory must be replaced by an integral operator. In the numerical solution of the equations, this integral operator is approximated by a sum and a linear system of equations is obtained. We also show how the calculations of the diffraction transfer matrix for bodies of arbitrary geometry developed by Goo and Yoshida 1990 can be extended to infinite depth, and how the diffraction transfer matrix for rotated bodies can be calculated easily. This interaction theory is applied to the wave forcing of multiple ice floes and a method to solve the full diffraction problem in this case is presented. Convergence studies comparing the interaction method with the full diffraction calculations and the finite- and infinite-depth interaction methods are carried out.
If you have a subscription, you can download the paper at the publisher's website.